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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The modulation of FSH secretion at the beginning and middle of the follicular phase of the cycle represents the key event in the growth and selection of the preovulatory follicle. However, the mechanisms that operate within the pituitary gland to control the increased release of FSH and its subsequent inhibition in vivo remain unclear. Treatment of ewes with bovine follicular fluid (bFF) during the luteal phase has been previously shown to suppress the plasma concentrations of FSH and, following cessation of treatment on day 11, a rebound release of FSH occurs on days 12 and 13. When luteal regression is induced on day 12, this hypersecretion of FSH results in an increase in follicle growth and ovulation rate. To investigate the mechanisms involved in the control of FSH secretion, ewes were treated with twice daily s.c. injections of 5 ml bFF on days 3-11 of the oestrous cycle and luteal regression was induced on day 12 with prostaglandin (PG). The treated ewes and their controls were then killed on day 11 (luteal), or 16 or 32 h after PG and their pituitaries removed and halved. One half was analysed for gonadotrophin and gonadotrophin-releasing hormone (GnRH) receptor content. Total pituitary RNA was extracted from the other half and subjected to Northern analysis using probes for FSH-beta, LH-beta and common alpha subunit. Frequent blood samples were taken and assayed for gonadotrophins. FSH secretion was significantly (P less than 0.01) reduced during bFF treatment throughout the luteal phase and then significantly (P less than 0.01) increased after cessation of treatment, with maximum secretion being reached 18-22h after PG, and then declining towards control values by 32h after PG. A similar pattern of LH secretion was seen after bFF treatment. Pituitary FSH content was significantly (P less than 0.05) reduced by bFF treatment at all stages of the cycle. No difference in the pituitary LH content was seen. The increase in GnRH receptor content after PG in the controls was delayed in the treated animals. Analysis of pituitary mRNA levels revealed that bFF treatment significantly (P less than 0.01) reduced FSH-beta mRNA levels in the luteal phase. Increased levels of FSH-beta, LH-beta and alpha subunit mRNA were seen 16h after PG in the bFF-treated animals, at the time when FSH and LH secretion from the pituitary was near maximum.(ABSTRACT TRUNCATED AT 400 WORDS)
J Mol Endocrinol 1992 Apr
PMID:Relationship between gonadotrophin subunit gene expression, gonadotrophin-releasing hormone receptor content and pituitary and plasma gonadotrophin concentrations during the rebound release of FSH after treatment of ewes with bovine follicular fluid during the luteal phase of the cycle. 138 Nov 79

The gene for the beta subunit of porcine LH (LH-beta) was cloned from a genomic library constructed in EMBL3. The nucleotide sequence was determined for the entire gene transcriptional unit of porcine LH-beta in addition to 1277 and 372 bp of the 5'- and 3'-flanking regions respectively. Southern blot analysis of the porcine genomic DNA indicated that the LH-beta gene is present as a single copy. The transcriptional unit of porcine LH-beta spanned 1107 bp and contained three exons interrupted by two introns of 326 and 289 bp. The short untranslated sequence in the first exon and the location of the exon/intron junctions at amino acid residues -16/-15 and +41/+42 were highly conserved in the rat, human and bovine LH-beta genes. In the 5'-flanking region, one TATA box and two CCAAT boxes were present. The steroid-responsive element was not found up to 1277 bases upstream of the transcription start site. The potential AP-2 factor-responsive elements appeared nine times within the sequence that was determined, and four of them were located in the 5'-flanking region. Two distal AP-2 elements were arranged in an inverted repeat forming a 16 bp palindromic sequence. This feature suggested that hypothalamic gonadotrophin-releasing hormone stimulates expression of the LH-beta gene, predominantly by a signal-transduction system with the protein kinase C cascade and a mediator, the AP-2 factor. A further characteristic feature of the porcine LH-beta gene was the presence of clusters of GC boxes and CACCC elements in the 5'-flanking region and the downstream sequence. Co-existence of these regulatory elements with other elements, such as the AP-2 element or CCAAT box, was also found. The porcine LH-beta gene shows a structure distinct from the porcine FSH-beta and common alpha genes, which are counterparts of the LH-beta gene, reflecting differential control of their synthesis during gametogenesis.
J Mol Endocrinol 1990 Oct
PMID:The gene for the beta subunit of porcine LH: clusters of GC boxes and CACCC elements. 170 Oct 88

