原著論文

【欧文原著論文】

1.   Noda M, Seike T, Fujita K, Yamakawa Y, Kido M, Iguchi H. The role of immune cells in brain metastasis of lung cancer cells and neuron-tumor cell interaction. Russian Journal of Physiology Dec ;95(12); 1386-1396 (2009)

2.   Fujita K, Seike T, Yutsudo N, Ohno M, Yamada H, Yamaguchi H, Sakumi K, Yamakawa Y, Kido MA, Takaki A, Katafuchi T, Tanaka Y, Nakabeppu Y, Noda M. Hydrogen in drinking water reduces dopaminergic neuronal loss in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine mouse model of Parkinson's disease. PLoS One. Sep 30;4(9):e7247 (2009)

3.   Kajitani K, Nomaru H, Ifuku M, Yutsudo N, Dan Y, Miura T, Tsuchimoto D, Sakumi K, Kadoya T, Horie H, Poirier F, Noda M, Nakabeppu Y.Galectin-1 promotes basal and kainate-induced neurogenesis in the dentate gyrus of adult mouse hippocampus. Cell Death and Differentiation, 16, 417–427 (2009)

4.   Amano T, Wada E, Yamada D, Zushida K, Maeno H, Noda M, Wada K, Sekiguchi M. Heightened Amygdala Long-Term Potentiation in Neurotensin Receptor Type-1 Knockout Mice. Neuropsychopharmacology. 2008 Dec;33(13):3135-45 (2008)

5.   Ifuku M , Färber K, Okuno Y, Yamakawa Y, Miyamoto T, Nolte C, Merrino VF, Kita S, Iwamoto T, Komuro I, Wang B, Cheung G, Ishikawa E, Ooboshi H, Bader M, Wada K, Kettenmann H and Noda M. Bradykinin-induced microglial migration mediated by B1-bradykinin receptors depends on Ca2+ influx via reverse-mode activity of the Na+/Ca2+ exchanger. J Neurosci. Nov 28;27(48):13065-73 (2007)

6.   Eto K, Arimura Y, Nabekura J, Noda M, Ishibashi H. The effect of zinc on glycinergic inhibitory postsynaptic currents in rat spinal dorsal horn neurons. Brain Res. Aug 3;1161:11-20 (2007)

7.   Noda M, Kido MA, Fujita K, Seike T, Tanaka T and Higashida T. Double-label immunofluorescent staining of CD38 and oxytocin in the mouse hypothalamus. Nature Protocols. DOI: 10.1038/nprot.2007.166 (2007)

8.   Noda M, Kariura Y, Pannasch U, Nishikawa K, Wang L, Seike T, Ifuku M, Kosai Y, Wang B, Nolte C, Aoki S, Kettenmann H, Wada K. Neuroprotective role of bradykinin because of the attenuation of pro-inflammatory cytokine release from activated microglia. J Neurochem. Apr;101(2):397-410 (2007)

9.   Jin D, Liu HX, Hirai H, Torashima T, Nagai T, Lopatina O, Shnayder NA, Yamada K,  Noda M, Seike T, Fujita K, Takasawa S, Yokoyama S, Koizumi K, Shiraishi Y, Tanaka S, Hashii M, Yoshihara T, Higashida K, Islam MS, Yamada N, Hayashi K, Noguchi N, Kato I, Okamoto H, Matsushima A, Salmina A, Munesue T, Shimizu N, Mochida S, Asano M, Higashida H. CD38 is critical for social behavior by regulating oxytocin secretion. Nature, Mar 1;446(7131):41-45 (2007)

10.          Higashida H, Bowden SE, Yokoyama S, Salmina A, Hashii M, Hoshi N, Zhang JS, Knijnik R, Noda M, Zhong ZG, Jin D, Higashida K, Takeda H, Akita T, Kuba K, Yamagishi S, Shimizu N, Takasawa S, Okamoto H, Robbins J. Overexpression of human CD38/ADP-ribosyl cyclase enhances acetylcholine-induced Ca(2+) signalling in rodent NG108-15 neuroblastoma cells. Neurosci Res. Mar;57(3): 339-46 (2007)

11.          Setsuie R, Wang YL, Mochizuki H, Osaka H, Hayakawa H, Ichihara N, Li H, Furuta A, Sano Y, Sun YJ, Kwon J, Kabuta T, Yoshimi K, Aoki S, Mizuno Y, Noda M, Wada K. Dopaminergic neuronal loss in transgenic mice expressing the Parkinson's disease-associated UCH-L1 I93M mutant. Neurochem Int. Jan; 50(1):119-29 (2007)

12.          Eto K, Arimura Y, Mizuguchi H, Nishikawa M, Noda M, Ishibashi H. Modulation of ATP-Induced Inward Currents by Docosahexaenoic Acid and Other Fatty Acids in Rat Nodose Ganglion Neurons. J Pharmacol Sci. Nov;102(3): 343-346 (2006)

13.          Salmina AB, Olovyannikova RY, Noda M, Higashida H, ADP-ribosyl cyclase as a therapeutic target for central nervous system diseases. Central Nervous system agents in medicinal chemistry. 6: 193-210 (2006)

14.          Higashida H, Salmina A, Hashii M, Yokoyama S, Zhang JS, Noda M, Zhong ZG, Jin D. Bradykinin activates ADP-ribosyl cyclase in neuroblastoma cells: intracellular concentration decrease in NAD and increase in cyclic ADP-ribose. FEBS Lett. Sep 4;580(20): 4857-4860 (2006)

15.          Sato A, Arimura Y, Manago Y, Nishikawa K, Aoki K, Wada E, Suzuki Y, Osaka H, Setsuie R, Sakurai M, Amano T, Aoki S, Wada K, Noda M. Parkin potentiates ATP-induced currents due to activation of P2X receptors in PC12 cells. J Cell Physiol. 209: 172-182 (2006)

16.          Sano Y, Furuta A, Setsuie R, Kikuchi H, Wang YL, Sakurai M, Kwon J, Noda M, Wada K. Photoreceptor cell apoptosis in the retinal degeneration of Uchl3-deficient mice. Am J Pathol. 169(1):132-141 (2006)

17.          Amano T, Aoki S, Setsuie R, Sakurai M, Wada K, Noda M. Identification of a novel regulatory mechanism for norepinephrine transporter activity by the IP(3) receptor. Eur J Pharmacol. 536: 62-68 (2006)

18.          Ishibashi H, Eto K, Arimura Y, Yamada J, Hatano Y, Nishikawa M, Noda M, Takahama K. Inhibition of the serotonin-induced inward current by dextromethorphan in rat nodose ganglion neurons. Brain Res. 1097(1):65-70 (2006)

19.          Sakurai M, Ayukawa K, Setsuie R, Nishikawa K, Hara Y, Ohashi H, Nishimoto M, Abe T, Kudo Y, Sekiguchi M, Sato Y, Aoki S, Noda M, Wada K. Ubiquitin C-terminal hydrolase L1 regulates the morphology of neural progenitor cells and modulates their differentiation. J Cell Sci. 119, 162-71 (2006)

20.          Wang YL, Liu W, Sun YJ, Kwon J, Setsuie R, Osaka H, Noda M, Aoki S, Yoshikawa Y, Wada K. Overexpression of ubiquitin carboxyl-terminal hydrolase L1 arrests spermatogenesis in transgenic mice. Mol Reprod Dev. 73, 40-9 (2006)

21.          Johansson JU, Lilja L, Chen XL, Higashida H, Meister B, Noda M, Zhong ZG, Yokoyama S, Berggren PO, Bark C. Cyclin-dependent kinase 5 activators p35 and p39 facilitate formation of functional synapses. Brain Res Mol Brain Res. 138, 215-227 (2005)

22.          Manago Y, Kanahori Y, Shimada A, Sato A, Amano T, Sano-Sato Y, Setsuie R, Sakurai M, Aoki S, Wang Y, Osaka H, Wada K and Noda M. Potentiation of ATP-induced currents due to the activation of P2X receptors by ubiquitin carboxy-terminal hydrolase L1. J. Neurochemistry, 92, 1061-1072 (2005)

23.          Ishibashi H, Eto K, Kajiwara M and Noda M. Facilitation of spontaneous glutamate release by antidepressant drugs in rat locus coeruleus. Neurosci Lett 374 (2), 152-156 (2005)

24.          Kwon J, Wang Y.L, Setsuie R, Sekiguchi S, Sato Y, Sakurai M, Noda M, Aoki S, Yoshikawa Y and Wada K. Two closely related ubiquitin C-terminal hydrolase isozymes function as reciprocal modulators of germ cell apoptosis in cryptorchid testes. Am. J. Pathol., 165, 1367-1374 (2004)

25.          Wang YL, Takeda A, Osaka H, Hara Y, Furuta A, Setsuie R, Sun YJ, Kwon J, Sato Y, Sakurai M, Noda M, Yoshikawa Y, Wada K. Accumulation of beta- and gamma-synucleins in the ubiquitin carboxyl-terminal hydrolase L1-deficient gad mouse. Brain Res. Sep 3;1019(1-2):1-9. (2004)

26.          Kwon J, Wang YL, Setsuie R, Sekiguchi S, Sakurai M, Sato Y, Lee WW, Ishii Y, Kyuwa S, Noda M, Wada K and Yoshikawa Y. Developmental regulation of ubiquitin C-terminal hydrolase isozyme expression during spermatogenesis in mice. Biol. Reprod., Aug;71(2):515-21. Epub 2004 Apr 14. (2004)

27.          Hagino Y, Kariura Y, Manago Y, Amano T, Wang B, Sekiguchi M, Nishikawa K, Aoki S, Wada K, Noda M. Heterogeneity and potentiation of AMPA-type of glutamate receptors in rat cultured microglia. GLIA 47: 68-77 (2004)

28.          Harada T, Harada C, Wang YL, Osaka H, Amanai K, Tanaka K, Takizawa S, Setsuie R, Sakurai M, Sato Y, Noda M, Wada K. Role of ubiquitin carboxy terminal hydrolase-l1 in neural cell apoptosis induced by ischemic retinal injury in vivo. Am J Pathol. 164(1):59-64 (2004)

29.          Osaka H, Wang Y-L, Takada K, Takizawa S, Setsuie R, Li H., Sato Y, Nishikawa K, Sun Y-J, Harada T, Hara Y, Kimura I, Chiba S, Namikawa K, Kiyama H, Noda M, Aoki S and Wada K. Ubiquitin carboxy-terminal hydrolase L1 binds to and stabilizes monoubiquitin in neuron. Human Molecular Genetics, 12, 1945-58 (2003)

30.          Furuta A, Noda M, Suzuki SO, Goto Y, Kanahori Y, Rothstein JD, Iwaki T. Translocation of glutamate transporter subtype excitatory amino acid carrier 1 protein in kainic acid-induced rat epilepsy. Ame. J. Path, 163, 779-787 (2003)

