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:2.7.11.12 (PKG)
2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

cGMP-dependent protein kinase (cGK) is a major intracellular receptor of cGMP and is implicated in several signal transduction pathways. To identify proteins that participate in the cGMP/cGK signaling pathway, we employed the yeast two-hybrid system with cGK Ialpha as bait. cDNAs encoding slow skeletal troponin T (skTnT) were isolated from both mouse embryo and human skeletal muscle cDNA libraries. The skTnT protein interacted with cGK Ibeta but not with cGK II nor cAMP-dependent protein kinase. The yeast two-hybrid and in vitro binding assays revealed that the N-terminal region of cGK Ialpha, containing the leucine zipper motif, is sufficient for the association with skTnT. In vivo analysis, mutations in cGK Ialpha, which disrupted the leucine zipper motif, were shown to completely abolish the binding to skTnT. Furthermore, cGK I also interacted with cardiac TnT (cTnT) but not with cardiac troponin I (cTnI). Together with the observations that cTnI is a good substrate for cGK I and is effectively phosphorylated in the presence of cTnT in vitro, these findings suggest that TnT functions as an anchoring protein for cGK I and that cGK I may participate in the regulation of muscle contraction through phosphorylation of TnI.
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PMID:A novel interaction of cGMP-dependent protein kinase I with troponin T. 1060 15

In vitro experiments showing the activation of the myosin phosphatase via heterophilic leucine zipper interactions between its targeting subunit (MYPT1) and cGMP-dependent protein kinase I suggested a pathway for smooth muscle relaxation (Surks, H. K., Mochizuki, N., Kasai, Y., Georgescu, S. P., Tang, K. M., Ito, M., Lincoln, T. M., and Mendelsohn, M. E. (1999) Science 286, 1583-1587). The relationship between MYPT1 isoform expression and smooth muscle responses to cGMP signaling in vivo has not been explored. MYPT1 isoforms that contain or lack a C-terminal leucine zipper are generated in birds and mammals by cassette-type alternative splicing of a 31-nucleotide exon. The avian and mammalian C-terminal isoforms are highly conserved and expressed in a tissue-specific fashion. In the mature chicken the tonic contracting aorta and phasic contracting gizzard exclusively express the leucine zipper positive and negative MYPT1 isoforms, respectively. Expression of the MYPT1 isoforms is also developmentally regulated in the gizzard, which switches from leucine zipper positive to negative isoforms around the time of hatching. This switch coincides with the development in the gizzard of a cGMP-resistant phenotype, i.e. inability to dephosphorylate myosin and relax in response to 8-bromo-cGMP after calcium activation. Furthermore, association of cGMP-dependent protein kinase I with MYPT1 is detected by immunoprecipitation only in the tissue that expresses the leucine zipper positive isoform of MYPT1. These results suggest that the regulated splicing of MYPT1 is an important determinant of smooth muscle phenotypic diversity and the variability in the response of smooth muscles to the calcium desensitizing effect of cGMP signaling.
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PMID:Role of myosin phosphatase isoforms in cGMP-mediated smooth muscle relaxation. 1148 8

Calcium induces transcriptional activation of the fos promoter by activation of the cyclic AMP response element (CRE)-binding protein (CREB), and in some cells its effect is enhanced synergistically by cyclic GMP (cGMP) through an unknown mechanism. We observed calcium-cGMP synergism in neuronal and osteogenic cells which express type II cGMP-dependent protein kinase (G-kinase); the effect on the fos promoter was mediated by the CRE and proportional to G-kinase activity. Dominant negative transcription factors showed involvement of CREB- and C/EBP-related proteins but not of AP-1. Expression of C/EBP-beta but not C/EBP-alpha or -delta enhanced the effects of calcium and cGMP on a CRE-dependent reporter gene. The transactivation potential of full-length CREB fused to the DNA-binding domain of Gal4 was increased synergistically by calcium and cGMP, and overexpression of C/EBP-beta enhanced the effect, while a dominant negative C/EBP inhibited it. With a mammalian two-hybrid system, coimmunoprecipitation experiments, and in vitro binding studies, we demonstrated that C/EBP-beta and CREB interacted directly; this interaction involved the C terminus of C/EBP-beta but occurred independently of CREB's leucine zipper domain. CREB Ser(133) phosphorylation was stimulated by calcium but not by cGMP; in cGMP-treated cells, (32)PO(4) incorporation into C/EBP-beta was decreased and C/EBP-beta/CRE complexes were increased, suggesting regulation of C/EBP-beta functions by G-kinase-dependent dephosphorylation. C/EBP-beta and CREB associated with the fos promoter in intact cells, and the amount of promoter-associated C/EBP-beta was increased by calcium and cGMP. We conclude that calcium and cGMP transcriptional synergism requires cooperation of CREB and C/EBP-beta, with calcium and cGMP modulating the phosphorylation states of CREB and C/EBP-beta, respectively.
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PMID:Synergism between calcium and cyclic GMP in cyclic AMP response element-dependent transcriptional regulation requires cooperation between CREB and C/EBP-beta. 1277 52

