Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Biochemical as well as immunochemical studies were carried out to quantitatively and qualitatively evaluate the hormonal regulation of nuclear cAMP-dependent protein kinase subunits in ovaries from estrogen-treated hypophysectomized rats. Photoaffinity labeling of nuclear extracts with 8-azido-[32P]cAMP and electrophoretic analysis showed the existence of three variants of the regulatory subunit RI and of a 52,000-dalton RII variant (RII-52) in ovarian nuclei of estrogen-primed hypophysectomized rats. After follicle-stimulating hormone (FSH) stimulation, an additional variant of RII (RII-51, Mr = 51,000) was detected in nuclei. The cytosolic RII-54 variant (Mr = 54,000) could not be identified in nuclei by photoaffinity labeling. The FSH-mediated appearance of the nuclear RII-51 variant was accompanied by an approximate 2-fold increase of nuclear catalytic subunit activity. Using quantitation by enzyme-linked immunosorbent assay, we identified a marked FSH-mediated increase of nuclear RII variant(s) and confirmed the increase of nuclear catalytic subunit levels. Furthermore, morphometric analysis of nuclear and cytoplasmic antigen density by immunogold electron microscopy demonstrated a cell-specific modulation by FSH of RII and C subunit density. In granulosa cells, both nuclear as well as cytoplasmic RII density was increased by FSH, whereas catalytic subunit density was increased in the nuclear area only. In thecal cells, FSH increased only the nuclear catalytic subunit density. These results provide biochemical as well as immunochemical evidence for a cell-specific FSH regulation of nuclear RII and catalytic subunit levels which may be involved in the molecular events responsible for the FSH-mediated differentiation of the rat ovary.
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PMID:Hormonal regulation of nuclear cyclic AMP-dependent protein kinase subunit levels in rat ovaries. 313 55

The regulatory subunit (R-II) of cAMP-dependent protein kinase type II is induced in rat ovarian granulosa cells by the synergistic actions of estradiol and follicle-stimulating hormone. The R-II from rat ovaries was compared with R-II from rat heart, rat brain, bovine heart, and bovine brain using immunological methods, 8-N3[32P]cAMP photoaffinity labeling and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Three isoforms of R-II were identified in rat ovarian cell extract (R-II54 Mr = 54,000, R-II52 Mr = 52,000, R-II51 Mr = 51,000), two isoforms of R-II in rat brain cell extract (Mr = 54,000, Mr = 52,000), and one isoform of R-II in rat heart cell extract (Mr = 54,000). Rat ovarian R-II54, heart R-II, and brain R-II (Mr = 54,000) were recognized by antiserum against rat heart R-II, whereas rat ovarian R-II52/R-II51 and rat brain R-II (Mr = 52,000) were not. In contrast, an antiserum raised against bovine heart R-II recognized all three isoforms of ovarian R-II as well as the lower molecular weight form of rat brain R-II. Ovarian types R-II52 and R-II51 but not R-II54 were increased selectively in granulosa cells by estradiol and follicle-stimulating hormone. In addition: 1) ovarian R-II52/51 subunits were purified to homogeneity and shown to recombine with C subunit from bovine heart to form a cAMP-dependent protein kinase; 2) pure R-II52/51 were not interconvertible to a higher molecular weight form by C subunit-dependent phosphorylation; 3) pure rat heart R-II (Mr = 54,000) and ovarian R-II52/51 exhibited distinct differences based on one- and two-dimensional peptide mapping; and 4) by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis pure R-II52/51 were resolved as three (rather than two) isoelectric variants which were clearly different from pure rat heart R-II54. Thus, the hormone-regulated form of R-II in rat ovarian granulosa cells appears to represent a gene product distinct from R-II54 in rat heart.
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PMID:Purification and characterization of hormone-regulated isoforms of the regulatory subunit of type II cAMP-dependent protein kinase from rat ovaries. 393 66

The accumulation of two polypeptides, SCm1 and SCm2, in the medium of Sertoli cell cultures is enhanced by follicle-stimulating hormone (FSH) but is unaffected by either the cAMP analog, N6,O2'-dibutyrl cAMP or luteinizing hormone. The assigned molecular weights of SCm1 and SCm2 differ from those of androgen-binding protein subunits or any other previously identified Sertoli cell secretory product. Incubation of Sertoli cell cultures with either FSH or N6,O2'-dibutyryl cAMP also stimulates the incorporation of [35S]methionine into two intracellular polypeptides, SCc1 and SCc2. In addition, the phosphorylation of three intracellular polypeptides, SCc3, SCc4, and SCc5, is intensified when Sertoli cell cultures are treated with either FSH or N6,O2'-dibutyryl cAMP. Based on these results and on previous work, we conclude that (i) SCm1 and SCm2 may, like androgen-binding protein, be secreted by Sertoli cells and function extracellularly while SCc1 and SCc2 are involved in FSH-dependent intracellular activity; (ii) SCc3, SCc4, and SCc5 are possible substrates for FSH-stimulated, cAMP-dependent protein kinase activity; and (iii) SCc5 is an isoelectric variant of vimentin-type intermediate filament protein presumably involved in FSH- and N6,O2'-dibutyryl cAMP-induced Sertoli cell shape changes.
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PMID:Hormonal regulation of protein synthesis, secretion, and phosphorylation in cultured rat Sertoli cells. 629 7