31.          Higashida H, Zhang JS, Mochida S, Chen XL, Shin Y, Noda M, Hossain KZ, Hoshi N, Hashii M, Shigemoto R, Nakanishi S, Fukuda Y, Yokoyama S. Subtype-specific coupling with ADP-ribosyl cyclase of metabotropic glutamate receptors in retina, cervical superior ganglion and NG108-15 cells. J. Neurochemistry, 85, 1148-1158 (2003)

32.          Nishikawa K, Li H, Kawamura R, Osaka H, Wang Y-L, Hara Y, Hirokawa T, Manago Y, Amano T, Noda M, Aoki S, Wada K. Alterations of structure and hydrolase activity of parkinsonism-associated human ubiquitin carboxyl-terminal hydrolase L1 variants. Biochem Biohys Res Commun, 304, 176-183 (2003)

33.          Noda M, Yasuda S, Okada M. Higashida H, Shimada A, Iwata N, Ozaki N, Nshikawa K., Shirasawa S., Uchida M., Aoki S., Wada K. Recombinant human 5-HT5A receptors stably expressed in C6 glioma cells couple to multiple signal transduction pathways. J. Neurochemistry, 84, 222-232 (2003)

34.          Noda M, Kariura Y, Amano T, Manago Y, Nishikawa K, Aoki S and Wada K. Expression and function of bradykinin receptors in microglia. Life Sciences, 72, 1573–1581 (2003)

35.          Higashida H, Hossain KZ, Takahagi H and Noda M. Measurement of adenylyl cyclase by separating cyclic AMP on silica gel thin-layer chromatography. Analytical Biochemistry, 308, 106-111 (2002) (IF 3.24)

36.          Higashida H, Hashii M, Yokoyama S., Hoshi N., X-L. Chen X-L., Egorova A., Noda M., and Zhang J-S.  Cyclic ADP-ribose as a second messenger revisited from a new aspect of signal transduction from receptors to ADP-ribosyl cyclase.  Pharmacology & Therapeutics, 90, 283-296 (2001) (IF 8.69)

37.          Higashida H, Yokoyama S, Hoshi N, Hashii M, Egorova A, Zhong Z-G, Noda M, Shahidullah M, Taketo M, Yasuhiro K, Takahashi H, Chen X-L, Shin Y and Zhang J-S. Signal transduction from brakykinin, angiotensin, adrenergic and muscarinic receptors to effector enzymes, including ADP-ribosyl cyclase.  Biological Chemistry, 382,23-30 (2001) (IF 8.69)

38.          Noda M, Nakanishi H, Nabekura J and Akaike N. AMPA-KA subtypes of glutamate receptor in rat cerebral microglia.  J. Neuroscience 20, 251-258 (2000)

39.          Hadley JK, Noda M, Selyanko AA, Wood IC, Abogadie FC, Brown DA. Differential tetraethylammonium sensitivity of KCNQ1-4 potassium channels. Br. J. Pharmacology, 129(3), 413-415 (2000)

40.          Higashida H, Egorova A, Higashida C, Zhong Z-G, Yokoyama S, Noda M, Zhang J-S.  Sympathetic potentiation of cyclic ADP-ribose formation in rat cardiac myocytes. J. Biological Chemistry, 274, 33348-33354 (1999)

41.          Zhong Z-G, Noda M, Takahashi H and Higashida H. Overexpression of rat synapsins in NG108-15 neuronal cells enhances functional synapse formation with myotubes.  Neuroscience Letters, 260, 93-96 (1999)

42.          Noda M, Nakanishi H. and Akaike N.  Glutamate release from microglia via glutamate transporter is enhanced by amyloid- peptide. Neuroscience 92, 1465-1474 (1999)

43.          Noda M, Obana M and Akaike N. Inhibition of M-type K+ current by linopirdine, a neurotransmitter releaase enhancer, in NG108-15 neuronal cells and rat cerebral neurons in culture. Brain Research, 794, 274-280 (1998)

44.          Ishizaka N., Noda M., Yokoyama S., Kawasaki K., Yamamoto M. and Higashida H.: Muscarinic acetylcholine receptor subtypes in the human iris.  Brain Research, 787, 344-347 (1998) (IF 2.62)

45.          Higashida H, Yokoyama S, Hashii M, Taketo M, Higashida M, Takayasu T, Ohshima T, Takasawa S, Okamoto H. and Noda M. Muscarinic receptor-mediated dual regulation of ADP-ribosyl cyclase in NG108-15 neuronal cell membranes.  J. Biological.Chemistry :  272: 31272-31277 (1997)

46.          Zhong ZG, Yokoyama S, Noda M and Higashida H. Overexpression of adhesion molecule L1 in NG108-15 neuroblastoma x glioma hybrid cells enhances dibutyryl cyclic AMP-induced neurite outgrowth and functional synapse formation with myotubes. J. Neurochemistry. 68: 2291-2299 (1997)

47.          Egorova A, Hoshi N, Knijnik R, Shahidullah M, Hashii M, Noda M, and Higashida H. Sulfhydryl modification inhibits K+ (M) current with kinetics close to acetylcholine in rodent NG108-15 cells. Neuroscience Research. 27: 35-44 (1997)

48.          Higashida H, Hashii M, Yokoyama S, Taketo M, Hoshi N, Noda M, Zhon ZG, Shahidullah M, Minabe Y, Nakashima S and Nozawa, Y. Bradykinin B2 receptors and signal transduction analyzed in NG108-15 neuroblastoma X glioma hybrid cells, B2 receptor-transformed CHO cells and ras-transformed NIH/3T3 fibroblasts. Progress in Brain  Rersearch, 113: 215-230 (1996)

49.          Noda M, Ishizaka N, Yokoyama S, Hoshi N, Kimura Y, Hashii M, Taketo M, Egorava R, Fukuda K, Morioka H, Brown DA and Higashida H. Inositol trisphosphate/ Ca2+ as messengers of bradykinin B2 and muscarinic acetylcholine m1-m4 receptors in neuroblastoma-derived hybrid cells.  J. Lipid Mediat. Cell Signal.  14: 175-185     (1996)

50.          Higashida H, Egorova A, Hoshi N, and Noda M. Streptozotocin, and inducer of NAD+ decrease, attenuates M-potassium current inhibition by ATP, bradykinin, angiotensin II, endothelin I and acetylcholine in NG108-15 cells.  FEBS Lett. 379: 236-238 (1996)

51.          Zhong ZG, Misawa H, Furuya S, Kimura Y, Noda M, Yokoyama S and Higashida H. Overexpression of choline acetyltransferase reconstitutes descrete acetylcholine release in some but not all synapse formation-defective neuroblastoma cells.  J. Physiol. Paris. 89 (3): 137-145 (1995)

52.          Zhong ZG, Kimura Y, Noda M, Misawa H and Higashida H. Discrete acetylcholine release from neuroblastoma or hybrid cells overexpressing choline acetyltransferase into the neuromuscular synaptic cleft. Neurosci Res. 22(1): 81-88 (1995)

53.          Higashida H, Robbins J, Egorova A, Noda M, Taketo M, Ishizaka N, Takasawa S, Okamoto H and Brown DA. Nicotinamide-adenine dinucleotide regulates muscarinic receptor-coupled K+ (M) channels in rodent NG108-15 cells.  J. Physiol. (Lond) 482: 317-323 (1995)

54.          Ishizaka N, Noda M, Kimura Y, Hashii M, Fukuda K, Katayama M, Brown DA and Higashida H. Inositol 1,4,5-trisphosphate formation and ryanodine-sensitive oscillations of cytosolic free Ca2+ concentrations in neuroblastoma x fibroblast hybrid NL308 cells expressing m2 and m4 muscarinic acetylcholine receptor subtypes. Pflugers Arch. Eur. J. Physiol. 429: 426-433 (1995)

55.          Kishida H, Yamamoto K, Fuse Y, Noda M and Higashida H. Activation of inward current associated with M-potassium current inhibition in m1-muscarinic receptor-transformed NG108-15 cells by KST-5452, a novel cognition enhancer.  Neuroscience Letters 172: 119-121 (1994)

56.          Noda M, Okano Y, Nozawa Y, Egorova A and Higashida H. Endothelin induces phosphoinositide metabolite-dependent cellular responses in NG108-15 hybrid cells. Annals of the New York Academy of Sciences 707:482-485 (1993)

57.          Brown DA, Higashida H, Noda M, Ishizaka N, Hashii M, Hoshi N, Yokoyama S, Fukuda K, Katayama M, Nukada T, Kameyama K, Robbins J, Marsh SJ and Selyanko AA. Coupling of muscarinic receptor subtypes to ion channels: Experiments on neuroblastoma hybrid cells.  Annals of the New York Academy of Sciences 707: 237-258 (1993)

58.          Noda M, Katayama M, Brown DA, Robbins J, Marsh SJ, Ishizaka N, Fukuda K, Hoshi N, Yokoyama S  and  Higashida H. Coupling of m2 and m4 muscarinic acetylcholine receptor subtypes to Ca2+-dependent K+ channels in transformed NL308 neuroblastoma x fibroblast hybrid cells.  Proc. R. Soc. Lond. B. 251: 215-224 (1993)

59.          Higashida H, Shahidullah M, Hoshi N, Noda M, Hashii M, Zhong ZG and Nozawa Y. Ion selectivity of Ba2+ inward current oscillations in ras-tranformed fibroblast that elicit cytoplasmic Ca2+ oscillations by bradykinin. Biochem. Biophys. Res. Commun. 185:162-166 (1992)

60.          Higashida H, Hoshi N, Noda M, Shahidullah M, Hahii M and Nozawa Y. Ba2+ current oscillation modulated by cyclic AMP and phorbol ester in ras -transformed fibroblasts. Biochem. Biophys. Res. Commun. 182:1240-1245 (1992)

61.          Higashida, I., Hoshi, N., Hashii, M., Fu, T., Noda, M., and Nozawa, Y.:  Ba2+ current oscillation evoked by bradykinin in ras-transformed fibroblasts. Biochem. Biophys. Res. Commun. 178:713-717 (1991)

62.          Gadsby DC, Noda M, Shepherd RN, Nakao M. Influence of external monovalent cations on Na-Ca Exchange current-voltage relationships in cardiac myocytes. Sodium-Calcium Exchange. Annals of the New York Academy of Sciences  639:140-146 (1991)

63.          Muramatsu I, Noda M, Nishio M, and Fujiwara M. Mechanism of sodium channel block in crayfish giant axon by 711389-s, a new antiarrhythmic drug. J. Pharmacol. Exp. Ther. 242:269-276 (l987)

64.          Muramatsu I, Noda M, Nishio M, and Kigoshi S. Histamine increases the Ca current in guinea-pig ventricular myocytes. Eur. J. Pharmacol. 138:269-272 (l987)

