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Our purpose was to identify regulatory (R) subunits and their associations with catalytic (C) subunits to form cAMP-dependent protein kinase (A-kinase) holoenzymes in select porcine ovarian tissues during follicular differentiation. Soluble extracts of small and preovulatory follicles and corpora lutea (CL) were separated on DEAE-cellulose chromatography. R subunits were labeled with 8-N3[32P]cAMP or with [gamma-32P]ATP under RII autophosphorylation conditions and were identified by molecular weight (Mr) determination on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) as well as cross-reactivity of unlabeled subunits with anti-R antibodies. A-kinase holoenzymes and C subunit-free R (free R) subunits were distinguished on the basis of DEAE elution position and sedimentation position on sucrose density gradient centrifugation of phosphotransferase and [3H]cAMP binding activities. In small and preovulatory follicles and CL we identified a minor peak of type I A-kinase containing RI alpha (Mr = 47,000) and a major peak of type II A-kinase holoenzyme containing two RII isoforms (Mr = 52,000 and 56,000). Notable amounts of free RI alpha eluted between the type I and II holoenzymes in all three tissues. Neither of the holoenzymes nor free RI alpha was regulated as a function of follicular differentiation or CL formation. In contrast, free RII subunits were moderately increased in preovulatory follicles relative to levels in small follicles and CL. We conclude that only the RII subunits are hormonally regulated in developing follicles, and in tissues which express both RI and RII subunits, the RII subunits preferentially associate with C subunits to form the dominant holoenzyme despite the presence of significant amounts of RI.
Mol Cell Endocrinol 1991 Sep
PMID:cAMP-dependent protein kinase isozymes in porcine follicles and corpora lutea. 195 84

The involvement of protein and RNA synthesis in insect steroidogenesis was investigated using the prothoracic glands of the tobacco hornworm Manduca sexta. Ecdysone secretion stimulated by prothoracicotropic hormone (PTTH) and by cAMP analogs such as dibutyryl cAMP (dbcAMP), was suppressed by the translation inhibitors cycloheximide and puromycin, and by the transcription inhibitor actinomycin D. Inhibition of protein synthesis did not prevent the activation of glandular kinases, as indicated by continued protein phosphorylation in the presence of cycloheximide. Incorporation of radiolabeled amino acids and uridine increased within 60 min of glandular activation, suggesting that ecdysteroid secretion was accompanied by enhanced protein and RNA synthesis. One-dimensional gel electrophoresis revealed an increase in the translation of glandular proteins within 20 min of activation. The results suggest that the translation of protein from short-lived mRNA is necessary for optimal synthesis of ecdysteroids, and that the requisite proteins act beyond the activation of cAMP-dependent protein kinase.
Mol Cell Endocrinol 1990 Dec 21
PMID:Involvement of translation and transcription in insect steroidogenesis. 196 48

Addition of [gamma -32P]ATP to a 2% Brij-78 40,000g supernatant of sea urchin sperm results in the cAMP-dependent phosphorylation of eight to ten proteins. One phosphoprotein of Mr 190 kD is sperm adenylate cyclase (AC). An antiserum to the AC immunoprecipitates the Mr 190 kD protein. Peptide maps of immunoprecipitates show that the AC is the only phosphoprotein present in the Mr 200 kD range. With respect to the in vitro phosphorylation of AC, the endogenous kinase has a Km for ATP of 5.2 microM and is maximally stimulated by 4-8 microM cAMP. The protein kinase inhibitors H8 (9 microM) and PKI (30 U/ml) inhibit the phosphorylation of the AC. The catalytic subunit of bovine cAMP-dependent protein kinase phosphorylates the AC on the same peptides as the endogenous protein kinase. Cyanogen bromide generated peptide maps of the phosphorylated AC show a minimum of five sites of phosphorylation. No change in the Km or Vmax of the sperm AC resulted from the additional phosphorylation by bovine kinase. Calcium ions at submicromolar concentrations completely block the in vitro phosphorylation of the AC, suggesting the presence in the preparation of a Ca2(+) -activated protein phosphatase. To our knowledge, this is the first report of the phosphorylation of an AC by cAMP-dependent protein kinase.
Mol Reprod Dev 1991 Feb
PMID:In vitro phosphorylation of sea urchin sperm adenylate cyclase by cyclic adenosine monophosphate-dependent protein kinase. 200 28