While the regulation of gonadotrophin secretion by gonadotrophin-releasing hormone (GnRH) has been well documented in both rats and sheep, its role in the synthesis of gonadotrophin subunits remains unclear. We have investigated the effects of the specific inhibition of GnRH by a GnRH agonist on the expression of gonadotrophin subunit genes and the subsequent storage and release of both intact hormones and free alpha subunit. Treatment with GnRH agonist for 6 weeks abolished pulsatile LH secretion, reduced plasma concentrations of FSH and prevented GnRH-induced release of LH and FSH. This was associated with a reduction of pituitary LH-beta mRNA and FSH-beta mRNA levels (to 5 and 30% of luteal control values respectively), but not alpha mRNA which was significantly increased (75% above controls). While there was a small decrease in the pituitary content of FSH (30% of controls), there was a drastic reduction in LH pituitary content (3% of controls). In contrast to the observed rise in alpha mRNA, there was a decrease in free alpha subunit in both the pituitary and plasma (to 30 and 80% of control levels). These results suggest that, while GnRH positively regulates the expression of both gonadotrophin beta-subunit genes, it can, under certain circumstances, negatively regulate alpha-subunit gene expression. Despite the complete absence of LH and FSH in response to GnRH, there remained a basal level of beta-subunit gene expression and only a modest reduction (50%) in the plasma levels of both FSH and LH, suggesting that there is a basal secretory pathway.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Endocrinol 1991 Aug
PMID:Gonadotrophin-releasing hormone modulation of gonadotrophins in the ewe: evidence for differential effects on gene expression and hormone secretion. 171 38

A cDNA probe for the beta subunit of bovine FSH (FSH-beta) detects multiple restriction fragment length polymorphisms (RFLPs) in sheep genomic DNA consistent with an insertion/deletion polymorphism around the FSH-beta locus. The presence of the insertion/deletion was confirmed by screening over 100 individuals with two restriction enzymes detecting RFLPs. All individuals showed the same patterns of fragments with both enzymes. A partial restriction map of the FSH-beta gene in sheep suggests that the insertion/deletion is approximately 2 kb in size and located downstream from the third exon. Individual DNA samples were analysed from two flocks where the Booroola F gene is known to be segregating. Individuals that were heterozygous for the F gene were shown to be homozygous for one or other of the two alleles. Genetic recombination between the FSH-beta locus and the F gene was observed in four pedigrees and there was no evidence that the insertion/deletion is closely linked genetically to the Booroola F gene. A major gene transcript of 2.2-2.3 kb was detected on Northern blots of sheep RNA. Neither the insertion/deletion polymorphism nor the presence of the F gene appeared to influence the size of the FSH-beta gene transcript.
J Mol Endocrinol 1990 Oct
PMID:The Booroola F gene mutation in sheep is not located close to the FSH-beta gene. 197 99

There are significant differences between rats and mice in the gonadal regulation of several aspects of gonadotroph function. To investigate whether these extend to the pretranslational regulation of FSH synthesis by gonadal steroids, we have measured FSH-beta mRNA levels following gonadectomy and sex-steroid replacement and have related these to serum and pituitary FSH as a reflection of overall hormone synthesis. In ovariectomized rats, FSH-beta mRNA levels increased by 8 h, decreased, and then rose progressively over the next 28 days. A similar pattern of response was observed in orchidectomized rats. In mice, there were progressive increases in FSH-beta mRNA levels in both males and females following gonadectomy, without evidence of the early peaks observed in rats. In both species, the change in FSH-beta mRNA levels after gonadectomy was greater in females than in males. These changes in FSH-beta mRNA following gonadectomy were paralleled by changes in the serum FSH concentration. In ovariectomized female rats and mice, pituitary FSH stores increased by 8 h and 3 days respectively, whereas in male rats, pituitary FSH content did not rise until 10 days after orchidectomy. The most striking species difference was the marked and prolonged reduction of pituitary FSH after orchidectomy of mice. Treatment of rats and mice from the time of ovariectomy, with a dose of oestradiol that prevents increases in serum LH, only partially attenuated the rises in FSH-beta mRNA and serum FSH and did not prevent the increase in pituitary FSH content. Treatment of intact or orchidectomized rats with testosterone suppressed FSH-beta mRNA levels to 50% below intact control values without affecting pituitary FSH content.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Endocrinol 1990 Apr
PMID:Comparison of the pretranslational regulation of FSH synthesis by gonadal steroids in rats and mice. 211 6

