Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Low molecular weight inhibitors (FRBI) of FSH binding to receptor have been isolated from a variety of gonadal tissue extracts. Because of similarities noted in the composition of FRBI and that expected for polypeptides anchored to plasma membrane via a glycosyl-phosphatidylinositol linkage, we used bacterial phospholipase C to determine if FRBI could be released from calf testis membranes. FRBI was measured by use of radioligand-receptor assays and by a direct chemical method involving derivatization with dansyl chloride followed by HPLC. Phospholipase C treatment released FRBI from calf testis membranes in a time-dependent fashion. Phospholipase C-mediated release was blocked by O-phenanthroline, a specific inhibitor of phosphoinositol-phospholipase C (PI-PLC) activity. These data suggest that FRBI is anchored to testicular plasma membranes via a phospholipase C cleavable glycosyl-phosphatidylinositol anchor. The quantity of PI-PLC releasable FRBI in the testis and its FSH receptor-binding inhibitory potency suggest the possibility that endogenous regulation of FRBI release from testicular membranes could result in local attenuation of FSH action at the receptor level.
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PMID:Phospholipase C-mediated release of low molecular weight follicle-stimulating hormone receptor-binding inhibitor from testis membranes. 212 30

One single injection of ethylene dimethane sulfonate (EDS) to mature rats causes specific degeneration of testicular Leydig cells which is complete after 3 days. At this time no steroidogenic activities can be detected, indicating that Leydig cells are the source of steroids. The mechanism of this cytotoxic effect of EDS has been investigated with isolated cells. Extensive protein alkylation has been shown to occur in Leydig cells, Sertoli cells and hepatocytes. Steroid production by Leydig cells is always inhibited by EDS, but cytotoxic effects of EDS could only be demonstrated in Leydig cells from mature rats or tumour tissue and not in Leydig cells from immature rats. A new population of Leydig cells develops during the next 2-5 weeks after EDS treatment. In hypophysectomized rats this repopulation only occurs when hCG is given daily. FSH has no effects. The proliferative activity in the interstitial tissue increases within 2 days after administration of hCG or EDS and there are indications that LH and locally produced factors are involved in the proliferation of Leydig cells or Leydig cell precursor cells. Inhibition of cAMP production with inhibitors of adenylate cyclase results in an enhancement of the LH-stimulated steroid production similar to that observed with an LHRH agonist and phospholipase C (PLC). Since the effects of LHRH and PLC on protein phosphorylation and steroid production are similar and different from LH or active phorbol esters, it is proposed that LHRH and PLC may stimulate steroid production via liberation of calcium from a specific intracellular pool. Sterol carrier protein2 (SCP2) which is specifically localized in Leydig cells and regulated by LH probably plays a role in the delivery of cholesterol to the mitochondria although the mechanism of this carrier function is not clear. The results indicate that regulation of Leydig cell development and the steroidogenic activities by gonadotrophins and locally produced factors occur via different transducing systems and regulatory pathways.
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PMID:Multiple regulation of testicular steroidogenesis. 282 90

The principal physiological site of action of GnRH is on pituitary gonadotrophs. Although binding sites for this peptide are described in the gonads, placenta, breast and brain, their precise physiological/pharmacological relevance remains to be elucidated. The pituitary action of GnRH can be divided conveniently into an immediate release of LH and FSH within minutes, the synthesis of LH and FSH over a matter of hours (intermediate action), and long-term morphologic changes lasting several days. Most, if not all, of these actions are initiated following interaction with high-affinity (Kd = 0.5 nM) stereospecific receptors on gonadotrophs. GnRH receptor concentration is negatively regulated by testosterone and progesterone, and positively regulated by oestradiol in vivo as well as by the ligand itself. In-vivo and in-vitro GnRH regulates its own receptors depending on its pulsatile or continuous secretion which increase or decrease numbers (up-or down-regulation), respectively. In-vivo change in GnRH receptors probably reflect the extent or pituitary exposure to endogenous GnRH and is an indirect index of hypothalamic GnRH secretion. Up-regulation is not ligand specific since other activators of LH release e.g. depolarization, ionophores, and cAMP derivatives, are also effective in vitro. Down-regulation is specific to the ligand and contributes to 'desensitization' which also includes disruption of the signal transduction mechanism (uncoupling of receptors), and depletion of cellular LH stores. GnRH receptor occupation activates membrane phospholipase C to hydrolyse polyphosphoinositides with the formation of inositol-1-4-5-trisphosphate and diacylglycerol which activates protein kinase C.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of GnRH action in gonadotrophs. 283 40

