Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has long been known that lesions of the hypothalamus lead to female sexual precocity. While an increased production of luteinizing hormone-releasing hormone (LHRH), the neurohormone that controls sexual development, appears to mediate the advancement of puberty induced by these lesions, little is known about the mechanism(s) by which hypothalamic injury activates LHRH secretion. Since brain lesions result in accumulation of neurotrophic/mitogenic activities in the injured area, we tested the hypothesis that transforming growth factor alpha (TGF-alpha), a mitogenic polypeptide recently shown to stimulate LHRH release, is produced in response to hypothalamic injury and mediates the effect of the lesion on puberty. Radiofrequency lesions of the preoptic area-anterior hypothalamic area (POA-AHA) of 22-day-old female rats resulted in precocious puberty within 7 days after the operation. RNA blot hybridization revealed that lesion-induced puberty was preceded by an increase in TGF-alpha mRNA levels in the POA-AHA. Epidermal growth factor (EGF) mRNA was undetectable in both intact and lesioned hypothalami. TGF-alpha mRNA levels, quantitated by RNase protection assays, were 3.5-fold greater in lesioned animals approaching puberty than in age-matched controls. Immunohistochemical studies, utilizing single- and double-staining procedures, demonstrated the presence of TGF-alpha precursor-like immunoreactivity in reactive astrocytes surrounding the lesion site. Hybridization histochemistry showed increased TGF-alpha mRNA expression in cells of the same area, further implicating reactive astrocytes as a site of TGF-alpha synthesis. The actions of TGF-alpha are mediated by its interaction with EGF receptors. Continuous infusion of RG-50864, an inhibitor of EGF receptor kinase activity, at the site of injury prevented the advancement of puberty induced by the lesion. These results suggest that TGF-alpha acting via EGF-like receptors contributes to the acceleration of puberty induced by anterior hypothalamic lesions. They also indicate that activation of TGF-alpha gene expression in glial cells is a component of the hypothalamic response to injury.
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PMID:Transforming growth factor alpha contributes to the mechanism by which hypothalamic injury induces precocious puberty. 194 96

During development, an increase in gonadotropin-releasing hormone (GnRH) release occurs that is critical for the initiation of puberty. This increase is attributable, at least in part, to activation of the GnRH neurosecretory system by inputs from neurotransmitters, such as glutamate, acting via NMDA receptors. We examined changes in GnRH and NMDA-R1 gene expression by RNase protection assay of preoptic area-anterior hypothalamic (POA-AH) dissections of female rats undergoing normal puberty or in which precocious puberty was induced by treatment with the glutamate agonist NMA. GnRH mRNA levels increased significantly throughout normal development; this was accelerated by treatment with NMA. NMDA-R1 mRNA levels increased only between P10 and P20. The acceleration of the elevation in GnRH mRNA levels by NMDA suggests that a stimulation of GnRH gene expression may be a rate-limiting factor for the onset of puberty. This is attributable to a post-transcriptional mechanism because GnRH primary transcript levels, an index of proGnRH gene transcription, were not observed to change during puberty. Alterations in the colocalization of GnRH neurons with the NMDA-R1 subunit during puberty also were assessed immunocytochemically. The percentage of GnRH neurons that double-labeled with NMDA-R1 was 2% in prepubertal rats and 3% in pubertal rats; this increased to 19% in postpubertal rats. Taken together, these studies suggest that an increase in glutamatergic input to GnRH neurons plays a role in the increase in GnRH release and gene expression that occurs at the initiation of puberty.
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PMID:Gonadotropin-releasing hormone and NMDA receptor gene expression and colocalization change during puberty in female rats. 875 41

Increased extraglandular aromatization has been reported as the cause of familial gynecomastia. We studied a kindred with aromatase excess inherited in an autosomal dominant manner, in which affected males had heterosexual precocity and/or gynecomastia, and affected females had isosexual precocity and/or macromastia. The propositus was a 9-yr-old boy with gynecomastia. His 7.5-yr-old sister had precocious puberty, and their father and paternal grandmother had peripubertal gynecomastia and macromastia, respectively. Serum concentrations of gonadal and adrenal steroid hormones were determined before and after the administration of corticotropin and/or hCG. Aromatase activity was determined by [3H]delta4-androstenedione to [3H]estrone conversion by cultured skin fibroblasts and/or Epstein-Barr virus-transformed lymphocytes and was detected by immunohistochemistry and/or Western analysis. Linkage was examined with a polymorphism of the aromatase (P450arom) gene. The P450arom messenger ribonucleic acid was analyzed by rapid amplification of complementary DNA (cDNA) ends, ribonuclease protection assay, and RT-PCR. hCG testing demonstrated a high rate of conversion of delta4-androstenedione to estrone and of testosterone to estradiol in the propositus and his father. Treatment of the propositus and his sister was initiated with an aromatase inhibitor (testolactone) and a GnRH analog, which successfully delayed skeletal and pubertal development in both children. Markedly increased aromatase activity was found in the patients' fibroblasts and Epstein-Barr virus-transformed lymphocytes. The P450arom polymorphism segregated with the disease in the family. A new 5'-splice variant was present in the patients' P450arom messenger ribonucleic acid, thus identifying yet another first exon of this gene, which appears to be aberrantly expressed in this family. In conclusion, a family with the aromatase excess syndrome is described, in which the condition was inherited in an autosomal dominant manner, led to feminizing manifestations in both sexes, and was associated with the aberrant utilization of a novel transcript of the P450arom gene.
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PMID:The aromatase excess syndrome is associated with feminization of both sexes and autosomal dominant transmission of aberrant P450 aromatase gene transcription. 954 66