Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Growth of S49 wild-type (WT) lymphoma cells for 24 hr with 3 nM epinephrine produces a very pronounced attenuation of cAMP accumulation in response to subsequent challenges with much higher concentrations of the catecholamine [Mol. Pharmacol. 36:459-464 (1989)]. We report here the effects of this treatment, in S49 WT, cyc-, and kin- cells, on the responsiveness of adenylate cyclase in partially purified membranes. The desensitization of adenylate cyclase in the S49 WT cells after 24-hr treatment was homologous, in that only responses to epinephrine were attenuated. The EC50 for epinephrine stimulation of adenylate cyclase was 54 +/- 8% (mean +/- standard error) higher in treated cells than in controls, and there was a 32 +/- 3% reduction in Vmax at supramaximal epinephrine concentrations. The treatment also caused a 34 +/- 9% reduction in the levels of the beta-adrenergic receptor (beta AR), which was of a sufficient magnitude to account for the homologous desensitization seen. The 24-hr treatment had similar effects in S49 kin- cells, where we observed a 28 +/- 4% decrease in Vmax, a 35 +/- 6% increase in EC50 for epinephrine stimulation of adenylate cyclase, and a 25 +/- 3% decrease in beta AR. In contrast, the 24-hr treatment had no measurable effect on adenylate cyclase activity in S49 cyc- cells. That is, the responsivity of adenylate cyclase reconstituted with Gs from S49 WT cells was not attenuated, although beta AR levels were significantly decreased. The desensitization of S49 cells with the 24-hr treatment was additive with that mediated by the cAMP-dependent protein kinase (cAPK). Further, unlike the cAPK-mediated attenuation, it was relatively insensitive to the levels of free Mg2+ in the adenylate cyclase reaction mixture. The characteristics of the desensitization produced by 24-hr treatment with 3 nM epinephrine, together with the observation that it is similar in S49 WT and kin- cells, demonstrates that the process in WT cells is, at least in part, independent of the rapid cAPK-mediated desensitization. It is also most likely that it is unrelated to the rapid cAMP-independent processes involving sequestration/internalization or the beta AR kinase, because those mechanisms require much higher receptor occupancies than the 0.2% occurring with 3 nM epinephrine. Thus, 24-hr treatment appears to produce attenuation of adenylate cyclase by causing down-regulation of beta AR, without involving any other known form of desensitization.
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PMID:Beta-adrenergic receptor levels and function after growth of S49 lymphoma cells in low concentrations of epinephrine. 132 52

Treatment of chick hepatocytes with glucagon results in homologous and heterologous desensitization of the receptor-stimulated adenylyl cyclase. The loci of postreceptor heterologous desensitization was studied. The addition of excess purified GS to glucagon-desensitized hepatocyte membranes did not fully restore fluoride stimulation of adenylyl cyclase, even though the absolute activity was increased at least 2-fold. Treatment of chick hepatocytes with 8-bromo-cAMP resulted in a similar reduction of fluoride stimulation that could not be restored by the addition of purified GS. When membranes from control and glucagon-treated hepatocytes were treated with purified catalytic subunit of protein kinase-A (PKA), fluoride stimulation was lowered in control, but not glucagon-treated, membranes. Treatment of membranes from S49 kin- lymphoma cells with PKA also resulted in decreased fluoride- and forskolin-stimulated adenylyl cyclase activity, but activity stimulated by Mn2+ was not altered. Since previous studies from our laboratory had shown that GS and G(i) are not substrates for protein kinase-A, it appears that the catalyst of adenylyl cyclase is the likely locus of modulation. To determine if both chick hepatocytes and S49 cells contain similar types of adenylyl cyclase that could account for the similar PKA regulatory properties, we used polymerase chain reaction-based techniques to identify GS-stimulated adenylyl cyclases present in these systems. The chick liver contains both type 5 and type 6 adenylyl cyclases, while S49 cells contain the type 6 enzyme. Type 5 and 6 adenylyl cyclases are members of one widely expressed subfamily of mammalian GS-responsive adenylyl cyclases and share a predicted PKA phosphorylation site in the central cytoplasmic loop. This site is not found in other known adenylyl cyclases (types 1-4), although the olfactory-specific type 3 enzyme has a predicted site nearby. These data indicate that one component of hormone-induced desensitization of the adenylyl cyclase system can be at the level of the catalyst, where PKA-mediated phosphorylation could result in lowered responsiveness. The types 5 and 6 adenylyl cyclases are likely candidates for such regulation.
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PMID:Lowered responsiveness of the catalyst of adenylyl cyclase to stimulation by GS in heterologous desensitization: a role for adenosine 3',5'-monophosphate-dependent phosphorylation. 133 48