We have investigated the role of protein kinase C (PKC) in LHRH-induced LH and FSH secretion and LHRH priming. Hemipituitary glands from prooestrous rats were incubated with agents known to affect PKC and with or without LHRH, during which time the secretion of gonadotrophins was measured. Phorbol esters and phospholipase C, activators of PKC, released LH and FSH in a concentration-dependent manner and potentiated the LHRH-induced secretion of gonadotrophins in parallel with their ability to release these hormones alone. Inhibitors of PKC had either no effect on LH release (1-(5-isoquinolinesulphonyl)-2-methylpiperazine hydrochloride) or they augmented LHRH-induced gonadotrophin release (polymyxin B and 8-(N,N-diethylamino) octyl-3,4,5-trimethoxybenzoate). Neither the activators nor the inhibitors of PKC, when present with LHRH, caused any change in LHRH priming, even though the activators alone produced a release of gonadotrophins that showed a temporal pattern similar to that produced by LHRH priming. The profiles of effects on LH and FSH secretion were always qualitatively similar. These results show that PKC may be involved in general regulation of gonadotrophin release but that it is not important in acute responses to LHRH nor in LHRH self-priming.
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PMID:The role of protein kinase C in LHRH-induced LH and FSH release and LHRH self-priming in rat anterior pituitary glands in vitro. 312 15

The properties of adult rhesus monkey testicular FSH receptor was investigated in these experiments. The interaction of 125I-labeled human FSH with a monkey testicular particulate fraction is a time- and temperature dependent phenomenon. Equilibrium of hormone-receptor interaction occurred by about 4-6 at 37 or 34 C, was slow at 25 C, and was extremely slow at 4 C. Maximum binding occurred at pH 7-7.5, with a requirement of 5-10 mM MgCl2 or CaCl2. The half-life of the receptor with exposed sites for hormone interaction was temperature related (1 h at 37 C, 1.5 h at 34 C, 6 h at 25 C, and 36 h at 4 C). Occupancy of these sites by the labeled hormone rendered the receptor more stable. The hormone-receptor complex was highly stable, as shown by the fact that excess unlabeled hormone was unable to displace the already bound labeled hormone from the receptor. Conditions unfavorable for hormone-receptor interaction, such as pH 5.0 or pH 10 or high salt concentration (0.5 M MgCl2), induced the maximum dissociation of the preformed hormone-receptor complex. The primate testis FSH receptor was inactivated by trypsin, phospholipase C, and reducing agents, but it was not influenced by nucleases. Neuraminidase treatment of the particulate receptor may have enhanced its ability to bind labeled human FSH.
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PMID:Studies on primate gonadotropin receptors: characterization of the rhesus monkey testicular follicle-stimulating hormone receptors. 629 May 23

Among vertebrates, there is an extreme conservation in amino acid sequence for the neuropeptide PACAP-38 and its C-terminal shortened derivative PACAP-27. The PACAP gene is assigned to chromosome 18 in man and its organization has been characterized. PACAP-38 and its minor derivative PACAP-27 are widely distributed in the central nervous system. PACAP-38 is particularly abundant in hypothalamus. The mapping of the afferentation and efferentation of PACAP systems are progressively delineated, including a search for the colocalization with other neurotransmitters. In several peripheral organs positive neuronal perikarya and fibers are also seen. PACAP acts through two types of receptors: (1) the highly selective type I that displays a 500 to 2000 selectivity for PACAP-38 and PACAP-27 as compared to VIP; (2) type II is the so-called VIP receptor showing similar high affinity for PACAP-38, PACAP-27 and VIP. It is less selective, therefore, than previously thought. This is why this second receptor, qualifying as an unspecific VIP-PACAP receptor, is hardly considered here. Type I receptors can stimulate two enzymes: the adenylate cyclase and phospholipase C (whose activation leads to the inositol phosphate-cytosolic Ca2+ cascade). This dual coupling may have several distal consequences including on gene expression, cell growth and differentiation. Although a relatively comprehensive spectrum of pharmacological activities has already been established we still need to limit the physiological roles of PACAP as neurotransmitter and/or neuromodulator. Concerning the hypothalamo-pituitary axis, PACAP reduces food intake in mice and raises plasma arginine vasopressin in rat, probably through PACAP-ir neurons in paraventricular and supraoptic nuclei projecting to the neurohypophysis. PACAP originating in the hypothalamus may also be transported to the anterior pituitary through portal vessels. Data on the antehypophysis suggest a role on i.a. reproduction and growth. PACAP stimulates adenylate cyclase and increases [Ca2+] in gonadotropes, somatotropes, and folliculo-stellate cells. It elevates the secretion of alpha-MSH from melanotropes, and that of interleukin-6 from pituitary folliculo-stellate cells. PACAP potentiates the effects of LHRH on LH and FSH secretion. More clearly perhaps, PACAP increases the synthesis of LH, GH, PRL and ACTH after 1-2 days. In human pathology, PACAP-27 and PACAP-38 stimulate adenylate cyclase activity in membranes from 'null'-, gonadotropin-, GH-, and ACTH-producing pituitary adenomas but are inactive in prolactinomas.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Type I receptors for PACAP (a neuropeptide even more important than VIP?). 821 37

