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Query: UMLS:C0848255 (
female puberty
)
121
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Emerging evidence suggests that, in addition to neuronal inputs, growth factors of glial origin are also important in the control of mammalian puberty via a cell-cell interaction that ultimately affects the neurons that release gonadotropin-releasing hormone (GnRH), a neurohormone controlling sexual development. Among these growth factors,
transforming growth factor-alpha
(TGF alpha) appears to be one of the physiologic components that controls the onset of
female puberty
by affecting GnRH neuronal activity in a glia-mediated autocrine/paracrine manner. Specifically, TGF alpha induces glia to produce bioactive substances, such as prostaglandin E2 (PGE2). In turn, PGE2 directly acts on GnRH neurons to stimulate the release of GnRH. Furthermore, the neuroregulin of glial origin neu differentiation factor (NDF) was found to facilitate the action of TGF alpha, suggesting that other growth factors may exert their biologic effects on GnRH neuronal function via a glia/neuron interaction. Another indication that glial cells may be involved in the regulation of neuroendocrine function is the presence of estrogen receptors on hypothalamic astrocytes. Thus, region-specific glial cells appear to play an integral role in the regulation of neuroendocrine function.
...
PMID:Neuroendocrine control of female puberty: glial and neuronal interactions. 948 10
POU homeodomain genes are transcriptional regulators that control development of the mammalian forebrain. Although they are mostly active during embryonic life, some of them remain expressed in the postnatal hypothalamus, suggesting their involvement in regulating differentiated functions of the neuroendocrine brain. We show here that Oct-2, a POU domain gene originally described in cells of the immune system, is one of the controlling components of the cell-cell signaling process underlying the hypothalamic regulation of
female puberty
. Lesions of the anterior hypothalamus cause sexual precocity and recapitulate some of the events leading to the normal initiation of puberty. Prominent among these events is an increased astrocytic expression of the gene encoding
transforming growth factor-alpha
(TGF alpha), a tropic polypeptide involved in the stimulatory control of LHRH secretion. The present study shows that such lesions result in the rapid and selective increase in Oct-2 transcripts in TGF alpha-containing astrocytes surrounding the lesion site. In both lesion-induced and normal puberty, there is a preferential increase in hypothalamic expression of the Oct-2a and Oct-2c alternatively spliced messenger RNA forms of the Oct-2 gene, with an increase in 2a messenger RNA levels preceding that in 2c and antedating the peripubertal activation of gonadal steroid secretion. Both Oct-2a and 2c trans-activate the TGF alpha gene via recognition motifs contained in the TGF alpha gene promoter. Inhibition of Oct-2 synthesis reduces TGF alpha expression in astroglial cells and delays the initiation of puberty. These results suggest that the Oct-2 gene is one of the upstream components of the glia to neuron signaling process that controls the onset of
female puberty
in mammals.
...
PMID:The Oct-2 POU domain gene in the neuroendocrine brain: a transcriptional regulator of mammalian puberty. 1043 39
