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• W2050285250 abstract "Annals of the New York Academy of SciencesVolume 839, Issue 1 p. 229-234 The Significance of Multiple Inhibitory Mechanisms Converging on the Melanotrope Cell of Xenopus laevisa BRUCE JENKS, BRUCE JENKS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorMARCO BUZZI, MARCO BUZZI Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorCORINNE DOTMAN, CORINNE DOTMAN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorHARRY DE KONING, HARRY DE KONING Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorWIM SCHEENEN, WIM SCHEENEN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorJACCO LIESTE, JACCO LIESTE Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorHANS LEENDERS, HANS LEENDERS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorPETER CRUIJSEN, PETER CRUIJSEN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorERIC ROUBOS, ERIC ROUBOS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this author BRUCE JENKS, BRUCE JENKS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorMARCO BUZZI, MARCO BUZZI Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorCORINNE DOTMAN, CORINNE DOTMAN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorHARRY DE KONING, HARRY DE KONING Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorWIM SCHEENEN, WIM SCHEENEN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorJACCO LIESTE, JACCO LIESTE Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorHANS LEENDERS, HANS LEENDERS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorPETER CRUIJSEN, PETER CRUIJSEN Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this authorERIC ROUBOS, ERIC ROUBOS Nijmegen Institute for Neurosciences, Department of Cellular Animal Physiology, University of Nijmegen, Toernooiveld 1, 6525 ED Nijmegen, the NetherlandsSearch for more papers by this author First published: 07 February 2006 https://doi.org/10.1111/j.1749-6632.1998.tb10765.xCitations: 9 a Many of the studies described were supported by the Human Capital and Mobility Program of the European Union (EU HCM ERBCHRXCT920017), by an NWO/MW-INSERM exchange grant, and by the Erasmus Program of the EU. Read the full textAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat REFERENCES 1 Jenks B. G., Leenders H.J., Martens G.J.M. & Roubos E.W. 1993. Adaptation physiology: the functioning of pituitary melanotrope cells during background adaptation of the amphibian, Xenopus laevis. Zool. Sci. 10: 1–11. 2 De Rijk E.P.C.T., van Strien F.J.C. & Roubos E.W. 1992. Demonstration of coexisting catecholamine (dopamine), amino acid (GABA) and peptide (NPY) involved in inhibition of melanotrope cell activity in Xenopus laevis: A quantitative ultrastructural, freeze-substitution immunocytochemical study. J. Neurosci. 12: 864–871. 3 Scheenen W.J.J.M., Yntema H.G., Willems P.H.G.M., Roubos E.W., Lieste J.R. & Jenks B.G. 1995. Neuropeptide Y inhibits Ca2+ oscillations, cyclic AMP, and secretion in melanotrope cells of Xenopus laevis via a Y1 receptor. Peptides 16: 889–895. 4 Kongsamut S., Shibuya I. & Douglas W.W. 1991. Why are several inhibitory transmitters present in the innervation of pituitary melanotrophs?. Neuroendocrinology 54: 599–606. 5 Leenders H. J., de Koning H.P., Ponten S.P., Jenks B.G. & Roubos E.W. 1993. Differential effects of coexisting dopamine, GABA and NPY on alpha-MSH secretion from melanotrope cells of Xenopus laevis. Life Sci. 52: 1969–1975. 6 Leenders H. J., Jenks B.G. & Roubos E.W. 1995. Inhibition of α-MSH secretion is associated with increased cyclic-AMP egress from the neuorintermediate lobe of Xenopus laevis. Life Sci. 57: 2447–2453. 7 De Koning H.P., Jenks. B.G., Huchede B. & Roubos E.W. 1992. Dynamics of cyclic-AMP efflux in relation to α-MSH secretion from melanotrope cells of Xenopus laevis. Life Sci. 51: 1667–1673. 8 Shibuya I., & Douglas W.W. 1993. Measurement of cytosolic free calcium in melanotrophs of Xenopus laevisIn The Melanotropic Peptides. Vaudry H. & Eberle A.N., Eds. Ann. N.Y. Acad. Sci. 680: 606–608. 9 Lieste J. R., Scheenen W.J.J.M., Willems P.H.G.M., Jenks B.G. & Roubos E.W. 1996. Calcium oscillations in melanotrope cells of Xenopus laevis are differentially regulated by cAMP-dependent and cAMP-independent mechanisms. Cell Calcium 20: 329–337. 10 Shibuya I., & Douglas W.W. 1993. Spontaneous cytosolic calcium pulsing detected in Xenopus melanotrophs: modulation by secreto-inhibitory and stimulant ligands. Endocrinology 132: 2166–2175. 11 Scheenen W.J.J.M., Jenks B.G., Willems P.H.G.M. & Roubos E.W. 1994. Action of stimulatory and inhibitory α-MSH secretagogues on spontaneous calcium oscillations in melanotrope cells of Xenopus laevis. Eur. J. Physiol. 427: 244–251. 12 Jenks B. G., de Koning H.P., Valentijn K. & Roubos E.W. 1993. Dual action of GABAA receptors on the secretory process of melanotrophs of Xenopus laevis. Neuroendocrinology 58: 80–85. 13 De Koning H.P., Jenks B.G. & Roubos E.W. 1993. Analysis of GABAB receptor function in the in vitro and in vivo regulation of α-MSH secretion from melanotrope cells of Xenopus laevis. Endocrinology 132: 674–681. 14 Buzzi M., Bemelmans F.J., Roubos E.W. & Jenks B.G 1997. Neuroendocrine GABA: Functional differences in GABAAversus GABAB receptor inhibition of the melanotrope cell of Xenopus laevis. Endocrinology 138: 203–212. 15 Valentijn J. A., Louiset E., Vaudry H. & Cazin L. 1991. Dopamine regulates the electrical activity of frog melanotrophs through a G protein-mediated mechanism. Neuroscience 44: 85–95. 16 Berridge M. J., 1996. Inositol trisphosphate and Ca2+ in neural signalling. In Coincidence Detection in the Nervous system. Konnerth A., Tsien R.Y., Mikoshiba K. & Altman J., Eds.: 22-31. Human Frontier Science Program. Strasbourg. 17 Obrietan K., & van den Pol A.N. 1996. Neuropeptide Y depresses GABA-mediated calcium transients in developing suprachiasmatic nucleus neurons: a novel form of calcium long-term depression. J. Neurosci. 16: 3521–3533. 18 Dotman C.H., Cruijsen P.M.J.M., Jenks B.G. & Roubos E.W 1996. Differential actions of secreto-inhibitors on proopiomelanocortin biosynthesis in the intermediate pituitary of Xenopus laevis. Endocrinology 137: 4551–4557. Citing Literature Volume839, Issue1TRENDS IN COMPARATIVE ENDOCRINOLOGY AND NEUROBIOLOGY: FROM MOLECULAR TO INTEGRATIVE BIOLOGYMay 1998Pages 229-234 ReferencesRelatedInformation" @default.
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• W2050285250 title "The Significance of Multiple Inhibitory Mechanisms Converging on the Melanotrope Cell of <i>Xenopus laevis</i>^a" @default.
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