65.          Noda M, Muramatsu I, Kigoshi S and Fujiwara M. Lack of effects of carbachol on the Na/Ca exchange mechanism in frog atrial muscle treated with goniopora toxin. Jpn. J. Pharmacol. 43:61-65 (l987)

66.          Noda M, and Muramatsu I. Effects of Nicorandil on electromechanical activity of frog atrial muscle.  J. Cardiovascular Pharmacology 9:237-241 (l987)

67.          Noda M, Muramatsu I, Fujiwara M, and Ashida K.  Effects of goniopora toxin on bullfrog atrial muscle are frequency-dependent. Naunyn-Schmiedeberg's Arch. Pharmacol. 330:59-66 (1985)

68.          Noda M, Muramatsu I, Fujiwara M. Effects of goniopora toxin on the membrane currents of bullfrog atrial muscle.  Naunyn-Schmiedeberg's Arch. Pharmacol. 327:75-80 (1984)

69.          Urata M, Goto M.  Membrane currents related to configuration changes in the action potential of frog atrial muscle in Na- and Ca-free conditions. J. Mol. Cell. Cardiol. 14:371-379 (1982)

70.          Goto M, Urata M, Hyodo T. Instantaneous and delayed outward currents of the bullfrog atrial muscle in Ca-free or Na-deficient conditions.  Jpn. J. Physiol.  32:573-587 (1982)

71.          Goto M, Urata M, Yatani A, Fujino T. Interaction of adenosine and acetylcholine on the bullfrog atrium Jpn. J. Physiol. 31:501-513 (1981)

72.          Goto M, C-M Sun, Yatani A, Urata M, Fujino T. Antagonistic action of - and -agonist on the bullfrog atrium.  Jpn. J. Physiol. 30:751-765 (1980)

(Note: M. Noda's maiden name was M. Urata.)

 

 

【和文原著論文】

1.    孫欽明、稲沢実、浦田百美心筋機能の新しい調節機序ーAdenosine の役割、福岡医学雑誌、第71巻、第号、p449-454 (1980)

 

 

総説

【欧文総説】

1.   Zeidán-Chuliáa F and Noda M. Opening The Mesenchymal Stem Cell Tool Box. European Journal of Dentistry 3:240-249 (2009)

2.   Higashida H, Salmina AB, Olovyannikova RY, Hashii M, Yokoyama S, Koizumi K, Jin D, Liu HX, Lopatina O, Amina S, Islam MS, Huang JJ, Noda M. Cyclic ADP-ribose as a universal calcium signal molecule in the nervous system. Neurochem. Int. Jul-Sep;51(2-4):192-199. (2007)

3.   Noda M, Sasaki K, Ifuku M, Wada K. Multifunctional effects of bradykinin on glial cells in relation to potential anti-inflammatory effects. Neurochem. Int., 51(2-4), 185-191 (2007)

4.   Noda M, Kettenmann H, Wada K. Anti-inflammatory effects of kinins via microglia in the central nervous system. Biol. Chem. 387: 167-171 (2006)

5.   Higashida H, Hoshi N, Zhang JS, Yokoyama S, Hashii M, Jin D, Noda M, Robbins J. Protein kinase C bound with A-kinase anchoring protein is involved in muscarinic receptor-activated modulation of M-type KCNQ potassium channels. Neurosci Res.  51:231-4, Epub 2005 Jan 08 (2005)

6.   Noda M, Kariura Y, Amano T, Manago Y, Nishikawa K, Aoki S and Wada K. Kinin receptors in cultured rat microglia. Neurochem. Int, 45: 437-442 (2004) Special issue: Glial Biology: Functional Interactions Among Glia and Neurons, Edited by G.A. Dienel

7.   Noda M, Higashida H, Aoki S and Wada K. Multiple signal transduction pathways mediated by 5-HT receptors. Molecular Neurobiology, 29: 31-39 (2004)

 

 

【和文総説】

1.     野田百美:パーキンの機能:生理学的アプローチから、最新医学 特集 パーキンソン病 -最近の進歩、最新医学社、p1643-16482007

2.     野田百美、前野浩巳、和田圭司:トランスポーター、「脳神経科学」、三輪書店、p302-307 (2003)

3.     野田百美、前野浩巳、和田圭司:グルタミン酸トランスポーター、「感覚器官と脳内情報伝達処理」、御子柴克彦、清水孝雄(編)日本生化学会編集、共立出版、p100-107 (2002)

4.     野田百美、安田さつき、東田陽博、和田圭司:セロトニン5A受容体とグリア細胞:その機能と病態について、「脳機能の解明」、ガイア出版会、p179-184 (2002)

5.     東田陽博、横山茂、木村康宏、武田久、橋井美奈子、星直人、高橋博人、申然淑、張家生、陳小良、大巻深穂、武藤恵、野田百美、金中振国、Alla Egoraova:血漿キニンの受容体と細胞内情報伝達の分子生物学、  血漿と内皮、メジカルビュー社、vol. 10, No. 1, p9-13 (2000)

6.     東田陽博、野田百美、橋井美奈子、横山茂: ムスカリン性アセチルコリン受容体、 THE LUNG perspectives. 4(4): 67-72 (1996)

7.     野田百美,  東田陽博: 受容体の分子構造とシナプス後反応、メビオ  10 (12) p106-112 (1993)

8.     野田百美、村松郁延: Na+チャネル拮抗薬、最新医学からのアプローチ(7)イオンチャネル2  p76-85、メジカルビュー社 (1993)

9.     東田陽博、野田百美、木村康宏、橋井美奈子:ムスカリン性受容体遺伝子導入細胞における受容体ー反応カップリング、日本薬理学雑誌、vol. 98, p169-175 (1991)

10.  野田百美、木村康宏、東田陽博: ムスカリン性アセチルコリン受容体、 Annual Review 細胞生物学、矢原一朗 他(編)p339-347 (1991)

11.  東田陽博、伊藤裕二、橋井美奈子、野田百美、榎本浩一:イオンチャネルと生体機能、代謝、Vol. 27, No. 3 「イオンチャネル」p3-12、 中山書店 (1990)

 

 

著書

【欧文】

1.  Karashnikova AV, Mudzhikova OM,  Noda M, Ses TP, Stroev YI, Churilov LP. Role of autacoids in pathogenesis of endocrine disorders in on-syndromal marfanoid phenotype. In: Vestnik Sankt-Peterburgskogo Universiteta, ser. 11, issue 4, p 5-16 (Russian) (2009)

2.   Noda M., Seike T., Fujita K., Kido M., Tanaka T., Iguchi H. The processes of adaptation of microglia in brain trauma and metastasis. Adaptation Biology and Medicine: Volume 5, p165-172. L. Lukyanova, N. Takeda and P.K. Singal (eds). Narossa Publishing House. New Delhi, India. (2007)

3.   Higashida, H., Zhang, J-S., Yokoyama, S., Noda, M., Zhong, Z-G.,Mochida, S., Egorova, A. Symapthetic  potentiation  of cyclic ADP-ribose formation in rat cardiac myocytes. In: Catecholamine research, From Molecular Insights to Clinical Medicine, Advance in Behavioral Biology, Vol. 53, p73-76. Nagatsu, T., Nabeshima, T., Mccarty, R. and Goldstein, D. S. (eds.) Kluwer Academic/Plenum Publishers (2002)

4.   Noda, M., Higashida, H. and Akaike, N.: Inhibition of M-type K+ currents by cognition enhancer in NG108-15 cells and rat cerebral neurons in culture. In: Slow Synaptic Responses and Modulation, p46-48, Kuba, K., Higashida, H., Brown, D. A., and Yoshioka, T. (eds.) Springer, (1999)

5.   Noda, M.and Nakanishi, H.: Discovery of glutamate receptor in rat cerebral microglia. In: The First Japanese-Korea Joint Symposium. p105-110, N. Akaike and Y. Ito (eds), (1999)

6.   Higashida, H., Hashii M., Yokoyama S., Taketo M., Hoshi N., Noda, M., Zhen-Guo Zhong, Shahidullah M., Minabe Y., Nakashima S. and Nozawa Y. Bradykinin B2 receptor and signal transduction analyzed in NG108-15 neuroblastoma x glioma hybrid cells, B2 receptor-transformed CHO cells and ras-transformed NIH/3T3 fibroblasts. In: Progress in Brain Research, Vol. 113, p215-230, T. Kumazawa, L. Kruger and K. Mizumura (eds)  (1996)

7.   Higashida, H., Yokoyama, S., Hoshi, N., Hashii, M., Noda, M. and Zhong, ZG. A preparative study on neuro-muscular synapse formation and hormon-induced calcium mobilizing response in space - A proposal for updated experiments. In: Proceedings of 20th International symposium on Space Technology and Science, p1324-1327 (1996)

 

【和文】

1.    野田百美SBO53 てんかんの病態生理、適切な、治療薬、およびその使用上の注意について説明できる、「薬と疾患」II. 薬物治療(1)、日本薬学会編 スタンダード薬学シリーズ6、東京化学同人 p235-238 (2005)

2.    野田百美、大星博明: SBO52 脳血管疾患の病態生理、適切な治療薬、およびその使用上の注意について説明できる、「薬と疾患」II. 薬物治療(1)、日本薬学会編 スタンダード薬学シリーズ6、東京化学同人 p231-234 (2005)

3.    野田百美SBO51 神経・筋に関する代表的な疾患をあげることができる、「薬と疾患」II. 薬物治療(1)、日本薬学会編 スタンダード薬学シリーズ6、東京化学同人 p226-230 (2005)

4.    野田百美:ミクログリアからのグルタミン酸放出とアルツハイマー病、脳機能の解明 ー21世紀に向けてー、赤池紀生、東英穂、藤原道弘、小暮久也(編)、九州大学出版会、p565-572 (1998)

5.    野田百美、横山茂、金中振国、東田陽博: ニューロブラストーマ x グリオーマ雑種細胞: 培養法とDNA導入、 ニューロサイエンスラボマニュアル1「神経細胞培養法」、中川八郎(編)、スプリンガフェアラーフ社、p240-247 (1997)

6.    東田陽博、横山茂、星直人、木村康宏、野田百美、橋井美奈子、田中恭子、田中達也、綱代広三、深見博子、中川勇三、坂井俊之助、古屋園子、小倉明彦:NG108-15細胞、 動物培養細胞マニュアル、瀬野悍二、小山秀機、黒木登志夫(編)         p306-308, 共立出版(1993)

7.    東田陽博、奥谷正人、東田道久、野田百美: ニューロブラストーマ・グリオーマおよび雑種細胞の培養、神経生化学マニュアル・実験医学別冊 p98-105、羊土社 (1990

 

その他

1.    野田 百美「入沢彩先生を偲んで」生理学女性研究者の会 NEWSLETTER No. 28, p3, (2009)