Monoclonal and polyclonal antibodies to the major sarcoplasmic reticulum proteins of rabbit skeletal and canine cardiac muscle have been used to identify and characterize the corresponding components of human cardiac sarcoplasmic reticulum. The Ca2(+)-transporting ATPase of human cardiac sarcoplasmic reticulum was identified as a 105,000-Da protein antigenically distinct from its rabbit skeletal muscle counterpart. Human cardiac sarcoplasmic reticulum also contained 53,000- 155,000- and 165,000-Da glycoproteins antigenically related to the low and high molecular weight glycoproteins of canine cardiac and rabbit skeletal muscle sarcoplasmic reticulum. The ryanodine-sensitive Ca2+ channel of human cardiac sarcoplasmic reticulum was identified as a 400,000-Da protein antigenically related to its counterparts in canine cardiac and rabbit skeletal muscle. Human cardiac calsequestrin was identified as a 52,000-Da protein. Human phospholamban was identified as a 29,000-Da substrate for phosphorylation by cAMP-dependent protein kinase. Immunoblots of sarcoplasmic reticulum from the normal left ventricles of four unmatched organ donors and the excised failing left ventricles of nine patients with idiopathic dilated cardiomyopathy were compared in search of qualitative differences in the protein patterns of the failing hearts. No such differences were found with respect to the Ca2+ ATPase, the 53,000-Da glycoprotein, the ryanodine-sensitive Ca2+ channel, calsequestrin or phospholamban. In contrast, the 165,000-Da glycoprotein band, present in all four preparations from nonfailing hearts, was absent from three of nine preparations from failing hearts, and staining of the 155,000-Da glycoprotein in these three preparations appeared to be relatively increased. The absence of the 165,000-Da glycoprotein band may identify or reflect a pathogenetic mechanism in a subset of patients with idiopathic dilated cardiomyopathy.
J Mol Cell Cardiol 1990 Dec
PMID:Identification and characterization of proteins in sarcoplasmic reticulum from normal and failing human left ventricles. 208 60

We have examined the binding of factors in rat liver nuclear extracts to the phosphoenolpyruvate carboxykinase (PEPCK) gene cyclic AMP (cAMP) response element (CRE) and other CREs and have isolated a rat liver CRE-binding protein (CREBP) cDNA. In addition, we have examined the influence of altering the phosphorylation state of nuclear factors on both CRE binding and in vitro transcription. Specific binding to the PEPCK CRE was measured in a mobility shift assay. CRE sequences of the PEPCK, somatostatin, and glycoprotein hormone alpha subunit genes competed equally for binding of rat liver nuclear factors to the PEPCK CRE, whereas mutant PEPCK CRE sequences did not compete for binding. Oligonucleotides complementary to rat pheochromocytoma CREBP (Gonzalez et al., Nature [London] 337:749-752, 1989) were used to prime rat liver and brain cDNA in the polymerase chain reaction. The predominant CREBP molecule obtained was identical to the rat pheochromocytoma CREBP except for a 14-amino-acid deletion in the N-terminal half that was also present in a human placental cDNA (Hoeffler et al., Science 242:1430-1433, 1988). The regulation of transcription by cAMP was examined by coincubation of rat liver nuclear extract with the purified catalytic subunit of cAMP-dependent protein kinase (protein kinase A). Although binding to the CRE was unaffected, in vitro transcription directed by the PEPCK promoter was stimulated by catalytic subunit, and this effect was blocked by protein kinase inhibitor peptide. In contrast, when nuclear extract was coincubated with phosphatase, there was substantial inhibition of in vitro transcription directed by the PEPCK promoter, but there was no effect on binding to the CRE. The major effects of catalytic subunit were exerted through the CRE, but residual stimulation was evident in promoter fragments containing only the TATA element. These data suggest that factors are bound to the CRE at constitutively high levels and that their capacity for transcriptional activation is regulated by phosphorylation.
Mol Cell Biol 1990 Jul
PMID:Cyclic AMP-dependent protein kinase regulates transcription of the phosphoenolpyruvate carboxykinase gene but not binding of nuclear factors to the cyclic AMP regulatory element. 214 84