In the present investigation, a hCG sensitive glycosyl-phosphatidylinositol (GPI) was isolated from cultured rat granulosa cells obtained from the ovaries of diethylstilbestrol (DES) implanted immature rats. The inositol-phosphoglycan (IPG) moiety of the GPI-lipid contains galactose, glucosamine, and myoinositol as demonstrated by metabolic labelling of granulosa cells for different time periods (5-96 h) with [3H]galactose, [3H]glucosamine, or [3H]myoinositol and treatment of the purified [3H]GPI with phosphatidylinositol-specific phospholipase C. Labelling equilibrium of the GPI-lipid was achieved after 24 h ([3H]galactose and [3H]myoinositol) or 72 h ([3H]glucosamine) incubation, whereas incorporation of other labelled carbohydrates tested ([3H]galactosamine, [3H]mannose, and [3H]sorbitol) was negligible throughout the time period studied. The glucosamine C-1 appears to be linked through a glycosidic bond to the myoinositol molecule of the IPG moiety as revealed by the generation of phosphatidylinositol (PtdIns) after nitrous acid deamination of dual labelled ([3H]glucosamine/[14C]palmitate or [3H]glucosamine/[14C]myristate) glycosyl-phosphatidylinositol. To investigate the fatty acid composition of the diacylglycerol (DAG) backbone of the GPI, granulosa cells were also labelled (5-72 hr) with [14C]linoleate, [3H]myristate, [3H]oleate, [3H]palmitate, or [3H]stearate and the radioactivity associated with the purified glycosyl-phosphatidylinositol determined. Incorporation of [3H]palmitate and [3H]myristate into the GPI-lipid peaked after 8 h and 24 h of labelling, respectively, and both fatty acids were partially released after PLA2 treatment of the dual labelled ([3H]glucosamine/[14C]palmitate or [3H]glucosamine/[14C]myristate) GPI. In parallel experiments no significant incorporation of labelled stearate, oleate, or linoleic acid into the DAG backbone of the glycosylphosphatidylinositol could be detected. Granulosa cells were also labelled with [3H]glucosamine in the presence of FSH (30 ng/ml), cholera toxin (1 microgram/ml), or the membrane permeable cAMP analog (but)2cAMP (1 mM). Time related increases in GPI-labelling were apparent after 48 h and reached a maximum level (3-, 5-, and 7-fold for FSH, CT, and (but)2cAMP, respectively) after 72 h in culture. In another set of experiments, granulosa cells were labelled for 72 h with [3H]glucosamine in the presence of (but)2cAMP (1 mM), TPA (10(-7) M), or combination thereof. The effect of treatment with the membrane permeable cAMP analog on GPI labelling was prevented in the presence of TPA, whereas no differences in [3H]GPI content could be observed in untreated granulosa cells or cells cultured in the presence of the protein kinase C-activating phorbol ester alone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Follicle-stimulating hormone and human chorionic gonadotropin induced changes in granulosa cell glycosyl-phosphatidylinositol concentration. 848 20

Gonadotropin and TSH receptors represent a subgroup of seven transmembrane-spanning, G protein-coupled receptors with a large extracellular ligand-binding region. After ligand binding to their receptors, the majority of actions of gonadotropins and TSH are believed to be mediated by the cAMP-protein kinase A pathway. Although formation of inositol phosphates (IP) has been reported after stimulation of rodent gonadotropin receptors, activation of phospholipase C after ligand binding of human LH or FSH receptors has not been investigated. Human gonadotropin receptors were transiently expressed in 293 cells, and the agonist-induced stimulation of IP formation was measured. The LH receptor responded to a saturating dose of human CG (hCG) with a 5.2-fold increase of IPs whereas the FSH receptor responded to a saturating dose of FSH with only a 50% increase. On the basis of these differences and in view of the homologous nature of the two gonadotropin receptors, chimeric receptors were constructed using domain transfer to identify the regions in the human LH receptor important for phosphatidylinositol hydrolysis. Chimeric receptors containing the entire extracellular region of the FSH receptor and the seven transmembrane region plus the cytoplasmic tail of the LH receptor responded to FSH treatment with a 4.7-fold increase in IP accumulation. In contrast, the chimeric receptor with the extracellular region of the LH receptor and the TM region plus the cytoplasmic tail of the FSH receptor responded minimally (50%) to hCG treatment. When the C-terminal third (from TM V to the cytoplasmic tail) of the FSH receptor was replaced with the LH receptor sequence, the chimeric receptor still responded to FSH treatment with a large (6.2-fold) increase in IP release, similar to that of the wild type LH receptor (to hCG), suggesting that C-terminal third of the human LH receptor confers IP signaling ability. This functional domain was further divided into two areas, namely TM V to TM VI and TM VII to the cytoplasmic tail. The chimeric receptors F(I-IV)L(V-VI)F(VII-C)R and F(I-VI)L-VII-C)R, in which these two regions of the FSH receptor were replaced by the corresponding sequences of the LH receptor, responded to FSH treatment with partial increases in phosphatidylinositol hydrolysis (2.0- and 3.7-fold, respectively). Furthermore, when TM VII and the cytoplasmic tail of the LH receptor were replaced with the corresponding sequence of the FSH receptor, this chimeric receptor showed a diminished (2.0-fold) response to hCG in IP release. For all the chimeric receptor constructs analyzed, overall expression, equilibrium binding constants, and adenyl cyclase activation were not altered. Thus, unlike studies using chimeric muscarinic and dopaminergic receptors in which the second and third intracellular loops were found to be important for IP signaling, the entire C-terminal third of the human LH receptor is important for IP release. Future analysis using the chimeric receptor approach should provide new information on the structure-function relationship of gonadotropin, TSH, and other seven transmembrane-spanning receptors.
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PMID:The C-terminal third of the human luteinizing hormone (LH) receptor is important for inositol phosphate release: analysis using chimeric human LH/follicle-stimulating hormone receptors. 888 47