Phosphorylation of stathmin, a 19-kDa protein found in many tissues, has been linked to cell differentiation and proliferation. This protein is present in lymphocytes, and both phosphorylation and expression of stathmin are regulated by lymphotropic agents. In this study an antibody specific for stathmin was used to examine phosphorylation in response to PRL. The results suggest that PRL stimulates stathmin phosphorylation in the Nb2 lymphoma and that phosphorylation correlates with PRL-induced cell proliferation. Stathmin expression does not change substantially as PRL-stimulated Nb2 cells move through the cell cycle and enter into the S-phase. Thus, stathmin phosphorylation, but not expression, is regulated by PRL. Activation of protein kinase-C (PKC) in Nb2 cells also induces phosphorylation of stathmin, but PKC does not appear to mediate phosphorylation in response to PRL. The pattern of phosphorylation in response to 12-O-tetradecanoylphorbol-13-acetate differs from that in response to PRL, and down-regulation of PKC does not inhibit PRL-induced phosphorylation or proliferation. In addition to stathmin, PRL increases phosphorylation of a group of stathmin-like proteins. Phosphorylation of these proteins also correlates well with PRL-induced proliferation. Taken together, the results suggest that phosphorylation of stathmin and stathmin-like proteins may mediate some actions of PRL in Nb2 cells. The results further suggest that activation of PKC is not an important early event in PRL-stimulated mitogenesis in Nb2 cells.
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PMID:Prolactin-induced proliferation of the Nb2 T-lymphoma is associated with protein kinase-C-independent phosphorylation of stathmin. 139 41

The immunoregulatory function of prolactin (PRL) and the mechanism of its action in mammals seem to be well documented. Reciprocal interdependence between PRL secretion and immune system function is essential for normal ontogeny, development and aging. PRL receptors in lymphocytes participate in the transduction of its regulatory signal into the intracellular enzymatic machinery including that of the nucleus, leading to the expression of some genes and to the synthesis of new proteins. Activation of phosphoinositide turnover and subsequent increase in protein kinase-C activity seems to be a possible mechanism acting in the regulatory influence of PRL on mammalian immune cells. These cells in turn, under mitogen or antigen stimulation, secrete a substance with PRL-like activity. The regulatory function of PRL within the avian immune system is less well known, but it seems to have some features in common with those in mammals. Direct mitogenic action on thymocytes and splenocytes in the chicken might indicate the existence of PRL receptors in these cells and could explain the immunostimulatory effect of PRL observed in vivo, which is dependent on the time of hormone administration. As the avian PRL stimulates mitogenesis of rat Nb2 lymphoma cells, the mechanism of direct PRL action on immune cells in mammals and birds seems to be similar. PRL in chickens also modifies the level and the diurnal rhythm of corticosterone which, in turn, influences the immunoregulatory effect exerted by PRL. Thus, PRL seems to be an important factor, influencing directly or indirectly the avian immune system.
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PMID:Prolactin as an immunoregulatory hormone in mammals and birds. 144 15