2.    野田 百美、中別府雄作 水素を含んだ水の日常飲用が脳神経の変性を防ぐ事を発見~パーキンソン病モデルマウスに対する治療・予防効果~ 九州大学PRESS RELEASE p1-6 (2009.09.29)

3.    野田 百美「好きなことをして国際人になろう」九州大学女性研究者支援室編、「科学の未来は女性が拓くIIp8(2008)

4.    野田 百美「ドイツ・Max-Delbruck Centerの紹介」AFTERNOON TEA 日本生理学雑誌 第67巻11号 p370-371 (2005)

 

学会等における発表

【国際学会:シンポジウム・ワークショップ・招待講演】

1.    Mami Noda. Modification of microglial function in response to glutamate and its possible participation in the neurodegenerative diseases. (La Serena, Chile, 2009.9.24) V Annual Meeting of the Sociedad Chilena de Neurociencia

2.    Mami Noda, Bradykinin as an attractant of immune cells in the brain and its possible neuroprotective role. (Quebec, Canada, 2009.06.29) The 5th International symposium peptide receptors/KININ 2009

3.    Mami Noda, Masataka Ifuku, Yuko Okuno, Yukiko Yamakawa Interaction between brain’s immune cells and neuropeptides. (St. Petersburg Russia, 2009.06.17) International Symposium “Interaction of the nervous and immune systems in health and disease” (2009)

4.    Mami Noda, Effects of neuropeptides in microglia under pathophysiologic conditions. (Goettingen, Germany, 2009.3.25) Eighth Goettingen Meeting of German Neuroscience Society (2009)

5.    Mami Noda, Biological and pharmacological assay system for the brain metastases of peripheral tumor cells. (Taipei, Taiwan, 2009.3.4) The Second Taiwan-Japan Chinese Medicine Mini symposium. P56-59 (2009)

6.    Mami Noda, Masataka Ifuku, Yuko Okuno, Yukiko Yamakawa. Brain’s immune cells and anti-inflammatory effects of neuropeptides. (Nurngberg, Germany, 2008.10.3) EHRLICH II 2nd World Conference on Magic Bullets (Celebrating the 100th Anniversary of the Nobel Prize Awarded to Paul Ehrlich) (2008)

7.    M. Noda. Biological and pharmacological assay system for the central nervous system. (Taiwan, 2008.2.19) TW-JP Chinese Medicine Symposium in NRICM (2008)

8.    Mami Noda. Glial cells: microglia. (Berlin, Germany, 2007.11.29) Berlin Brain Days, 4th international PhD Symposium & Seminar on Neuroinflammation (2007)

9.    Mami Noda. Mechanisms how microglia migrate to the site of injury and inflammation. (Krasnoyarsk, Russia, 2007. 10.3) II Russia-Japan Workshop on Neurosciences (2007)

10. Noda M., Wang B., Pannasch U., Wada K., Kettenmann H. UP-REGUALTAION OF SPECIFIC TYPE OF KCNQ CHANNELS IN MICROGLIA UNDER PATHOLOGICAL CONDITION. (St. Petersburg, Russia. 2007.5.31-6.1) International Symposium “Interaction of the nervous and immune systems in health and disease” (2007)

11. M. Noda, B. Wang, U. Pannasch, H. Kettenmann, K. Wada. KCNQ channels in microglial cells and implications for inflammation and neuroprotection. 3rd ESN Conference on Advances in Molecular Mechanisms of Neurological Disorders (2007). (Salamanca, Spain, 2007.5.20)

12. Mami Noda, Toshihiro Seike, Kyota Fujita, Mizuho A. Kido, Teruo Tanaka, and Haruo Iguchi. Interaction between cancer cells and glial cells in microenvironment of brain metastasis. 2006’ International Symposium for Pharmaceutical Sciences in Beijing. (Beijing, China, 2006.10.11)

13. Noda, M., Seike, T., Fujita, K., Kido, M., Tanaka, T. Iguchi, H. The processes of adaptation of microglia in brain trauma and metastasis. (Moscow, Russia, 2006.6.22) VIII World Congress of International Society for Adaptive Medicine (ISAM) (2006)

14. Noda, M., Ifuku, M., Farber, K., Seike, T., Wang, B., Kettenmann, H., Wada, K. Protective effects of kinins via microglia in the brain. (Fukuoka, Japan, 2006.1.26) Asian Symposium for Pharmaceutical Science in JSPS Asian Core Program, p5-7 (2006)

15. Noda, M., Kariura, Y., Pannasch, U., Wang, L., Ifuku, M., Nolte, C., Nishikawa, K., Wang, B., Aoki, S., Kettenmann, H., Wada, K. Anti-inflammatory effects of BK in microglia. (Kitakyushu, Japan, 2005.7.24) The Fifth Japan-Korea Joint Symposium of Brain Sciences, and Cardiac and Smooth Muscles. (2005)

16. Noda, M. Microglia: a sensor for pathology and immune system in the central nervous system. (St. Petersburg, Russia, 2005. 6.17) Russian-Japanese Seminar on Immunoneuroendocrinology. (2005)

17. Noda, M., Kariura, Y., Kosai, Y., Pannasch, U., Wang, L., Kettenmannm, H., Nishikawa, K., Okada, T., Aoki, S., Wada, K. Anti-inflammatory effects of kinins via microglia in the central nervous system. 1st International Conference Exploring the Future of Local Vascular and Inflammatory Mediators. (2005) (Lund, Sweden, 2005.5.28)

18. Noda, M. Kariura, Y., Kosai, Y., Pannasch, U., Wang, L., Kettenmann, H., Nishikawa, K., Okada, S., Aoki, S., Wada, K. Inflammation in the CNS: The role of bradykinin in glial cells. In symposium: Mechanisms of neuron-microglia interaction. 6th Biennial Meeting of the Asian-Pacific Society for Neurochemistry (APSN) (Hong Kong, 2004.2.6)

19. M. Noda, S. Satsuki, H. Higashida, K. Wada, Cellular function of serotonin 5-HT5A receptor in glial cells. (Fukuoka, Japan, 2002.5.9-10) The Third International Symposium on the Study of Brain Function (2002)

20. Noda, M., Akaike, N., Higashida, H. Inhibition of M-type K+ currents by cognition enhancers in NG108-15 cells and rat cerebral neurons in culture. (Kanazawa, Japan, 1998.03.27-29) The 75th Annual Meeting of the physiological Society of Japan, Satellite Symposium. p27 (1998)

 

海外セミナー:講義

1.     Noda, M. Microglial migration induced by bradykinin and its neuroprotective role. (Department Psychiatry, University of Washington, Seattle, USA, 2007.12.12) Microglia Journal Club

2.     Noda, M. Glial cells: microglia (Berlin, Germany, 2007.11.26-29 (29)) Berlin Brain Days, 4th international PhD Symposium & Seminar on Neuroinflammation

3.     Noda, M. Importance of glia in the central nervous system; the role in pathophysiological condtions. (Department of Biochemistry, Medical Pharmaceutical & Toxicological Chemistry, Krasnoyarsk State Medical Academy, Russia, 2007. 10.5 )

4.     Noda, M. The importance of glia. (Department of Pathophysiology, State University of St. Petersburg, Russia, 2007. 5.30)

5.     Noda, M. Protective effects of kinin via microglia in the brain. (Department of Neurology, University of Washington, Seattle, USA, 2006.03.16)

6.     Noda, M. Anti-inflammatory effects of kinins in microglia, an immune cell in the central nervous system. (Karolinska Institutet, Stockholm, Sweden, 2005. 5.30)

7.     Noda, M. Physiological and molecular biological characterization of KCNQ channels in neuron and glia. (MDC, Berlin, Germany, 2005. 5.24)

8.     Noda, M. AMPA-type of glutamate receptors in microglia. (MDC, Berlin, Germany, 2004. 10.7)

9.     Noda, M. Expression and function of kinin receptor in microglia. (MDC, Berlin, Germany, 2003. 9.18)

10.  Noda, M., Glutamate transporters and receptors in microglia. (UCL, London, UK, 1999. 7. 23)

 

【国際学会:一般演題(口演)

1.    Kaoru Beppu, Taiki Miyamoto, Yuko Okuno, Mami Noda, Dysfunction of AMPA type of glutamate receptors in microglia and pathophysiological implication.. All Russian Students’ seminar for Fundamental Science and Clinical Medicine. (2009) (St. Petersburg, Russia, 2009.4.18)

2.    Mami Noda, Toshihiro Seike, Kyouta Fujita, Mizuho A. Kido, and Haruo Iguchi. The role of glial cells in brain metastases of tumor cells The 17th Interational Conference on Brain Tumor Research & Therapy (2008) p32 (Hakodate, 2008 7.10)

3.    Noda M, Kariura Y., Kosai Y, Pannasch U, Wang L, Kettenmannm H, Nishikawa K, Okada T, Aoki S, Wada K. Anti-inflammatory effects of kinins via microglia in the central nervous system. 1st International Conference Exploring the Future of Local Vascular and Inflammatory Mediators. (2005) (Lund, Sweden, 2005.5.28)

4.    Haruhiro Higashida, Jia-Sheng Zhang, Xiao-Liang Chen, Yeonsook Shin, Mami Noda, Hoshi Naoto, Minako Hashii, Zen-Guo Zhong, Alla Egorova, Duo Jin and Shigeru Yokoyama. Subytpe-specific coupling with ADP-ribosyl cyclase of metabotropic glutamate and muscarinic receptors in retina and cervical superior ganglion. The 4th International Symposium on Receptor Mechanisms, Signal Transduction and Drug Effects (Fukui, Japan, 2003. 5.22-24)

 

【国際学会:パネル】

1.    Kyota Fujita. Toshihiro Seike, Noriko Yutsudo, Mizuki Ohno, Hidetaka Yamada, Hiroo Yamaguchi, Kunihiko Sakumi, Yukiko Yamakawa, Mizuho A. Kido, Atsushi Takaki, Toshihiko Katafuchi, Yoshinori Tanaka, Yusaku Nakabeppu, and Mami Noda. Hydrogen in Drinking Water Reduces Dopaminergic Neuronal Loss in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine Mouse Model of Parkinson’s Disease Kyushu Brain Days, International Student Symposium, A-4, p26 (2009) (Fukuoka, Japan, 2009.11.8)

2.    Kyota Fujita. Toshihiro Seike, Noriko Yutsudo, Mizuki Ohno, Hidetaka Yamada, Hiroo Yamaguchi, Kunihiko Sakumi, Yukiko Yamakawa, Mizuho A. Kido, Atsushi Takaki, Toshihiko Katafuchi, Yoshinori Tanaka, Yusaku Nakabeppu, and Mami Noda. Hydrogen in Drinking Water Reduces Dopaminergic Neuronal Loss in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine Mouse Model of Parkinson’s Disease Kyushu Brain Days, International Student Symposium, A-4, p26 (2009) (Fukuoka, Japan, 2009.11.8)