Nitric oxide (NO) and nitrovasodilators induce vascular smooth muscle cell relaxation in part by cGMP-dependent protein kinase (cGK)-mediated activation of myosin phosphatase, which dephosphorylates myosin light chains. We recently found that cGMP-dependent protein kinase 1alpha binds directly to the myosin-binding subunit (MBS) of myosin phosphatase via the leucine/isoleucine zipper of cGK. We have now studied the role of the leucine zipper domain of MBS in dimerization with cGK and the leucine/isoleucine zipper and leucine zipper domains of both proteins in homodimerization. Mutagenesis of the MBS leucine zipper domain disrupts cGKIalpha-MBS dimerization. Mutagenesis of the MBS leucine zipper eliminates MBS homodimerization, while similar disruption of the cGKIalpha leucine/isoleucine zipper does not prevent formation of cGK dimers. The MBS leucine zipper domain is phosphorylated by cGK, but this does not have any apparent effect on heterodimer formation between the two proteins. MBS LZ mutants that are unable to bind cGK were poor substrates for cGK. These data support the theory that the MBS leucine zipper domain is necessary and sufficient to mediate both MBS homodimerization and binding of the protein to cGK. In contrast, the leucine/isoleucine zipper of cGK is required for binding to MBS, but not for cGK homodimerization. These data support that the MBS and cGK leucine zipper domains mediate the interaction between these two proteins. The contribution of these domains to both homodimerization and their specific interaction with each other suggest that additional regulatory mechanisms involving these domains may exist.
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PMID:Dimerization of cGMP-dependent protein kinase 1alpha and the myosin-binding subunit of myosin phosphatase: role of leucine zipper domains. 1287 7

All mammalian cGMP-dependent protein kinases (PKGs) are dimeric. Dimerization of PKGs involves sequences located near the amino termini, which contain a conserved, extended leucine zipper motif. In PKG Ibeta this includes eight Leu/Ile heptad repeats, and in the present study, deletion and site-directed mutagenesis have been used to systematically delete these repeats or substitute individual Leu/Ile. The enzymatic properties and quaternary structures of these purified PKG mutants have been determined. All had specific enzyme activities comparable to wild type PKG. Simultaneous substitution of alanine at four or more of the Leu/Ile heptad repeats ((L3A/L10A/L17A/I24A), (L31A/I38A/L45A/I52A), (L17A/I24A/L31A/I38A/L45A/I52A), and (L3A/L10A/L45A/I52A)) of the motif produces a monomeric PKG Ibeta. Mutation of two Leu/Ile heptad repeats can produce either a dimeric (L3A/L10A) or monomeric (L17A/I24A and L31A/I38A) PKG. Point mutation of Leu-17 or Ile-24 (L17A or I24A) does not disrupt dimerization. These results suggest that all eight Leu/Ile heptad repeats are involved in dimerization of PKG Ibeta. Six of the eight repeats are sufficient to mediate dimerization, but substitutions at some positions (Leu-17, Ile-24, Leu-31, and Ile-38) appear to have greater impact than others on dimerization. The Ka of cGMP for activation of monomeric mutants (PKG Ibeta (delta1-52) and PKG Ibeta L17A/I24A/L31A/I38A/L45A/I52A) is 2- to 3-fold greater than that for wild type dimeric PKG Ibeta, and there is a corresponding 2- to 3-fold increase in cGMP-dissociation rate of the high affinity cGMP-binding site (site A) of these monomers. These results indicate that dimerization increases sensitivity for cGMP activation of the enzyme.
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PMID:Dimerization of cGMP-dependent protein kinase Ibeta is mediated by an extensive amino-terminal leucine zipper motif, and dimerization modulates enzyme function. 1293 4