Endogenous protein phosphorylation was investigated in cultured rat Sertoli cells after treatment with follicle-stimulating hormone (FSH) and pharmacological agents that activate cAMP-dependent protein kinases. In intact Sertoli cells, both phosphorylation and dephosphorylation of proteins occurred in response to treatment with these agents. Studies using cell-free preparations suggest that four phosphoproteins phosphorylated by cAMP or the catalytic subunit of cAMP-dependent protein kinase were also phosphorylated in a FSH-dependent manner in intact cells. These data suggest that FSH-dependent phosphorylation in Sertoli cells occurs through activation of a cAMP-dependent protein kinase. A FSH-dependent phosphoprotein with a molecular weight of 58,000 was identified as the intermediate filament protein vimentin, based on its migration in two-dimensional gels and its peptide map. The cellular distribution of vimentin was monitored by immunofluorescence in Sertoli cells after treatment with FSH. Results of this study support a role for intermediate filaments in FSH-dependent events in Sertoli cells.
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PMID:Follicle-stimulating hormone-dependent phosphorylation of vimentin in cultures of rat Sertoli cells. 630 79

Protein-bound cyclic AMP (cAMP) levels in cultured rat Sertoli cells have been determined after exposure to follicle-stimulating hormone (FSH) and agents which elevate intracellular cAMP or mimic cAMP action. Changes in the content of protein-bound cAMP were correlated with changes in receptor availability determined by measuring [3H] cAMP binding. Using the photoaffinity analog of cAMP, 8-N3 [32P] cAMP, two major cAMP-binding proteins in Sertoli cell cytosol, with molecular weights of 47 000 and 53 000 daltons, were identified as regulatory subunits of type I and type II cAMP-dependent protein kinases, respectively. Densitometric analysis of autoradiograms demonstrated differential activation of the two isozymes in response to treatment with FSH and other agents. Results of this study demonstrate the value of measuring changes in protein-bound cAMP and the utility of the photoaffinity labeling technique in correlating hormone-dependent processes in which activation of cAMP-dependent protein kinase occurs.
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PMID:Characterization of cyclic AMP-binding proteins in rat sertoli cells using a photoaffinity ligand. 632 65

We used co-cultures of porcine ovarian granulosa cells and mouse adrenocortical tumor cells (Y-1) to examine the kinetics of contact-dependent intercellular signal transfer and to assess the molecular mechanisms employed by this process. Exposure to follicle-stimulating hormone (FSH) caused cAMP-dependent protein kinase dissociation in granulosa cells and, with time, in Y-1 cells if, and only if, they contacted a responding granulosa cell. Y-1 cells close to a granulosa cell but not touching it failed to respond similarly. In reciprocal experiments, co-cultures were stimulated with adrenocorticotropic hormone (ACTH). Y-1 cells dissociated protein kinase as did granulosa cells in contact with Y-1 cells; however, granulosa cells that were not in contact with Y-1 cells failed to respond to the hormone. Fluorogenic steroids were secreted by Y-1 cells cultured alone and stimulated with ACTH, but were not secreted by cultures exposed to FSH. Neither hormone caused fluorogenic steroid production by granulosa cells. On the other hand these steroids were secreted in co-cultures stimulated with ACTH and to a lesser degree in co-cultures exposed to FSH. Autoradiography revealed that I125-FSH bound only to granulosa cells, never to Y-1 cells, even if they were in contact with an ovarian cell. The possibility of cell fusion was tested by experiments in which Y-1 cell membranes were labeled with cationized ferritin. These cells were then placed in co-culture with ovarian granulosa cells that had previously been allowed to ingest latex spheres. At regions of gap junctions between Y-1 and granulosa cells ferritin remained attached to the adrenal cell membrane and was never observed to migrate to the granulosa cell membrane. From these data, we conclude that hormone specific stimulation of one cell type leads to protein kinase dissociation in heterotypic partners only if they contact a hormone responsive cell. This signal transfer is bidirectional, exhibits temporal kinetics and occurs in the absence of apparent cell fusion. The only structural feature connecting Y-1 and granulosa cells were gap junctions implying they provided the communication channels; however, alternative mechanisms cannot be excluded. We have not established the identity of the signal being transferred although cAMP is a logical candidate.
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PMID:Hormone-induced intercellular signal transfer dissociates cyclic AMP-dependent protein kinase. 632 20