3.    Yukiko Yamakawa, Kyota Fujita, Toshihiro Seike, Mizuho A. Kido, Haruo Iguchi, and Mami Noda. Astrocytes Promote the Proliferation of Lung Cancer Cells in Brain Metastases via inflammatory cytokines, especially IL-6. Kyushu Brain Days, International Student Symposium, P-08, p33 (2009) (Fukuoka, Japan, 2009.11.8)

4.    Yuko Okuno, Masataka Ifuku, Toshihiko Katafuchi, Mami Noda. Inhibitory effects of orexin A on ATP-induced microglial migration and its possible functional role in the brain. Kyushu Brain Days, International Student Symposium, P-01, p30 (2009) (Fukuoka, Japan, 2009.11.8)

5.    L.P. Churilov, Yu. I. Stroev, M. Noda, A.V. Kalashnikova. NEURODEGENERATIVE DISORDERS, SOMATOTYPE, MICROGLIA AND THYROID FUNCTION  INTERNATIONAL CONFERENCE – Prevention of Age-related Diseases (Shanghai, China, Fudan University, 2009.10.28-31)

6.    Kyota Fujita, Toshihiro Seike, Hidetaka Yamada, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Mizuho A. Kido, Yoshinori Tanaka, Atsushi Takaki, Toshihiko Katafuchi, Yusaku Nakabeppu & Mami Noda. Low concentration of hydrogen in drinking water shows protective effects on dopaminergic neurons in Parkinson’s disease model mice. Society for Neuroscience, 39th Annual Meeting, 239.23 (2009) (Chicago, USA, 2009.10.17)

7.    Masataka Ifuku, Yuko Okuno, Kyoko Izumi, Toshihiko Katafuchi, Mami Noda. Functional importance of inositol-1,4,5-triphosphate (IP3)-induced intracellular Ca2+ mobilization for galanin (GAL)-induced microglial migration. EuroGlia2009 (9th European meeting on Glial Cells in Health and Disease) (Paris, France, 2009.9.10)

8.    Yuko Okuno, Masataka Ifuku, Mami Noda. Inhibitory effects of orexin A on ATP-induced microglial migration. EuroGlia2009 (Paris, France, 2009.9.10)

9.    Masataka Ifuku, Yuko Okuno, Kyoko Izumi, Mami Noda. Microglial migration was increased by neuropeptide galanin via activation of galanin receptors 2 (GalR2) and its signaling pathway. IUPS2009 (International Congress of Physiological Sciences) (Kyoto, Japan, 2009.07.27-30)

10. Noda M, Okuno Y, Yamakawa Y, Ifuku M. Neuropeptides as meesengers to microglia in response to pathologic conditions. IUPS2009 (Kyoto, Japan, 2009.07.27-30)

11. Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hidetaka Yamada, Toshihiko Katafuchi, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami Noda. Low concentration of hydrogen gas has protective effects on dopaminergic neurons in Parkinson’s disease model mice. IUPS2009 (Kyoto, Japan, 2009.07.27-30)

12. Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hidetaka Yamada, Toshihiko Katafuchi, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami Noda. Protective effects of hydrogen in drinking water in a mouse model of Parkinson’s disease. Gordon Research Conference on Glial Biology: Functional Interaction between Glia & Neuron. (2009) (Ventura, USA. 2009.3.14)

13. Yukiko Yamakawa, Kyota Fujita, Toshihiro Seike, Mizuho A. Kido, Haruo Iguchi and Mami Noda. Cytokine released from astrocytes promote proliferation of lung cancer cells in brain metastases. Berlin Brain Days; 5th International PhD Symposium. E13, p90. (Berlin, Germany, 2008.12.11-12)

14. Yuko Okuno, Masataka Ifuku, Mami Noda. Effects of neuropeptide orexin on microglial migration. Berlin Brain Days; 5th International PhD Symposium. E10, p87. (Berlin, Germany, 2008.12.11-12)

15. Hiroko Nomaru, K. Kajitani, M. Ifuku, N. Yutsudo, Y. Dan, T. Miura, D. Tsuchimoto, K. Sakumi, T. Kadoya, H. Horie, F. Poirier, M. Noda, Y. Nakabeppu. Galectin-I promotes basal and kainite-induced proliferation of neural progenitors in the dentate gyrus of adult mouse hippocampus. Berlin Brain Days; 5th International PhD Symposium. E10, p86. (Berlin, Germany, 2008.12.11-12)

16. Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hidetaka Yamada, Toshihiko Katafuchi, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami Noda. Protective effects of hydrogen in drinking water in a mouse model of Parkinson’s disease. Berlin Brain Days; 5th International PhD Symposium. E3. p80. (Berlin, Germany, 2008.12.11-12)

17. Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hidetaka Yamada, Toshihiko Katafuchi, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami Noda. Effects of hydrogen in drinking water on a mouse model of Parkinson’s Disease. Kyushu-Busan International Joint Seminar (2008) (Fukuoka, Japan, 2008.11.28)

18. Masataka Ifuku, Yuko Okuno, Yukiko Yamakawa, Mami Noda. Galanin-induced migration and activation of microglia is mediated by galanin receptor 2 (GalR2) pathway. Society for Neuroscience, 38th Annual Meeting, 637.29 (2008) (Washington DC, USA, 2008.11.18)

19. Kido MA, Wang B, Zhang JQ, Kajiya H, Noda M, Yamaza T, Okamoto F, Okabe K. Charactererization of TARPV1-immunoreactive cells of the palatal rugae in the oral cabvity. Society for Neuroscience, 38th Annual Meeting, 64.23 (2008) (Washington DC, USA, 2008.11.15)

20. Katafuchi T., Take S., Ifuku M., Izumi K., Noda M., Yoshimura M. Brain mechanisms of immunologically induced fatigue in the rat. International Conference on Fatigue Science 2008, Program & Abstract book p.48 (2008) (Okinawa, 2008. 9.3-5)

21. Mami Noda, Masataka Ifuku, Yukiko Yamakawa, Yuko Okuno. Role of neuropeptide galanin in microglia. 6th FENS Forum (2008) 148.9 (Geneva, Switzerland, 2008.7.15)

22. Mami NODA, B. WANG, E. ISHIKAWA, H. OOBOSHI, M. A. KIDO, K. WADA; Up-regulation of KCNQ channels in activated microglia. Society for Neuroscience, 37th Annual Meeting, 479.3 (2007) (San Diego, USA, 2007.11.5)

23. Mami Noda, Yuko Kamiyama, Mizuho A. Kido, Kyota Fujita, Toshihiro Seike, Teruo Tanaka, Haruhiro Higashida. Double-label immunofluorescent staining of CD38 and oxytocin in the mouse h

24. ypothalamus and posterior pituitary. VIIth World Congress on Neurohypophysial Hormones (2007) (Regensburg, Germany, 2007. 9.20)

25. Masataka Ifuku, Yuko Okuno, Keiji Wada, Mami Noda. Effects of neuropeptide galanin on microglial migration. VIII. EuroGlia (European Meeting on Glial Cells in Health and Disease) (2007) (London, UK, 2007.9.6)

26. Mami Noda, Toshihiro Seike, Kyouta Fujita, Mizuho A. Kido, Teruo Tanaka, and Haruo Iguchi. The role of glial cells in brain metastases. Gordon Research Conference on Glial Biology: Functional Interaction between Glia & Neuron. (2007) (Ventura, USA. 2007.3.14)

27. T. Amano, E. Wada, D. Yamada, M. Noda, K. Wada, M. Sekiguchi, Facilitated conditioned fear response and the amygdala long-term potentiation (LTP) in neurotensin receptor type-1 (NTR1) knockout (KO) mice. Society for Neuroscience, 36th Annual Meeting, 668.17 (2006) (Atlanta, USA, 2006.10.17)

28. Y. Honda-Ohnishi, Y. N. Ohnishi, H. Ishibashi, K. Eto, K. Sakumi, M. Noda, Y. Nakabepppu, FosB and ΔFosB determine susceptibility to excitotoxicity induced by kainate. Society for Neuroscience, 36th Annual Meeting, 473.6 (2006) (Atlanta, USA, 2006.10.16)

29. Iguchi, H., Seike, T., Fujita, K., Kido, M., Tanaka, T., Noda, M. Interaction of cancer cells with glial cells in microenvironment of brain metastasis. The 11th International Congress of Metastasis Research Society Jointed with the 15th Annual Meeting of Japanese Association for Metastasis Research (2006) (Tokushima, Japan, 2006.9.3-6)

30. Noda, M., Ifuku, M., Färber, K., F. Merrino, F. V.,  Wang, B., Bader, M., Nolte, C., Wada, K., Helmut, H. Bradykinin-induced microglial migration mediated by B1-type of bradykinin receptors depends on Ca2+ influx via reverse mode of Na+/Ca2+ exchanger   5th Forum of European Neuroscience (2006) (Vienna, Austria, 2006.7.11)

31. Noda, M., Ifuku, M., Farber, K., Kettenmann, H., Wada, K. Kinin-induced microglial migration and anti-inflammatory effects in the central nervous system. 37th Annual Meeting of the American Society for Neurochemistry (2006) (Portland, USA, 2006.3.12-13)

32. Honda-Oonishi, Y., Oonishi, Y., Kei-ichiro, T., Ishibashi, H., Eto, K., Kajitan, K, Sakami, K., Noda, M., Goto, S., Nakabeppu, Y. ΔFosB determines resistance to excitotoxicity induced by kainic acid. Society for Neuroscience, 35th Annual Meeting, 1015.11 (2005) (Washington DC, USA, 2005.11.16)

33. Eto, K., Kajiwara, M., Noda, M., Ishibashi, H. Facilitation of glutamate release by antidepressant drugs in rat locus ceruleus. Society for Neuroscience, 35th Annual Meeting, 381.17 (2005) (Washington DC, USA, 2005.11.14)

34. Noda, M., Sato, A., Manago, Y., Nishikawa, K., Amano, T., Aoki, K., Wada, E., Osaka, H., Setsuie, R., Sakurai, M., Aoki, S., Wada, K. A possible role of parkin in neurotransmission; potentiation of P2X receptor channels. Society for Neuroscience, 35th Annual Meeting, 210.2 (2005) (Washington DC, USA, 2005.11.13)

35. Hatano, Y., Noda, M., Ishibashi, H. Effects of non-narcotic antitussives on 5-HT(3)-receptor-mediated currents in acutely isolated rat nodose ganglion neurons. The Fifth Japan-Korea Joint Symposium of Brain Sciences, and Cardiac and Smooth Muscles. (2005) (Kitakyushu, Japan, 2005.7.23)

