Neural regulation in the vertebrate endocrine system : neuroendocrine regulation

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Bibliographic Information

Neural regulation in the vertebrate endocrine system : neuroendocrine regulation

edited by P. D. Prasada Rao and Richard E. Peter

Kluwer Academic/Plenum, c1999

Available at  / 5 libraries

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Note

Based on papers from the Symposium on Neural Control of the Endocrine System, held at Nagpur University, Nagpur, India, Nov. 26-28, 1997

Includes bibliographical references and index

Description and Table of Contents

Description

The objective of this book is to provide recent information on neural regulation in the endocrine system in vertebrates. Classical studies have revealed that certain neurons synthesize and release chemical messengers into the vascular system. These neurons are endocrine devices that link the brain with the endocrine glands and other target organs. In vertebrates, the hypothalamus is the seat for chemical coordination and integration of en- vironmental and hormonal cues to modulate function of the pituitary gland, and conse- quently, the functions of other endocrine glands. Exciting information generated during the past few decades has resulted in profound alterations in the conceptual fabric of endo- crinology. From the wealth of information that emerged on neuropeptides of the central nervous system, and on the other connectivities of various brain centers, its has become clear that several extra-hypothalamic sites are also involved in regulation of hypophysial hormones. The brain has assumed a greater importance in the regulation of the endocrine sys- tem. However, recent studies have revealed varying degrees of functional autonomy in hy- pophysial hormone secretion, which may be due to intrapituitary cytokines. Although gonadotropin-releasing hormone (GnRH) is a key regulator of gonadotropin secretion, there exists a GnRH receptor diversity in vertebrates such as the receptor presence in can- cer cells. Recent studies have demonstrated the multifactorial nature of the neuroendo- crine factors involved in growth hormone regulation in fish. On the other hand, in birds, thyrotropin-releasing hormone plays a major role in growth hormone release.

Table of Contents

  • 1. The Median Eminence: A Mediator in the Regulation of the Pituitary by Brain
  • H. Kobayashi, et al. 2. Hypophysiotropic Neurons in the Brain of Teleosts
  • P.D. Prasada Rao. 3. Functional Autonomy of the Adenohypophysis
  • D.R. Naik. 4. Brain Regulation of Growth Hormone Secretion and Food Intake in Fish
  • R.E. Peter, J.P. Chang. 5. GHRH: A Growth Hormone-Releasing Factor in Birds? S. Harvey. 6. Gonadotropin-Releasing Hormone Neuronal Systems in the Teleostean Brain and Functional Significance
  • K. Okuzawa, M. Kobayashi. 7. Gonadotropin-Releasing Hormone as a Paracrine Regulator of Ovarian Function
  • H.R. Habibi. 8. Role of Central Monoamines in Regulation of Gonadotropin II Secretion: Catfish Model
  • K.P. Joy. 9. Opioidergic Regulation of Luteinizing Hormone Secretion and Gonadal Steroidogenesis in Male Rat
  • R.N. Saxena, P.A. Kant. 10. Photoperiodic Control of Gonadotropin-Releasing Hormone Secretion in Seasonally Breeding Birds
  • A. Dawson. 11. Changes in the Expression of Avian Central Steroid Receptors with Respect to the Breeding Cycle
  • J.A. Clark, et al. 12. Neural Elements in Pineal Organs of Vertebrates
  • T. Sato, et al. 13. Interactions between the Endocrine and Exocrine Pancreas: Effects of Islet Hormones, Secretagogues, and Nerve Stimulation
  • M.D. Yago, et al. 14. Neuroendocrine Regulation of Immune Function in Fish
  • Y.K. Narnaware, N.Y.S. Woo.

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