A DNA element located at positions -295 to -289 of the c-fos promoter (FAP site) is highly homologous to a consensus 12-O-tetradecanoyl phorbol-13-acetate-responsive element (TRE) and to a cyclic AMP (cAMP)-responsive element (CRE). We found that an oligonucleotide containing the FAP element was a transcription regulator which was distinct from both the TRE and CRE. When cloned in multiple copies in front of a reporter gene in HeLa cells, the FAP oligonucleotide was a powerful constitutive activator sequence. Conversely, in the same cells, reporter plasmids containing multiple copies of the TRE of the human metallothionein gene required phorbol esters for their induction. In PC12 cells, the FAP oligonucleotide was cAMP responsive. Its activity was mediated through a cAMP-dependent protein kinase II and did not rely on ongoing protein synthesis for activation. Adenovirus E1a proteins activated viral promoters through ATF (activation transcription factor) consensus binding sequences identical to the CRE. However, E1a repressed the FAP oligonucleotide-associated transcriptional activity in HeLa cells. In PC12 cells, E1a neither transactivated nor transrepressed the basal and cAMP-stimulated FAP activity. In contrast, the CRE of the human c-fos promoter located at -60 was weakly induced by cAMP and E1a in both HeLa and PC12 cells. We suggest that the FAP oligonucleotide acts through a factor(s) distinct from those employed by the TRE and CRE and that the FAP-associated protein factor(s) may differ in HeLa and PC12 cells in expression or posttranslational regulation.
Mol Cell Biol 1990 Dec
PMID:Functional analysis of an isolated fos promoter element with AP-1 site homology reveals cell type-specific transcriptional properties. 214 23

ATPase activity in rat heart sarcoplasmic reticulum was stimulated in a concentration-dependent manner by both Ca2+ and Mg2+ in the complete absence of the other cation. Increasing concentrations of Mg2+ produced an apparent inhibition of the Ca2(+)-dependent ATP hydrolysis. CDTA (trans-1,2-diaminocyclo-hexane-N,N,N',N'-tetraacetate) had no effect on these responses. The results indicate the presence of a low affinity non-specific divalent cation-stimulated ATPase in rat heart sarcoplasmic reticulum. However, sarcoplasmic reticulum vesicles transported Ca2+ with a high affinity (K0.5 Ca2+ = 0.41 microM) suggesting the presence of a high affinity Ca2(+)-transporting ATPase. Calmodulin did not stimulate rat heart sarcoplasmic reticulum ATPase activity over a range of Ca2+ and Mg2+ concentrations and failed to stimulate membrane phosphorylation and Ca2+ transport into sarcoplasmic reticulum vesicles. Calmodulin antagonists trifluoperazine and compound 48/80 did not affect the ATPase activity. Catalytic subunit of cAMP-dependent protein kinase was also ineffective in stimulating the ATPase activity. These results suggest the presence of an ATPase activity in rat heart sarcoplasmic reticulum with different properties from the high affinity Ca2(+)-pumping ATPase previously characterized in dog heart and other species.
Mol Cell Biochem 1990 Aug 10
PMID:A non-specific Ca2+ (or Mg2+)-stimulated ATPase in rat heart sarcoplasmic reticulum. 214 1