36. Wang, B., Pannasch, U., Hatano, Y., Aoki, S., Kettenmann, H., Wada, K., Noda, M. Characters of KCNQ channels in microglia. The Fifth Japan-Korea Joint Symposium of Brain Sciences, and Cardiac and Smooth Muscles. (2005) (Kitakyushu, Japan, 2005.7.23)

37. Eto, K., Kajiwara, M., Noda, M., Ishibashi, H. Tricyclic antidepressnat desipramine facilitated glutamate release from presynaptic nerve terminals. The Fifth Japan-Korea Joint Symposium of Brain Sciences, and Cardiac and Smooth Muscles. (2005) (Kitakyushu, Japan, 2005.7.23)

38. Ifuku, M., Wang, B., Noda, M. Functional importance of Ca2+-activated K+ channels for bradykinin-induced microglial migration. The Fifth Japan-Korea Joint Symposium of Brain Sciences, and Cardiac and Smooth Muscles. (2005) (Kitakyushu, Japan, 2005. 7.23)

39. Higashida, H., Hoshi, N., Zhang, J-Z., Hashii, M., Noda, M., Robbins, J. Protein kinase C bound with A-kinase anchoring protein in muscarinic or bradykinin receptor-activated modulation of M-type KCNQ potassium channels. 1st International Conference Exploring the Future of Local Vascular and Inflammatory Mediators. (2005) (Lund, Sweden, 2005. 5.28)

40. Ifuku, M., Wang, B., Noda, M. Activation of Ca2+-dependent K+ channels is essential for bradykinin-induced microglial migration. EuroGlia (VII. European Meeting on Glial Cell Function in Health and Disease) 2005 (Amsterdam, The Netherlands, 2005. 5.17)

41. Noda M, Kosai Y, Kido MA, Tanaka T, Wada K. AMPA-type of glutamate receptors in microglia. Gordon Research Conference on Glial Biology: Functional Interaction between Glia & Neuron. (Ventura, California, USA, 2005.3.16)

42. Noda M, Kosai Y, Kido MA, Tanaka T, Sekiguchi M, Wada K. Membrane translocation of GluR2 subunit of AMPA-type of glutamate receptors and inhibition of glutamate-induced currents in activated microglia. Society for Neuroscience, 34th Annual Meeting, 975.6 (2004) (San Diego, USA, 2004.10.27)

43. Noda M, Kosai Y, Kido MA, Tanaka T, Sekiguchi M, Wada K. Membrane translocation of GluR2 subunit of AMPA-type of glutamate receptors and inhibition of glutamate-induced currents in activated microglia. Society for Neuroscience, 34th Annual Meeting, 975.6 (2004) (San Diego, USA, 2004.10.27)

44. Amano T, Aoki S, Setsuie R, Sakurai M, Noda M, Wada K. Identification of a novel regulatory mechanism of NET activity by IP3 receptor- Ca2+-CaM pathway. Society for Neuroscience, 34th Annual Meeting, 280.2 (2004) (San Diego, USA, 2004.10.21-27)

45. Higashida, H., Mochida, S., Chen, X., Shin, Y., Zhang, J., Hossain, K., Hoshi, N., Hashii, M., Noda, M., Shigemoto, R., Nakanishi, S., Fukuda, Y., Yokoyama, S. Subtype-specific coupling of ADP-rybosyl cyclase of metabotropic glutamate receptors in retina, cervical superior ganglion and NG108-15 cells. Society for Neuroscience, 33rd Annual Meeting,801.15 (2003) (New Orleans, USA, 2003.11.7-12)

46. Noda, M., Amano, T., Aoki, S., Wada, K. KCN channels in glial cells. Society for Neuroscience, 33rd Annual Meeting, 53.9 (2003) (New Orleans, USA, 2003.11.7-12)

47. Johansson, J.U., Lilja, L., Chen, X., Hogashida, H., Meister, B., Noda, M., Zhong, Z., Yokyama, S., Berggren, P., Bark, C. Stimulation of functional synapose formation by cyclin-dependent kinase 5 activators p35 and p39. Society for Neuroscience, 33rd Annual Meeting, 52.1 (2003) (New Orleans, USA, 2003.11.7-12)

48. Noda, M. Kariura, Y., Wang, B. Wada, K. Function of bradykinin receptors in microglia. EuroGlia (Sixth European Meeting on Glial Cell Function in Health and Disease) 2003 (Berlin, Germany, 2003. 9.3-6)

49. Noda, M. Kariura, Y., Amano, T., Manago, Y., Nsihikawa, K., Aoki, S., Wada, K. Expression and function of bradykinin receptors in microglia. Gordon Research Conference. (Ventura, USA, 2003. 2.23-28)

50. Osaka, H., Wang, Y. L., Sato, Y., Setsuie, R., Sakurai, M., Takada, K., Noda, M., Wada, K. Ubiquitin carboxy-terminal hydrolase mediates ubiquitin stability and function in neurons. Society for Neuroscience, 32nd Annual Meeting, 482.22 (2002) (Orlando, USA, 2002.11.3-7)

51. Noda, M., Kanahori, Y., Shimada, A., Nishikawa, K., Aoki, S., Osaka, H., Wada, K. Regulation of ATP receptor by a de-ubiquitinating isozyme. Society for Neuroscience, 32nd Annual Meeting, 482.21 (2002) (Orlando, USA, 2002.11.3-7)

52. Wada K., Osaka, H., Wang, Y-L, Harada, T., Takada, K., Noda, M. Role of ubiquitin carboxy-terminal hydrolase in ubiquitin stability and neural cell function. FASEB Summer Conference (2002) (Corolado, USA, 2002.6.15-20)

53. Y. Kariura, K. Nishikawa, S. Aoki, K. Wada, M. Noda, Expression and function of bradykinin receptor in microglia. The Third International Symposium on the Study of Brain Function (2002) (Fukuoka, Japan, 2002.5.9-10)

54. S. Shimada, Y. Kanahori, K. Wada, M. Noda, Regulation of ATP receptor by de-ubiquitinating isozyme, The Third International Symposium on the Study of Brain Function (2002) (Fukuoka, Japan, 2002.5.9-10)

55. Osaka, H., Wang, YL., Takada, S. Li, H., Sato, Y., Nishikawa, K., Sun, YJ., Sakurai, M., Harada, T., Hara, Y., Kimura, I., Noda, M., Namikawa, K., Kiyama, H., Aoki, S., Wada, K. Ubiquitin Carboxy-Terminal Hydrolase L1 mediates ubiquitin stability and function in neurons. The COE International Sumposium on Recent Advances in Research for Neurodegeneration (Tokyo, 2002.3.6)

56. Osaka, H., Wang, YL., Takizawa, S., Aoki, S., Sakurai, M., Li, H., Hara, Y., Takada, K., Noda, M., Wada, K. Ubiquitin C-terminal hydrolase as a regulator of ubiquitin level. Society for Neuroscience, 31st Annual Meeting. 195.15 (2001) (San Diego, USA, 2001.11.10-15)

57. Okada, M., Yamanouchi, Y., Urae, R., Noda, M., Irie, S., Ozaki, N., Iwata, N. Diverse effects of forskolin on extracellular acidification in CHO cells and C6 glioma cells as assessed with a cytosensor microphysiometer. Society for Neuroscience, 31st Annual Meeting. 42.6 (2001) (San Diego, USA, 2001.11.10-15)

58. Furuta, A., Noda, M., Goto, Y.  Suzuki, S.O. Rothstein, J.D., Iwaki. T Expressions of glutamate transporter subtypes in kainite-induced rat epilepsy. Society for Neuroscience, 31st Annual Meeting. 815.5 (2001) (San Diego, USA, 2001.11.10-15)

59. Noda, M., Y. Hagino, M. Sekiguchi, T. Harada, and K. Wada. Potentiating effect of PEPA (4-[2-(phenylsulfonylamino)ethylthio]-2,6-difluoro-phenoxyacetaqmide) on AMPA type of glutamate receptor in rat microglia. Society for Neuroscience, 31st Annual Meeting. 612.6 (2001) (San Diego, USA, 2001.11.10-15)

60. Brown, D.A., Nakanishi, N., Noda, M. Bradykinin receptor in rat primary cultured microglia. XXXIV International Congress of Physiological Sciences (2001) (Christchurch, New Zealand, 2001.8.26-31)

61. Higashida, H., Egorova A., Higashida, C., Zhong, Z-G., Yokoyama, S., Noda, M., Zhang J-S. Increased cADP-ribose synthesis by activation of adrenergic receptors with norepinephrine in ventricular muscle cell membrane is involved in upregulation of cardiac function by sympathetic stimulation. The 9th International Catecholamine symposium (2001) (Kyoto, Japan, 2001.3.31-4.5)

62. Noda, M., Amamoto, T., Okada, M., Nakanishi, H., Ando, S., Yazawa, K., Fujiwara, M., and Tomonaga, M. Caloric restrction lessends age-related imparement of LTP: Little involvement of changes in membrane arachidonic acid. Society for Neuroscience, 30th Annual Meeting.467.7 (2000) (New Orleans, USA., 2000.11.4-9)

63. Noda, M., Nakanishi, H. Neuron-microglia interaction via glutamate. IV European Meeting on Glial Cell Function in Health and Disease, p82 (2000) (Barcelona, Spain, 2000. 5.24-27)

64. Noda, M., Nakanishi, H., Nabekura, J. Akaike, N. Glutamate receptor in rat cerebral microglia. Society for Neuroscience, 29th Annual Meeting. p840 (1999) (Miami, USA., 1999.10.21-26)

65. Noda, M., Nakanishi, H., Akaike, N. Glutamate release from rat microglia via reversed glutamate transporter is encreased by amyloid -peptide. Society for Neuroscience, 28th Annual Meeting. p1797 (1998) (Los Angeles, USA.)