To elucidate the structure and control of expression of the porcine FSH-beta subunit gene, two genomic clones were isolated and the entire gene structure was determined to the extent of 10 kb, consisting of 6 kb of the 5'-flanking region and 4 kb of the transcriptional unit. The porcine FSH-beta gene consisted of three exons the same as the human and bovine genes, but the positions of both splicing sites of porcine intron-1 were unique. It is known that the synthesis of FSH is regulated by gonadal steroids, gonadotrophin-releasing hormone (GnRH) and inhibin. However, the consensus steroid-responsive element was unexpectedly absent in the 5'-flanking region of 6 kb. On the other hand, the potential binding sites for activator protein-1 (AP1) and AP2, which might be stimulated by the GnRH-protein kinase C cascade, were present at seven and five positions respectively. An imperfect cyclic AMP-responsive element was also present. Southern blot analyses, using the cDNA and genomic fragments as probes, gave smear patterns suggesting the presence of repetitive sequences in the porcine FSH-beta gene. A survey of homology with the repetitive sequences revealed that short interspersed repeated sequences (SINES)-type non-viral retroposons were present with about 250 bp length repeats twice in the 5'-flanking region and once each in intron-1 and the 3'-flanking region. Other SINES-like sequences were also found in intron-1, exon-2 and exon-3. In comparison with the 5'-flanking sequences of the porcine alpha and LH-beta genes, there were no significantly conserved regions, implying a lack of common modulation of the three subunit genes.
J Mol Endocrinol 1990 Oct
PMID:The gene for the beta subunit of porcine FSH: absence of consensus oestrogen-responsive element and presence of retroposons. 217 41

Serum and pituitary LH and FSH, and their pituitary mRNA levels, were measured in neonatal male and female rats after gonadectomy and after gonadectomy with sex steroid replacement. The animals were gonadectomized on day 3 of life, and those given sex steroid replacement were implanted with silicone elastomer capsules containing testosterone for males and diethylstilboestrol for females. Sham-operated rats served as controls. The animals were killed 4 or 8 days latter and the sera and pituitaries collected. Pituitary contents of mRNAs for the alpha subunit, FSH-beta and LH-beta were determined by blot hybridization using corresponding cDNAs. Distinct sex differences were found in the mRNA responses to gonadectomy and steroid replacement. In the males, gonadectomy increased all mRNA levels at 7 days of age. In the females, a rise on day 7 was detected only for FSH-beta; the other mRNAs were increased on day 11 of age. The steroid replacements reversed all the post-gonadectomy increases of mRNAs in both sexes. Moreover, the common alpha and LH-beta mRNAs of the male animals were consistently suppressed below control levels. The serum concentrations of gonadotrophins increased after gonadectomy on day 7 in the males but only on day 11 in the females. The steroid replacements also suppressed the post-gonadectomy increases in serum gonadotrophins, but only the serum concentration of FSH in the females was reduced below controls. Pituitary gonadotrophin concentrations were not affected by gonadectomy, but the steroids suppressed LH in the males and FSH in the females.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Endocrinol 1989 Sep
PMID:Gonadal and sex steroid feedback regulation of gonadotrophin mRNA levels and secretion in neonatal male and female rats. 250 93