In human epidermal carcinoma A431 cells, the beta subunit of casein kinase II is phosphorylated at an autophosphorylation site and at serine 209 which can be phosphorylated in vitro by p34cdc2 (Litchfield, D. W., Lozeman, F. J., Cicirelli, M. F., Harrylock, M., Ericsson, L. H., Piening, C. J., and Krebs, E. G. (1991) J. Biol. Chem. 266, 20380-20389). Given the importance of p34cdc2 in the regulation of cell cycle events, we were interested in examining the phosphorylation of casein kinase II during different stages of the cell cycle. In this study it is demonstrated that the extent of phosphorylation of serine 209 in the beta subunit is significantly increased relative to phosphorylation of the autophosphorylation site when chicken bursal lymphoma BK3A cells are arrested at mitosis by nocodazole treatment. This result suggests that serine 209 is a likely physiological target for p34cdc2. In addition, the alpha subunit of casein kinase II also undergoes dramatic phosphorylation with an associated alteration in its electrophoretic mobility when BK3A cells or human Jurkat cells are arrested with nocodazole. Phosphopeptide mapping studies indicate that p34cdc2 can phosphorylate in vitro the same peptides on the alpha subunit that are phosphorylated in cells arrested at mitosis. These phosphorylation sites were localized to serine and threonine residues in the carboxyl-terminal domain of alpha. Taken together, the results of this study indicate that casein kinase II is a probable physiological substrate for p34cdc2 and suggest that its functional properties could be affected in a cell cycle-dependent manner.
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PMID:Phosphorylation of casein kinase II by p34cdc2 in vitro and at mitosis. 162 92

Experiments in S49 mouse lymphoma cells indicate that adenylate cyclase activity is increased following swelling in hypotonic medium through a mechanism independent of the G-proteins which are involved in hormonal regulation of the enzyme. An intact actin cytoskeleton is apparently required for stimulation of adenylate cyclase by mechanical forces. It was hypothesized that this increase in cAMP may be involved in triggering subsequent volume regulatory events. Manipulation of intracellular cAMP content and protein kinase A activity in S49 cells prior to swelling or during the regulatory volume decrease following swelling provided no evidence of a significant role for cAMP in regulating the extent of initial volume increase or the subsequent regulatory volume decrease. Treatment of S49 cells with 10-200 microM miconazole, previously shown to inhibit adenylate cyclase activity, attenuated the initial volume increase with medium dilution and accelerated the rate of regulatory decrease in a dose-dependent and time-dependent manner. However, incubation with 100 microM miconazole for 20 min, which completely inhibited swelling-induced increases in cAMP content, had no significant effect on either the initial volume expansion or the extent of regulatory volume decrease.
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PMID:Activation of adenylate cyclase during swelling of S49 cells in hypotonic medium is not involved in subsequent volume regulation. 165 96

We have localized a G protein activator region of the human beta 2-adrenergic receptor to region beta III-2 (from Arg259 to Lys273). The synthetic beta III-2, corresponding to the C-terminal end of the third cytoplasmic loop, activates Gs at nanomolar concentrations and weakly activates Gi. beta III-2 activates adenylyl cyclase at nanomolar concentrations in wild-type S49 lymphoma membranes, but not in membranes of unc mutant S49 cells, in which Gs is uncoupled from beta-adrenergic stimulation. Phosphorylation of beta III-2 by cAMP-dependent protein kinase A, which is involved in the desensitization of the beta-adrenergic receptor from Gs, drastically reduces the effect of beta III-2 on Gs while potentiating its action on Gi, resulting in a total loss of adenylyl cyclase-stimulating activity. These findings indicate that this receptor sequence is a multipotential G protein activator whose G protein specificity is regulated by protein kinase A.
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PMID:Identification of a Gs activator region of the beta 2-adrenergic receptor that is autoregulated via protein kinase A-dependent phosphorylation. 165 4