66. Noda, M., Nakanishi, H., Akaike, N. Enhancement of electrogenic glutamate transport in the microglia by amyloid- peptide. Society for Neuroscience, p1634 (New Orleans, USA., 1997)

67. Noda, M., Higashida, H. (1996) Streptozotocin, an inducer of NAD+ decrease, attenuates M-potassium current inhibition in NG108-15 cells.  Neuroscience Research 22 (7): 886

68. Noda, M., Shepherd, R.N., Nakao, M., and Gadsby, D.C. (1989) Inward current attributable to Na/Ca exchange in internally-dialyzed guinea-pig ventricular myocytes. FASEB Journal 3: A846

69. Noda, M., Nakao, M., Shepherd, R.N., and Gadsby, D.C. (1988) Dependence on [Ca]i, [Ca]o, and [Na]i, and block by 3',4'-dichlorobenzamil, of outward Na/Ca exchange current in guinea-pig ventricular myocytes. J. Mol. Cell. Cardiol. 20:S40

70. Gadsby, D.C., Nakao, M., Noda, M., and Shepherd, R.N. (1988) [Na] dependence of outward Na/Ca exchange current in guinea-pig ventricular myocytes. Journal of Pysiology, 407:135p

71.  Noda, M., Shephard, R.N., and Gadsby, D.C. (1988) Activation by [Ca]i, and block by 3',4'-dichlorobenzamil, of outward Na/Ca exchange current in guinea-pig ventricular myocytes. Biophysical Journal 53:342a

 

【国内:招待講演、セミナー】

1.    野田 百美、飲用水中の水素ガスがもたらす神経保護作用(Neuroprotective role of hydrogen gas in drinking water)(金沢大学医学系研究院分子細胞遺伝学教室 2008年7月25日)

2.    野田 百美「パーキンソン病の予防と治療:水素を含んだ飲用水の効果」大分県薬剤師会 学術講演 2008525 (大分)

3.    野田 百美The function of Parkin: from the physiological point of view (金沢大学医学系研究院分子細胞遺伝学教室 2007年7月27日)

4.    野田 百美、グリア細胞を介したニューロペプチドの神経保護作用(Neuroprotective effects of neuropeptides via glial cells) (金沢大学医学系研究院分子細胞遺伝学教室 2007年2月6日)

 

国内学会:シンポジウム口演】

1.    野田 百美、水素分子含有水の飲用とパーキンソン病予防と治療の可能性、第1回水素研究会学術集会(東京)200927

2.    野田 百美、神経変性疾患の治療薬および予防薬の分子・遺伝子レベルにおける評価法、第3回 薬学研究フォーラム in 東京、 -九州からの情報発信- 平成211113日(東京・長井記念ホール)

3.    野田 百美、水素分子含有水の飲用とパーキンソン病予防と治療の可能性、第1回水素研究会学術集会(東京)200927

4.    野田 百美、ミクログリアのNa+/Ca2+交換体:病態時における遊走能に果たす役割、トランスポーター研究会 2008112日(福岡大学)

5.    井福正隆、Katrin Färber、奥野祐子、山川裕希子、宮本泰貴、Christiane Nolte、和田圭司、Helmut Kettenmann野田百美、脳内免疫細胞の傷害部位への集積メカニズム、第1回次世代を担う若手医療薬科学シンポジウム、20081215日(東京)

6.    野田 百美、視床下部と下垂体のCD38免疫染色、第3回 脳細胞・発達・学習・記憶分子シンポジウム(革新脳科学COE・金沢大学十全医学会・脳医科学専攻合同シンポジウム)2006923日(金沢)

7.    Mami Noda, Satsuki Yasuda, Mitsuko Okada, Haruhiro Higashida, Kaori Nishikawa, Shunsuke Aoki and Keiji Wada, Human 5-HT5A receptors and multiple signal transduction pathways, 76回日本薬理学会年会・第80回日本生理学会大会、2003325日(福岡)

8.    Mami Noda, Takashi Ishihara, So-hei Kariya, Shunsuke Aoki and Keiji WadaPhysiological and molecular biological characterization of M-like channels in glia and neuron、第76回日本薬理学会年会・第80回日本生理学会大会、2003325日(福岡)

9.    野田百美、グリア細胞でセロトニン受容体とカップルするサイクリックADPリボース環状化酵素(シンポジウム:CaセカンドメッセンジャーとしてのサイクリックADPリボース)第81回日本生理学会大会、200462日(札幌)

10. 和田圭司、原田高幸、原田知加子、王玉来、野田百美、小坂仁、シンポジウム「グリア細胞の機能と病態:神経疾患の治療に向けて」グリア・ニューロン相互作用を利用した神経変性疾患の治療法の開発、第45回 日本神経化学会大会、2002717-19日(札幌)

11. 小坂仁、王玉来、佐藤野衣、節家理恵子、李航、西川香里、青木俊介、高田耕司、野田百美、和田圭司、シンポジウム「神経疾患とタンパク質分解・分子シャペロン」脱ユビキチン化酵素によるユビキチン代謝制御と神経変性、第25回 日本神経科学大会200277-9東京

12. Hitoshi Osaka, Yu-Lai Wang, Koji Takada, Shuichi Takizawa, Hang Li, Yae Sato, Kaori Nishikawa, Ying-Jie Sun, Mikako Sakurai, Takayuki Harada, Yoko Hara, Ichiro Kimura, Mami Noda, Kazuhiko Namikawa, Hiroshi Kiyama, Shunsuke Aoki, Keiji WadaUbiquitin Carboxy-Terminal Hydrolase L1 mediates ubiquitin stability and function in neurons. COE Symposium200235-6(東京)

13. 野田百美、「シンポジウム:脳のホメオスタシスとミクログリアの機能」グルタミン酸を介した神経ミクログリア連関、第43日本神経化学会、20001018-20日 (金沢)

14. 野田百美、中西博、興奮性神経伝達物質と神経ーグリア連関、第6回 グリアワークショップ 2000826日(東京)

 

国内学会:一般演題口演・パネル】

1.    Yukiko Yamakawa, Kyota Fujita, Toshihiro Seike, Mizuho A. Kido, Haruo Iguch, and Mami NodaAstrocytes Promote the Proliferation of Lung Cancer Cells in Brain Metastases via inflammatory cytokines, especially IL-6. 52回日本神経化学会 2009623日(群馬)

2.    井福 正隆、奥野 祐子、泉 杏子、野田 百美、ガラニン受容体Type2 (GARL2)を介するミクログリアの遊走性・化学走性増加、第129回 日本薬学会 2009327日(横浜)Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hideyuki Yamada, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami NodaEffects of hydrogen in drinking water on a mouse model of Parkinson's Disease 薬学若手研究者セミナー、20081128日(九州大学)

3.    Kyota Fujita, Toshihiro Seike, Yukiko Yamakawa, Mizuki Ohno, Hiroo Yamaguchi, Hideyuki Yamada, Atsushi Takaki, Mizuho Kido, Yusaku Nakabeppu and Mami NodaHydrogen in drinking water reduces dopaminergic neuronal loss in a mouse model of Parkinson’s Disease、第51回日本神経化学会 2008913日(富山)

4.    Eto K, Wake H, Ishibashi H, Noda M, Nabekura JIn vivo two-photon calcium imaging of somatosensory cortex in a mouse model of inflammatory pain.  NIPS-JST 国際ワークショップ 多光子励起イメージングの最前線、20084月(岡崎)

5.    井福 正隆、Katrin Färber、奥野 祐子、山川 裕希子、宮本 泰貴、Christiane Nolte、片渕 俊彦、喜多 紗斗美、岩本 隆宏、和田 圭司、 Helmut Kettenmann野田 百美、ブラジキニン(BK)による逆モードNa+/Ca2+交換機構(NCX)の活性化及びB1受容体を介したミクログリアの遊走性・化学走性増加、128回 日本薬学会 2008328日 (横浜)

6.    野田 百美、井福 正隆、奥野 祐子、山川 裕希子、宮本 泰貴、片渕 俊彦、喜多 紗斗美、岩本 隆宏、和田 圭司、ATPとニューロペプタイドによるミクログリア走性亢進メカニズムの相違性、第85回日本生理学会 2008325日 (東京)

7.    H. Hirai, T. Torashima, D. Jin, H-X. Liu, O. Lopatina, M. Noda, H. Higashida. Lentiviral-vector-mediated gene rescue-Functional recovery by region-specific expression of CD38 gene-Neuro2007 30回日本神経科学大会・第50回日本神経化学会大会・第17回日本神経回路学会大会2007911横浜

8.    T. Amano, E. Wada, M. Noda, K. Wada. The LTP regulation system by D2 receptor and neurotensin receptor type-1 in the basolateral amygdale. Neuro2007 (第30回日本神経科学大会・第50回日本神経化学会大会・第17回日本神経回路学会大会)平成19911日(横浜)

9.    Y. Kamiyama, K. Fujita, T. Seike, M. Kido, T. Tanaka, H. Higashida, M. Noda. Immunohistochemistry of CD38 in hypothalamus. Neuro2007 (第30回日本神経科学大会・第50回日本神経化学会大会・第17回日本神経回路学会大会)2007911日(横浜)

10. 井福 正隆、奥野 祐子、和田 圭司、野田 百美、ミクログリアに発現するガラニン(GAL)受容体の機能解明、第127回日本薬学会年会、2007330日(富山)

11. 江藤 圭、有村 由貴子、野田 百美、石橋 仁, ラット脊髄後角ニューロンにおけるグリシン作動性シナプス後電流に対する亜鉛の効果、第84回日本生理学会大会、2007320-22日(大阪)

12. 野田百美、佐々木賢次郎、清家稔博、井福正隆、王冰、和田圭司、中枢神経系におけるグリア細胞を介したキニンの神経保護作用、第84回日本生理学会大会、2007320日(大阪)

13. 天野大樹、和田恵津子、野田百美、和田圭司、関口正幸、1型ニューロテンシン受容体は扁桃体外側基底核においてドパミン2型受容体を介したLTP増強を阻害する、第80回日本薬理学会、2007314-16日(名古屋)

14. 天野大樹、和田恵津子、野田百美、和田圭司、関口正幸、1型ニューロテンシン受容体ノックアウトマウス扁桃体におけるドパミン機能の亢進、CREST成果発表会、200736日(大阪)

15. 藤田慶大、城戸瑞穂、田中輝男、井口東郎、野田百美、脳転移におけるがん細胞と脳微小環境の相互作用:アストロサイトの役割、第65回日本癌学会、2006929日(横浜)

16. 天野大樹、和田恵津子、野田百美、和田圭司、関口正幸、1型ニューロテンシン受容体欠損は扁桃体外側基底核のシナプス長期増強を促進する、第29回日本神経科学大会、2006719日(京都)

17. 井福正隆、Katrin Farber、王冰、和田圭司、Helmut Kettenmann野田百美、ブラジキニンB1受容体を介したミクログリアの遊走性増加および化学走性とそのメカニズム解明、第126年会 日本薬学会、平成18328日(仙台)

18. Kei Eto, Yosiko Hatano, Mami Noda, Hitoshi IshibashiInhibition of ATP-induced inward current by docosahexaenoic acid in rat nodose ganglion neurons、第79回日本薬理学会年会 2006322日(横浜)

19. Taiju Amano, Etsuko Wada, Mami Noda, Keiji Wada, Masayuki SekiguchiEnhancement of amygdala LTP in neurotensin receptor type-1 knockout mice; participation of the dopamine system、第4回ニューロサイエンスワークショップin九州、2005129日(福岡)

20. Kei Eto, Misako Kajiwara, Mami Noda and Hitoshi IshibashiTricyclic antidepressant desipramine induced glutamate release from presynaptic nerve terminals、第48回日本神経化学会大会、平成17929日(福岡)