To investigate the inhibin-induced suppression of FSH secretion by the anterior pituitary, chronically ovariectomized heifers (three per group) were treated for 56-58 h with either steroid-free bovine follicular fluid (bFF; 8 ml i.v. every 8 h) or 0.9% (w/v) NaCl (8 ml i.v. every 8 h). Blood was withdrawn at 8-h intervals for analysis of plasma concentrations of FSH and LH by radioimmunoassay. At the end of the treatment period, heifers were slaughtered and pituitary glands recovered for determination of gonadotrophin contents and levels of mRNA encoding FSH-beta, LH-beta, TSH-beta and common alpha glycoprotein hormone subunits using [32P]cDNA probes in total RNA dot and Northern blot assays. Treatment with bFF markedly suppressed plasma FSH by 85% (P less than 0.001 compared with pretreatment period), but did not affect plasma LH concentrations. Plasma FSH and LH concentrations did not vary significantly in the saline-injected control heifers. The level of FSH-beta subunit mRNA was reduced by 60% (P less than 0.001) in heifers treated with bFF, whereas no significant differences between control and bFF-treated heifers were observed in the levels of mRNA encoding LH-beta, TSH-beta or common alpha subunits. Treatments with bFF, however, did not affect pituitary content of either FSH or LH. These results support the conclusion that inhibin exerts its selective suppressive effect on the secretion of FSH by the bovine pituitary, at least in part, by directly inhibiting expression of the gene encoding the FSH-beta subunit.
J Mol Endocrinol 1989 Sep
PMID:Treatment of ovariectomized heifers with bovine follicular fluid specifically suppresses pituitary levels of FSH-beta mRNA. 250 96

In order to determine the specific antigenic determinants of human follicle-stimulating hormone (hFSH), hFSH-beta peptides with amino acid residues 33-49 (V2), 95-118 (V3), 76-118 (V3 + 1/2 C2), 1-33 (V1 + C1), 22-33 (1/2C1), and 95-107 (V3 + 1/4C2) according to the nomenclature of Stewart and Stewart [Stewart, M., & Stewart, F. (1977) J. Mol. Biol. 116, 175] as well as additional peptides with the residues 93-107, 91-107, 89-107, 87-107, and 85-107 were chemically synthesized. The peptides were examined in radioimmunoassay systems of FSH, luteinizing hormone (LH), or human chorionic gonadotropin (hCG). V3 + 1/2C2 and V1 + C1 showed immunological activity, whereas the other peptides did not. Antibodies were raised in rabbits against these peptides and examined for specific binding with hFSH, LH, thyroid-stimulating hormone (TSH), and hCG. V3 + 1/2C2 as well as V1 + C1 produced antisera, which specifically bound hFSH, hLH, and hTSH, indicating that the amino acid sequences contained in hFSH-beta peptides V3 + 1/2C2 and V1 + C1 share common antigenic sites with hLH and hTSH. Antisera were produced in rabbits against hFSH-beta, against reduced and S-aminoethylated hFSH-beta (AE-FSH-beta), and against AE-FSH-beta coupled to hemocyanin. Reduced and S-aminoethylated beta-subunit of FSH-beta coupled with hemocyanin produced antisera in rabbits that specifically bound only hFSH and not hLH, hTSH, or hCG.
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PMID:Chemical synthesis of peptide fragments of the hormone-specific beta-subunit of human follicle-stimulating hormone. 258 5

Using cell-free translation of pituitary mRNAs we have investigated how, following gonadectomy in rats, the translational capacity of the specific messages encoding precursors to gonadotropin subunits alpha, LH-beta and FSH-beta increases with time. In parallel, serum LH was assayed in order to compare release and synthesis patterns. We observed a rapid rise in the rate of synthesis of all three precursors, with a significant increase already detectable 4 days after gonadectomy, and a plateau reached after 21 days. The kinetics were similar in both males and females, but maximal translational values for alpha-subunit were slightly higher in males. During the same time period, serum LH rapidly increased in the males, while in the females the rise of circulating LH was somewhat delayed. Although no direct correlation seems to exist between synthesis and release processes of gonadotropins, it is evident from our previous findings and the present data that both phenomena are dependent on gonadal steroids. In this respect, estradiol has been shown to regulate negatively, via different routes, the synthesis as well as the secretion of pituitary gonadotropins.
Mol Cell Endocrinol 1984 May
PMID:Effect of gonadectomy on pituitary levels of mRNA encoding gonadotropin subunits and secretion of luteinizing hormone. 620 91


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