The in vitro ability of ovine (o) follicle-stimulating hormone (FSH), (o)luteinizing hormone (LH), (o)prolactin (PRL), and recombinant human FSH (rhFSH) to stimulate progesterone (P4) synthesis by rat corpora lutea on Day 4 of pregnancy was investigated. Dispersed luteal cells (large + small cells) were incubated in the presence of the gonadotropins (1-100 ng) alone or in various combinations (10 ng each) for 4 or 24 hr. Given alone, all the ovine preparations stimulated P4 in a dose-dependent manner with even 1 ng of each hormone significantly enhancing P4 production. Significantly, rhFSH--which is devoid of LH contamination--at 10 and 100 ng also stimulated P4 production, thus clearly establishing for the first time that FSH is a luteotropic hormone in the rat. The combination of oFSH + LH + PRL (10 ng each) significantly stimulated P4 synthesis to a greater extent than the combination of any two hormones or individual hormones at both 4 hr or an additional 24 hr of incubation (P < 0.05). This verified in vitro a previously established in vivo luteotropic complex. One hundred nanamolars of phorbol 12-myristate 13-acetate (PMA) did not affect basal P4 secretion but inhibited cAMP, oFSH, and oLH stimulation of P4. Thus, the luteotropic effects of FSH, LH, and activators of protein kinase A are antagonized by the protein kinase C pathway.
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PMID:In vitro effects of interactions of follicle-stimulating hormone, luteinizing hormone, and prolactin on progesterone synthesis by rat luteal cells during pregnancy. 763 45

The regulation of the follistatin mRNA by hormones and endocrine manipulations was examined in granulosa cell cultures. The follistatin mRNA accumulation was stimulated in a dose-dependent manner by follicle-stimulating hormone (FSH) with a maximal response twice as great as in control cultures at a dose of 100 ng/ml FSH. The time course of the FSH effect on follistatin mRNA had a biphasic effect in which FSH increased follistatin mRNA within 2 h, and subsequently reduced it to below the control level. 8-Br-8 brom-adenosine 3,5-cyclic monophosphate (cAMP) (2 mM) and phorbol 12-myristate 13-acetate (PMA) (10 nm) induced a time-dependent increase in follistatin mRNA levels, with the maximal response at 6 h and 2 h, respectively. Co-treatment of the granulosa cells with cAMP and PMA demonstrated that 0.2 mM of 8-Br-cAMP suppressed the follistatin mRNA of the control and the samples with a small amount of PMA in the granulosa cells. Follistatin expression is therefore regulated by protein kinase A and protein kinase C pathways in rat granulosa cells. A more dramatic stimulation of follistatin mRNA was observed when this culture was treated with activin, and follistatin also blocked the effect of activin on the follistatin mRNA.
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PMID:Regulation of follistatin messenger ribonucleic acid in cultured rat granulosa cells. 766 79

This study was undertaken to investigate, in freshly isolated rat Sertoli cells, the physiological function of the type I and type II cyclic adenosine monophosphate (cAMP)-dependent protein kinase isozymes in tissue-type plasminogen activator secretion and the regulation of this cAMP process by follicle-stimulating hormone (FSH). Follicle-stimulating hormone-induced tissue-type plasminogen activator secretion depends upon intracellular cAMP levels. The changes in cAMP amounts required to activate maximally the tissue-type plasminogen activator secretion are extremely small, a cAMP threshold having to be reached for triggering the tissue-type plasminogen activator output. Intact Sertoli cells were incubated with combinations of cAMP analogs specific for each cAMP-dependent protein kinase type and complementary in their cAMP binding site on the cAMP-dependent protein kinase regulatory subunits: 8-aminohexylamino-cAMP = type 1, site 1; 8-thiomethyl-cAMP = type II, site 1 and N6-benzoyl-cAMP = types I/II, site 2. This allowed us to activate selectively each cAMP-dependent protein kinase type in a synergistic manner and then to evaluate their respective influence in the specific tissue-type plasminogen activator response. We establish that both of the cAMP-dependent protein kinase types are present and functional; the activity of the type I isozyme is preponderant (60%) in the cAMP-dependent tissue-type plasminogen activator secretion. Likewise, when these cAMP analogs were coupled with endogenously generated cAMP by FSH or forskolin, both of the cAMP-dependent protein kinase types were involved in the tissue-type plasminogen activator production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of cyclic adenosine monophosphate-dependent protein kinase isozymes in tissue plasminogen activator secretion by rat Sertoli cells stimulated with follicle-stimulating hormone in vitro. 768 8

Many Sertoli functions are regulated by the receptor-mediated action of follicle-stimulating hormone (FSH). The interaction of FSH with its specific cell surface receptors leads to stimulation of a number of intracellular events, including the activation of guanine nucleotide binding protein (G protein), adenylate cyclase and the cAMP-dependent protein kinase (PKA) pathway. In addition to positive regulation of cell functions, a phenomenon of refractoriness occurs after primary exposure of target cells to the hormone. Different sites of lesion have been suggested including down-regulation of FSH receptor, uncoupling of the receptor and the G protein/adenylate cyclase complex, and stimulation of nucleotide phosphodiesterases or inhibition of PKA activity. Alterations of cell responsiveness are mediated by a combination of these different mechanisms occurring over different time-scales and hormonal concentrations.
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PMID:[Molecular mechanisms of stimulation and desensitization of Sertoli cells by follicle-stimulating hormone]. 773 57


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