21. Masataka Ifuku, Bing Wang and Mami NodaBK-induced migration of microglia、第48回日本神経化学会大会、2005929日(福岡)

22. Mami Noda, Yoshimasa Manago, Ayumi Sato, Kaori Nishikawa, Taiju Amano, Kumiko Aoki, Etsuko Wada, Hitoshi, Osaka, Rieko Setsuie, Mikako Sakurai, Yu-Lai Wang, Shunsuke Aoki, Keiji Wada, A possible role of parkin and ubiquitin carboxy-terminal hydrolase L1 in neurotransmission; potentiation of P2X receptor channels. 48回日本神経化学会大会、2005928日(福岡)

23. Bing Wang, Ulrike Pannasch, Yoshiko Hatano, Shunsuke Aoki, Helmut Kettenmann, Keiji Wada, Mami NodaExpression and function of KCNQ channels in microglia、第48回日本神経化学会大会、平成17928日(福岡)

24. 清家稔博、藤田慶大、城戸瑞穂、田中輝男、井口東郎、野田百美、脳転移におけるミクログリアの役割:肺癌脳転移モデルにおける検討、第64回日本癌学会 2005914日(札幌)

25. 有村由貴子、佐藤あゆみ、西川香里、青木公三子、和田恵津子、青木俊介、和田圭司、野田百美P2X受容体反応に及ぼすパーキンソン病原因遺伝子パーキンおよびalpha-シヌクレインの影響、生理学研究所研究会:「生理機能制御および病態におけるプリン作動性シグナリングの役割とその分子機構」200591-2日(岡崎)

26. 王玉来、節家理恵子、望月秀樹、小坂仁、早川英規、市原伸恒、野田百美、水野美邦、青木俊介、和田圭司、I93M変異型UCH-L1を用いた新規パーキンソン病モデルの確立、第28回日本神経科学大会 2005726日(横浜)

27. 櫻井省花子、 鮎川幸一、節家理恵子、西川香里、青木俊介、野田百美、和田圭司、UCH-L1の神経分化における役割、第28回日本神経科学大会 2005726日(横浜)

28. 井福正隆、王冰、野田百美、ブラジキニンによるミクログリアの運動性増加とその要因解析、第125年会 日本薬学会、2005330日(東京)

29. 江藤圭、梶原三紗子、野田百美、石橋 仁、ラット核青斑核において抗うつ薬はグルタミン酸放出を増強する、第78回日本薬理学会年会 2005322日(横浜)

30. 江藤圭、梶原三紗子、野田百美、石橋 仁、抗うつ薬によるグルタミン酸放出の増強、第4回神経科学合同セミナー、20041129日(熊本)

31. 佐藤あゆみ、真子好正、西川香里、青木公三子、和田恵津子、青木俊介、和田圭司、野田百美、パーキンソン病原因遺伝子parkinによるATP受容体反応の増強、第4回神経科学合同セミナー、20041129日(熊本)

32. 江藤圭、梶原三紗子、石橋仁、野田百、抗うつ薬によるグルタミン酸放出の増強、第77回西日本薬理学会、平成161126日(福岡)

33. Sato A., Manago Y., Nishikawa K., Aoki K., Wada E., Aoki S., Wada K., Noda M. Regulation of P2X receptors by parkin、第27回日本神経科学大会・第47回日本神経化学会大会合同大会、平成16921日(大阪)

34. 小佐井有紀、城戸瑞穂、田中輝男、和田圭司、野田百美、活性化ミクログリアにおけるGluR2の膜局在化とグルタミン酸誘発電流の抑制、第81回日本生理学会大会、200462日(札幌)

35. 梶原三紗子、野田百美、鍋倉淳一、石橋仁、ラット黒質ドーパミン神経細胞のプロトン誘発電流とその実験的虚血による変化、第77回日本薬理学会年会、2004310日(大阪)

36. 梅津麻里、野田百美、鍋倉淳一、石橋仁、ラット気道副交感神経節ニューロンにおけるノルアドレナリン誘発電流、第77回日本薬理学会年会、200439日(大阪)

37. Haruhiro Higashida, Sumiko Mochida, Xian-Lian Chen, Yeonsook Shin, Jia-Sheng Zhang, Mami Noda, Kazi Z Hossain, Naoto Hoshi, Minako Hashii, Ryuichi Shigemoto, Shigetada Nakanishi, Yutaka Fukuda, Shigeru YokoyamaSubtype-specific coupling with ADP-ribosyl cyclase of metabotropic glutamate receptors in retina, cervical superior ganglia and NG108-15 cells. 76回日本生化学会大会、20031018日(横浜)

38. 梅津麻里、石橋仁、野田百美、伊東祐之、赤池紀扶、ラット気道神経節ニューロンにおけるノルアドレナリン誘発電流の解析、第76回日本薬理学会年会・第80回日本生理学会大会、2003324-26日(福岡)

39. 長谷部伸嘉、梅津麻里、野田百美、石橋仁、赤池紀扶、ステロイドはラット気道副交感神経節ニューロンのアセチルコリン誘発電流を抑制する、第76回日本薬理学会年会・第80回日本生理学会大会、2003324-26日(福岡)

40. Taiju Amano, Atsuko Fujita, Mikako Sakurai, Shunsuke Aoki, Keiji Wada and Mami NodaElectrogenic dopamine transporter in PC12 cells、第76回日本薬理学会年会・第80回日本生理学会大会、2003324-26日(福岡)

41. 小坂仁、王玉来、佐藤野衣、節家理恵子、安田理人、工藤佳久、高田耕司、野田百美、和田圭司、脱ユビキチン化酵素による新たなユビキチン代謝制御、第75回 日本生化学会、2002101-17日(京都)

42. 野田百美、金堀佳子、嶌田亜希、青木俊介、王玉来、小坂仁、和田圭司、Regulation of P2X receptor by ubiquitin C-terminal hydrolase 1、第45回 日本神経化学会大会、2002717-19日(札幌)

43. 東田陽博、陳小良、張家生、野田百美、星直人、橋井美奈子、横山茂、網膜内グループIIIグルタメート受容体のADPリボシールシクラーゼへのカップリング、第45回 日本神経化学会大会、2002717-19日(札幌)

44. Yukiko Hagino, Masayuki Sekiguchi, Takayuki Harada, Shunsuke Aoki, Keiji Wada and Mami Noda, Heterogeneity of AMPA type of glutamate receptor in rat microglia、第2回九州脳研究シンポジウム、2002125-26日(福岡)

45. Yoshiko Kanahori, Aki Shimada, Shunsuke Aoki, Keiji Wada and Mami Noda, Regulation of P2X receptor by ubiquitin C-terminal hydrolase L1. 2回九州脳研究シンポジウム、2002125-26日(福岡)

46. Akiko Furuta, Mami Noda, Yoshihiro Goto and Toru Iwaki, Altered expression of glutamate transporter subtypes in kainite-induced rat epilepsy. 2回九州脳研究シンポジウム、2002125-26日(福岡)

47. 佐藤野衣、湯田和洋、小坂仁、王玉来、滝沢修一、大澤由記子、千葉茂、野田百美、和田圭司、ユビキチンC末端水解酵素1型の蛋白導入治療、第24回日本分子生物学会年会、20011212日(横浜)

48. 小坂仁、王玉来、滝沢修一、高田耕司、佐藤野衣、原田高幸、原田知加子、千葉茂、野田百美、和田圭司、ユビキチンC末端水解酵素1型の機能解析IIIユビキチン化・ユビキチン依存性蛋白分解への影響、第24回日本分子生物学会年会、20011212日(横浜)

49. 王玉来、小坂仁、高田耕司、佐藤野衣、孫英傑、李航、青木俊介、櫻井省花子、原洋子、木村一郎、西川香里、竹田礼子、野田百美、濤川一彦、木山博資、和田圭司、ユビキチンC末端水解酵素1型の機能解析II神経系におけるユビキチン量の制御、第24回日本分子生物学会年会、20011212日(横浜)

50. 滝沢修一、小坂仁、王玉来、高田耕司、櫻井省花子、千葉茂、野田百美、和田圭司、ユビキチンC末端水解酵素1型の機能解析I基質・相互作用蛋白の同定、第24回日本分子生物学会年会、20011212日(横浜)

51. 小坂仁、王 玉来、滝沢修一、櫻井省花子、青木俊介、李航、原洋子、佐藤野衣、西川香理、竹田礼子、木村一郎、高田耕司、野田百美、和田圭司、Ubiquitin C-terminal  Hydrolase L1の機能と神経変性、第44回日本神経化学・第24回日本神経科学合同大会、2001928日(京都)

52. 野田百美、萩野 由紀子、仮浦 幸弘、渋谷 佳子、中西 博、青木俊介、和田圭司、ラット・ミクログリアに発現するブラジキニン受容体、第44回日本神経化学・第24回日本神経科学合同大会、2001926-28日(京都)

53. 岡田三津子、金掘佳子、野田百美、浦江隆次、岩田仲生、尾崎紀夫、浦江明憲、フォルスコリンとイソプロテレノールのC6グリオーマ細胞の細胞外pH 調節機構に及ぼす効果の相違、第74回日本薬理学会、20013月(横浜)

54. 萩野由紀子、関口正幸、和田圭司、野田百美、新規AMPA型受容体増強薬(PEPA)のラット・ミクログリアに及ぼす作用、第74回日本薬理学会、20013月(横浜)

55. 東田陽博、Egorova Alla、東田知陽、Zhong Zhen-Guo、横山茂、野田百美Zhang Jia-Sheng、交感神経興奮によるラット心室筋内でのサイクリックADPリボース産生の上昇、第73回日本生化学会大会(横浜)20001011-14

56. 東田陽博、野田百美、交感神経興奮によるアドレナリンを介するラット心室筋内でのサイクリックADPリボース産生の上昇、第23回日本神経科学大会・第10回日本神経回路学会 合同大会、200094-6日(横浜)

57. 野田百美、赤池紀生、ラット大脳皮質より単離培養したミクログリアにおかるAMPA/カイニン酸型グルタミン酸受容体、第76回日本生理学会大会、1999328-30日(長崎)

58. 野田百美、中西博、赤池紀生、アミロイドーペプタイドによるミクログリアからのグルタミン酸放出の増強、第21回日本神経科学・第41回日本神経化学合同大会、平成10921-23日(東京)

59. 野田百美、赤池紀生、アミロイドーペプタイドによるミクログリアからのグルタミン酸放出の増強、第75回 日本生理学会大会、1998327-29日(金沢)

60. 野田百美、東田陽博、Rimma Knijnik、橋井美奈子、ストレプトゾトシンによるNAD+ 代謝の関与する受容体ーイオンチャネルカップリングの解析、第70回 日本生化学会大会、1997(金沢)

61. 野田百美、東田陽博、受容体ーイオンチャネルカップリングはストレプトゾトシンの処理でNAD+ 量の減少した神経腫瘍NG108-15 細胞で抑制される、第39回 日本神経化学大会、1996年(横浜)

2009年以前