Neurobiological Mechanisms of the Onset of Puberty in Primates*

Terasawa, Ei; Fernandez, D L

doi:10.1210/edrv.22.1.0418

Cited by 197 publications

(115 citation statements)

References 600 publications

(383 reference statements)

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“…Although pubertal development is preceded by reduced hypothalamic GABA release [9,10,77], the three GABAergic markers Gad1 , Gad2 and Slc32a1 (encoding for vesicular inhibitory amino acid transporter) did not change. This finding is reminiscent of the lack of difference in ARC Gad1 and Gad2 transcript levels between the infantile and pubertal stages in the male monkey [65].…”

Section: Discussionmentioning

confidence: 99%

“…Puberty can take place gonad independently [5] with the activation of hypothalamic gonadotropin-releasing hormone (GnRH) neurons [1,2,3], leading to the onset of pulsatile GnRH secretion into the hypophyseal portal circulation. Neuronal and glial signals that play either causal or permissive roles in puberty initiation are multiplex and include increased levels of peripheral leptin [6], enhanced central glia-to-neuron signaling [7], reduced central inhibitory neuropeptide Y (NPY) tone [8] and, in particular, reduced hypothalamic GABA release [9,10] followed by increased glutamate [9,11,12,13] release. Peptide and amino acid neurotransmitters synthesized and/or acting in the hypothalamic arcuate nucleus (ARC) are critically involved in pubertal development.…”

Section: Introductionmentioning

confidence: 99%

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Altered Gene Expression Profiles of the Hypothalamic Arcuate Nucleus of Male Mice Suggest Profound Developmental Changes in Peptidergic Signaling

et al. 2015

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Neuropeptides of the hypothalamic arcuate nucleus (ARC) regulate important homeostatic and endocrine functions and also play critical roles in pubertal development. The altered peptidergic and aminoacidergic neurotransmission accompanying pubertal maturation of the ARC is not fully understood. Here we studied the developmental shift in the gene expression profile of the ARC of male mice. RNA samples for quantitative RT-PCR studies were isolated from the ARC of 14-day-old infantile and 60-day-old adult male mice with laser capture microdissection. The expression of 18 neuropeptide, 15 neuropeptide receptor, 4 sex steroid receptor and 6 classic neurotransmitter marker mRNAs was compared between the two time points. The adult animals showed increased mRNA levels encoding cocaine- and amphetamine-regulated transcripts, galanin-like peptide, dynorphin, kisspeptin, proopiomelanocortin, proenkephalin and galanin and a reduced expression of mRNAs for pituitary adenylate cyclase-activating peptide, calcitonin gene-related peptide, neuropeptide Y, substance P, agouti-related protein, neurotensin and growth hormone-releasing hormone. From the neuropeptide receptors tested, melanocortin receptor-4 showed the most striking increase (5-fold). Melanocortin receptor-3 and the Y₁ and Y₅ neuropeptide Y receptors increased 1.5- to 1.8-fold, whereas δ-opioid receptor and neurotensin receptor-1 transcripts were reduced by 27 and 21%, respectively. Androgen receptor, progesterone receptor and α-estrogen receptor transcripts increased by 54-72%. The mRNAs of glutamic acid decarboxylases-65 and -67, vesicular GABA transporter and choline acetyltransferase remained unchanged. Tyrosine hydroxylase mRNA increased by 44%, whereas type-2 vesicular glutamate transporter mRNA decreased by 43% by adulthood. Many of the developmental changes we revealed in this study suggest a reduced inhibitory and/or enhanced excitatory neuropeptidergic drive on fertility in adult animals.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Altered Gene Expression Profiles of the Hypothalamic Arcuate Nucleus of Male Mice Suggest Profound Developmental Changes in Peptidergic Signaling

et al. 2015

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“…Further neurotransmitters acting upstream from KP cells possibly include glutamate which can induce the bursting activity of KP neurons [110]. The glutamatergic regulation of KP neurons may also be critically involved in the onset of puberty [111]. …”

Section: Connections Of Kp Neuronsmentioning

confidence: 99%

Neuroanatomy of the Human Hypothalamic Kisspeptin System

Hrabovszky

2013

Neuroendocrinology

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Hypothalamic kisspeptin (KP) neurons are key players in the neuronal network that regulates the onset of puberty and the pulsatile secretion of gonadotropin-releasing hormone (GnRH). In various mammalian species, the majority of KP-synthesizing neurons are concentrated in two distinct cell populations in the preoptic region and the arcuate nucleus (ARC). While studies of female rodents have provided evidence that preoptic KP neurons play a critical sex-specific role in positive estrogen feedback, KP neurons of the ARC have been implicated in negative sex steroid feedback and they have also been hypothesized to contribute to the pulse generator network which regulates episodic GnRH secretion in both females and males. Except for relatively few morphological studies available in monkeys and humans, our neuroanatomical knowledge of the hypothalamic KP systems is predominantly based on observations of laboratory species which are phylogenetically distant from the human. This review article discusses the currently available literature on the topographic distribution, network connectivity, neurochemistry, sexual dimorphism, and aging-dependent morphological plasticity of the human hypothalamic KP neuronal system.

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“…The reemergence of pulsatile GnRH secretion leads to increases in the secretion of the gonadotropins and of the luteinizing hormone (LH) and follicle-stimulating hormone (FSH) by the anterior pituitary gland and to the consequent activation of the gonadal function [1]. …”

Section: Introductionmentioning

confidence: 99%

New Causes of Central Precocious Puberty: The Role of Genetic Factors

2014

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A pivotal event in the onset of puberty in humans is the reemergence of the pulsatile release of the gonadotropin-releasing hormone (GnRH) from hypothalamic neurons. Pathways governing GnRH ontogeny and physiology have been discovered by studying animal models and humans with reproductive disorders. Recent human studies implicated the activation of kisspeptin and its cognate receptor (KISS1/KISS1R) and the inactivation of MKRN3 in the premature reactivation of GnRH secretion, causing central precocious puberty (CPP). MKRN3, an imprinted gene located on the long arm of chromosome 15, encodes makorin ring finger protein 3, which is involved in ubiquitination and cell signaling. The MKRN3 protein is derived only from RNA transcribed from the paternally inherited copy of the gene due to maternal imprinting. Currently, MKRN3 defects represent the most frequent known genetic cause of familial CPP. In this review, we explored the clinical, hormonal and genetic aspects of children with sporadic or familial CPP caused by mutations in the kisspeptin and MKRN3 systems, essential genetic factors for pubertal timing.

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Neurobiological Mechanisms of the Onset of Puberty in Primates*

Cited by 197 publications

References 600 publications

Altered Gene Expression Profiles of the Hypothalamic Arcuate Nucleus of Male Mice Suggest Profound Developmental Changes in Peptidergic Signaling

Altered Gene Expression Profiles of the Hypothalamic Arcuate Nucleus of Male Mice Suggest Profound Developmental Changes in Peptidergic Signaling

Neuroanatomy of the Human Hypothalamic Kisspeptin System

New Causes of Central Precocious Puberty: The Role of Genetic Factors

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