The FSH receptor is a member of the family of G protein-coupled receptors that activate adenylyl cyclase. The binding of agonist to cell surface receptors leads to a reduction in the intensity of the response to continuous stimulation, a process that is usually referred to as desensitization. Although the exact mechanism is not fully understood, the molecular cloning of the FSH receptor has made it possible to study desensitization in transfected cell lines. In this experiment FSH-induced desensitization was studied using Chinese hamster ovary cells expressing a functional human FSH receptor (CHO-FSHR cells). Stimulation of the CHO-FSHR cells with 10 ng/ml human FSH resulted in a decreased sensitivity to a second FSH stimulation. This decrease in FSH-induced cAMP production was observed within 2 h, and exposure of cells to FSH for 20 h led to a 70-80 % inhibition of cAMP formation. Moreover, the desensitization effect observed in CHO cells was mimicked by forskolin and, therefore, was mediated by cAMP. Incubation of cells with 125I-FSH showed an efficient internalization of the ligand in the CHO-FSHR cells. The CHO-FSHR cells rapidly internalized approximately 30% of the receptor-associated 125I-FSH by 2 h and 50% by 4 h. The responsiveness of individual CHO-FSHR cells to FSH was studied and administration of human FSH (30 ng/ml) induced a rapid rise in cytosolic calcium, reaching a peak at 6 sec. The data that human FSH can increase intracellular calcium in cells transfected with the FSH receptor cDNA reveal the possibility for the human FSH receptor to couple to both adenylyl cyclase and phospholipase C cascades.
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PMID:Dual coupling and down regulation of human FSH receptor in CHO cells. 918 Mar 58

The release of gonadotropins is effected by GnRH and regulated by steroids. The classical mechanism of steroid hormone action, which implies the binding of hormone receptor complexes to regulatory elements of nuclear genes, is derived largely from the well-studied and familiar steroids such as progesterone, testosterone, and estradiol. Their effects on gonadotropin release generally have been examined following hours or days of exposure and therefore cannot account for the rapid effects of steroids on gonadotropin release. Moreover, tissues such as gonad, pituitary, and hypothalamus can produce a variety of hormonally active steroids in addition to these well-studied, traditional ones. The recently discovered allylic steroid, 3 alpha-hydroxy-4-pregnen-20-one (3 alpha HP), is readily interconverted from/to progesterone and is found at appreciable levels in serum, gonads, pituitary, hypothalamus, and other tissues. 3 alpha HP has provided the "missing link" in the progesterone biosynthetic/ metabolic pathways, allowing cyclical 4-pregnene and 5 alpha-pregnane pathways to be described for steroidogenic tissues. Among the functions ascribed to 3 alpha HP is the ability to selectively and rapidly (within seconds or minutes) suppress GnRH-provoked FSH release. In vitro studies using pituitary gonadotropes in culture and in perifusion paradigms suggest that suppression of FSH release by 3 alpha HP occurs as a result of nongenomic mechanisms of action. These mechanisms are discussed and include interaction at the level of receptors in the gonadotrope membrane and the cell-signaling pathway involving protein kinase C, phospholipase C, or IP3-induced Ca2+ mobilization and Ca2+ channels. This may be the first evidence of a gonadal steroid regulating gonadotropin release by nongenomic mechanisms of action. In order to understand the critical role of steroids in the rapid regulation of secretory (and bence, circulating) levels of gonadotropins, other gonadal steroids will need to be examined for their nongenomic action on gonadotropes.
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PMID:Nongenomic actions of steroids on gonadotropin release. 923 48


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