Kinase-negative mutants of S49 mouse lymphoma cells, which lack detectable catalytic (C) subunit of cyclic AMP-dependent protein kinase, nevertheless contain cytoplasmic mRNAs for the two major forms of C subunit, C alpha and C beta. Investigation of the metabolism of C subunits in wild-type and mutant cells was undertaken to identify the step(s) at which C subunit expression was defective in kinase-negative cells. [35S]methionine-labeled C subunits from cytosolic fractions of wild-type S49 cells or C subunit-overexpressing cell lines were visualized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after purification by either affinity chromatography using a peptide inhibitor of C subunit as the ligand or immunoadsorption with an anti-C subunit antiserum. Immunoadsorption revealed electrophoretic forms of C alpha and C beta subunits that migrated faster than those detected in affinity-purified samples; this unexpected heterogeneity suggested that functional activation of C subunit may require posttranslational modification. Immunoadsorption of cytosolic fractions from wild-type cells labeled for various times with [35S]methionine revealed an additional posttranslational maturation step. The bulk of immunoadsorbable C subunit label in cells pulse-labeled for 5 min or less was in an insoluble fraction from which it could be solubilized with a detergent-containing buffer; solubilization of the newly synthesized material proceeded over an incubation period of about 10 min. The primary defect in kinase-negative cells appeared to be in this solubilization step, since about equal C subunit radioactivity was found in detergent extracts of wild-type and kinase-negative cells but very little was found in mutant cytosols. I speculate that an accessory factor required for proper folding of newly synthesized C subunit in defective in the kinase-negative cells.
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PMID:A kinase-negative mutant of S49 mouse lymphoma cells is defective in posttranslational maturation of catalytic subunit of cyclic AMP-dependent protein kinase. 170 30

Structural lesions in cAMP-binding sites of regulatory (R) subunit of cAMP-dependent protein kinase caused identical increases in apparent constants for cyclic nucleotide-dependent kinase activation in preparations from cells that were hemizygous or heterozygous for mutant R1 subunit expression. No wild-type kinase activation was observed in extracts from heterozygous mutant cells. This "dominance" was investigated by characterizing expression of wild-type and mutant R1 subunits and properties of protein kinase from S49 mouse lymphoma cell mutants heterozygous for expression of wild-type R1 subunits and R1 subunits with a lesion (Glu200) that inactivates cAMP-binding site A. By both studies of cAMP dissociation and two-dimensional gel analysis, wild-type R subunits comprised about 35% of total R1 subunits in heterozygous mutants. Synthesis of wild-type and mutant R1 subunits was equivalent, but wild-type subunits were degraded preferentially. Hydroxylapatite chromatography revealed a novel R1 subunit-containing species from heterozygous mutant preparations whose elution behavior suggested a trimeric kinase consisting of an R1 subunit dimer and one catalytic (C) subunit. Wild-type R1 subunit was found only in dimer and "trimer" peaks; the tetrameric kinase peak contained only mutant R1 subunit. It is concluded that C subunit binds preferentially to mutant R1 subunit in heterozygous cells forming either tetrameric kinase with mutant R1 subunit homodimers or trimeric kinase with R1 subunit heterodimers. This preferential binding results both in suppression of wild-type kinase activation and differential stabilization of mutant R1 subunits.
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PMID:Analysis of the dominance of mutations in cAMP-binding sites of murine type I cAMP-dependent protein kinase in activation of kinase from heterozygous mutant lymphoma cells. 184 38

Mutations in regulatory (R) subunit of cAMP-dependent protein kinase were analyzed from cAMP-resistant mutants of S49 mouse lymphoma cells by direct sequencing of amplified regions of mutant R subunit cDNAs. Eight distinct single base-change lesions were identified in 24 independent mutants that were hemizygous for expression of mutant R subunits with altered protein charge. CG----TA transitions predominated, but AT----GC transitions and GC----TA transversions were also observed. Four of five spontaneous mutants had identical C----T transitions at CG causing substitution of Trp for Arg-334. Sites mutated in isolates obtained after mutagenesis with ethyl methanesulfonate or N-methyl-N'-nitro-N-nitrosoguanidine were more varied. Six of the lesions (two in binding site A and four in site B) were at amino acid residues that are highly conserved among cAMP-binding sites of R subunits and the Escherichia coli catabolite activator protein. These mutations all either prevented or strongly hindered binding of cyclic nucleotides to the mutated site. One of the remaining lesions (at Arg-242) also prevented cyclic nucleotide binding to the mutated binding site; the other (at Gly-170) had only minimal effects on binding of cyclic nucleotides but, nevertheless, increased the apparent constant for cAMP-dependent kinase activation. These results are discussed with reference to a model for the cAMP-binding sites of R subunit based on the crystal structure of the E. coli catabolite activator protein.
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PMID:Mutations that alter the charge of type I regulatory subunit and modify activation properties of cyclic AMP-dependent protein kinase from S49 mouse lymphoma cells. 184 78


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