The enhanced phosphorylations via cAMP, Ca2+ mobilization, and diacyl glycerol formation via the activation of the respective kinases is now classical. The decreased phosphorylation via inhibition of adenylate cyclase via the alpha adrenergic receptor is also becoming understood. What the insulin studies on the control of glycogen synthesis have taught us is that the rate limiting enzyme glycogen synthase is regulated by multiple covalent phosphorylation in an elegant but complex manner. The overall pattern of dephosphorylation is influenced by effecting both phosphatase and kinase activities in a set of interrelated mechanisms. In the presence of glucose, in muscle, fat, and liver under physiological conditions G-6-P acts as a signal to stimulate the phosphatase. An additional stimulation could occur via a novel insulin phosphatase stimulatory mediator. The phosphatase is also stimulated by at least three covalent mechanisms involving altered phosphorylation state. In one there is a decreased phosphorylation of the phosphatase inhibitor 1 potentially related to decreased cAMP-dependent protein kinase activity. In the second, there is decreased phosphorylation of the deinhibitor also potentially related to decreased cAMP-dependent protein kinase phosphorylation. In the third, an increased activity of casein kinase 2 could activate the ATP-Mg dependent phosphatase by an increased phosphorylation of phosphatase inhibitor 2 (modulatory subunit). In the liver, allosteric control of the phosphatase by G-6-P and nucleotides is of great importance. Insulin also stimulates the phosphatase in long-term experiments via increased protein synthesis. It is clear that future work will be required to determine which species of the various classes of phosphatases are regulated in short-term and long-term regulation by insulin. In terms of kinases, the effects of insulin to inactivate and desensitize the cAMP-dependent protein kinase are established. The molecular mechanisms of this effect remain to be worked out. The enhanced activity of MAP and S-6 kinase would appear to be part of a cascade of reactions perhaps originating in the autophosphorylation and activation of the insulin receptor tyrosine kinase. The mechanism of the short-term activation of casein kinase 2 remains to be elucidated. A cAMP-dependent protein kinase inhibitory mediator, which also inhibits adenylate cyclase is an important element in the regulation of kinase and adenylate cyclase activity by insulin. Its physiological significance must be established in the future, in terms of its control of glycogen synthase activation by insulin. Clearly this kinase inhibitor as well as the phosphatase stimulator are potential regulators of glycogen synthase activity by insulin.
Adv Enzymol Relat Areas Mol Biol 1990
PMID:Insulin and the stimulation of glycogen synthesis. The road from glycogen structure to glycogen synthase to cyclic AMP-dependent protein kinase to insulin mediators. 215 10

Although it is clear that cAMP is an important mediator of the actions of LH/CG in Leydig cells, recent studies from several laboratories have shown that the functions of Leydig cells can also be modulated by hormones and growth factors that do not appear to use cAMP as a second messenger. Thus, in order to increase our understanding of the importance of cAMP as a modulator of the functions of Leydig cells we have used a genetic approach to establish permanent cell lines that express a cAMP-resistant phenotype. MA-10 cells, a clonal strain of cultured Leydig tumor cells that express many of the characteristics of normal Leydig cells, were transfected with an expression vector controlled by the metallothionein promoter and encoding for a mutant form of the regulatory subunit of the type I cAMP-dependent protein kinase. Three stable transfectants that display a Zn+2-dependent decrease in cAMP-dependent protein kinase activity were established. Further characterization of one of the transfectants (designated MA-10(K3)) revealed a parallel reduction in the ability of cAMP and human CG to induce cell rounding, to increase steroid synthesis, or to induce c-fos mRNA. Our initial studies on these mutant cells have already provided novel information about the actions of human CG. These cell lines will also be valuable for further studies on the signaling systems that mediate hormone action in Leydig cells.
Mol Endocrinol 1990 Jan
PMID:Reduced gonadotropin responses in a novel clonal strain of Leydig tumor cells established by transfection of MA-10 cells with a mutant gene of the type I regulatory subunit of the cAMP-dependent protein kinase. 215 78

S49 wild-type mouse lymphoma cells grown in 3 nM epinephrine are extensively desensitized. Cellular cAMP responses to subsequent challenges with 100 nM epinephrine are reduced by as much as 80-90%. In this report, we document that protein kinase activity ratios were also attenuated. For example, the activity ratios in naive cells were increased from 0.26 +/- 0.02 to 0.72 +/- 0.04 by incubation with 100 nM epinephrine for 2 min, whereas in cells grown in 3 nM epinephrine for 24 hr before the experiment they were 0.19 +/- 0.02 and 0.29 +/- 0.03. Attenuated protein kinase activity ratios were obvious at epinephrine challenge concentrations ranging from 10 to 1000 nM. Three kinds of experiments provided evidence that the reduced ratios in desensitized cells were secondary to diminished cAMP responses rather than to changes in the cAMP-dependent protein kinase itself. Firstly, when protein kinase activity ratios were plotted against cAMP levels in naive and desensitized cells, the points fell along a common line. Secondly, cell-free cAMP-dependent protein kinase preparations from naive or epinephrine-treated cells had similar activities in the presence of maximal exogenous cAMP and similar half-maximal cAMP concentrations. Finally, the levels of cAMP-binding proteins in extracts from naive and desensitized cells were essentially identical. We conclude that desensitization of S49 cells by very low levels of epinephrine significantly reduced cAMP-dependent protein kinase responses to much higher concentrations of the catecholamine.
Mol Pharmacol 1990 Jun
PMID:cAMP-dependent protein kinase responses of S49 cells are reduced by growth in low epinephrine concentrations. 216 19

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