Modulating Mechanisms of Neuroendocrine Cell Activity: the LHRH Pulse Generator

Overview

Journal Cell Mol Neurobiol

Publisher Springer

Specialties Cell Biology
Molecular Biology
Neurology

Date 1998 Apr 3

PMID 9524733

Citations 6

Authors

F J Lopez

I J Merchenthaler

M Moretto

A Negro-Vilar

Affiliations

Soon will be listed here.

Abstract

1. Luteinizing hormone-releasing hormone (LHRH), synthesized in specialized neurons in the hypothalamus, is the prime regulator of reproduction. In its absence, reproductive development is arrested and disorders of LHRH secretion result in several reproductive dysfunctions. 2. The LHRH neuronal network plays a paramount role in the regulatory loop controlling gonadal homeostasis. LHRH input to the pituitary gland maintains gonadotropin secretion, which, in turn, is responsible for gonadal trophism. Steroidal and peptidergic hormones from the gonad close the regulatory system by establishing negative (male and females) and positive (females) feedback loops. 3. Interestingly, LHRH input to the pituitary is intermittent rather than continuous. In fact, continuous exposure to LHRH results in paradoxical hypogonadism. Several studies in animals have provided direct evidence for episodic secretion of LHRH into the hypophyseal portal system. However, the nature of the system(s) responsible for the generation of the LHRH pulsatile profile is not currently known. The recent observation that immortalized LHRH neurons secrete LHRH in a pulsatile manner suggests that the pulse generating mechanism resides within the LHRH neuronal network. 4. In this overview, we compile several lines of evidence supporting this notion and put this characteristic of LHRH neurons in perspective with gonadal influences both internal and external to the LHRH neuronal network. Some recent data regarding the site of action of gonadal steroids on the LHRH neuronal system, the functional significance of galanin colocalization with LHRH, and the role of nitric oxide in the pulse generating mechanism are also discussed.

Citing Articles

Deciphering the Contributions of CRH Receptors in the Brain and Pituitary to Stress-Induced Inhibition of the Reproductive Axis.

Raftogianni A, Roth L, Garcia-Gonzalez D, Bus T, Kuhne C, Monyer H Front Mol Neurosci. 2018; 11:305.

PMID: 30214395 PMC: 6125327. DOI: 10.3389/fnmol.2018.00305.

Morphological and enzymatic changes caused by a long-term treatment of female rats with a low dose of gonadoliberin agonist and antagonist.

Suszka-Switek A, Czekaj P, Pajak J, Skowronek R, Wrona-Bogus K, Plewka D Med Sci Monit. 2012; 18(8):BR315-330.

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GnRH signaling, the gonadotrope and endocrine control of fertility.

Bliss S, Navratil A, Xie J, Roberson M Front Neuroendocrinol. 2010; 31(3):322-40.

PMID: 20451543 PMC: 2923852. DOI: 10.1016/j.yfrne.2010.04.002.

Synaptic integration in hypothalamic gonadotropin releasing hormone (GnRH) neurons.

Roberts C, Hemond P, Suter K Neuroscience. 2008; 154(4):1337-51.

PMID: 18556136 PMC: 2528958. DOI: 10.1016/j.neuroscience.2008.04.067.

Issue dedicated to the memory of Prof Hugo Aréchiga Urtuzuástegui on his first death anniversary.

Cell Mol Neurobiol. 2005; 25(2):211-461.

PMID: 16100815 PMC: 11529642. DOI: 10.1007/s10571-005-3055-x.

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