Regulation of vascular smooth muscle cell contractile state is critical for the maintenance of blood vessel tone. Abnormal vascular smooth muscle cell contractility plays an important role in the pathogenesis of hypertension, blood vessel spasm, and atherosclerosis. Myosin phosphatase, the key enzyme controlling myosin light chain dephosphorylation, regulates smooth muscle cell contraction. Vasoconstrictor and vasodilator pathways inhibit and activate myosin phosphatase, respectively. G-protein-coupled receptor agonists can inhibit myosin phosphatase and cause smooth muscle cell contraction by activating RhoA/Rho kinase, whereas NO/cGMP can activate myosin phosphatase and cause smooth muscle cell relaxation by activation of cGMP-dependent protein kinase. We have used yeast two-hybrid screening to identify a 116-kDa human protein that interacts with both myosin phosphatase and RhoA. This myosin phosphatase-RhoA interacting protein, or M-RIP, is highly homologous to murine p116RIP3, is expressed in vascular smooth muscle, and is localized to actin myofilaments. M-RIP binds directly to the myosin binding subunit of myosin phosphatase in vivo in vascular smooth muscle cells by an interaction between coiled-coil and leucine zipper domains in the two proteins. An adjacent domain of M-RIP directly binds RhoA in a nucleotide-independent manner. M-RIP copurifies with RhoA and Rho kinase, colocalizes on actin stress fibers with RhoA and MBS, and is associated with Rho kinase activity in vascular smooth muscle cells. M-RIP can assemble a complex containing both RhoA and MBS, suggesting that M-RIP may play a role in myosin phosphatase regulation by RhoA.
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PMID:Myosin phosphatase-Rho interacting protein. A new member of the myosin phosphatase complex that directly binds RhoA. 1450 64

Recently, it has been hypothesized that myosin light chain (MLC) phosphatase is activated by cGMP-dependent protein kinase (PKG) via a leucine zipper-leucine zipper (LZ-LZ) interaction through the C-terminal LZ in the myosin-binding subunit (MBS) of MLC phosphatase and the N-terminal LZ of PKG (Surks, H. K., Mochizuki, N., Kasai, Y., Georgescu, S. P., Tang, K. M., Ito, M., Lincoln, T. M., and Mendelsohn, M. E. (1999) Science 286, 1583-1587). Alternative splicing of a 3'-exon produces a LZ+ or LZ- MBS, and the sensitivity to cGMP-mediated smooth muscle relaxation correlates with the relative expression of LZ+/LZ- MBS isoforms (Khatri, J. J., Joyce, K. M., Brozovich, F. V., and Fisher, S. A. (2001) J. Biol. Chem. 276, 37250 -37257). In the present study, we determined the effect of LZ+/LZ- MBS isoforms on cGMP-induced MLC20 dephosphorylation. Four avian smooth muscle MBS-recombinant adenoviruses were prepared and transfected into cultured embryonic chicken gizzard smooth muscle cells. The expressed exogenous MBS isoforms were shown to replace the endogenous isoform in the MLC phosphatase holoenzyme. The interaction of type I PKG (PKGI) with the MBS did not depend on the presence of cGMP or the MBS LZ. However, direct activation of PKGI by 8-bromo-cGMP produced a dose-dependent decrease in MLC20 phosphorylation (p<0.05) only in smooth muscle cells expressing a LZ+ MBS. These results suggest that the activation of MLC phosphatase by PKGI requires a LZ+ MBS, but the binding of PKGI to the MBS is not mediated by a LZ-LZ interaction. Thus, the relative expression of LZ+/LZ- MBS isoforms could explain differences in tissue sensitivity to NO-mediated vasodilatation.
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PMID:Unzipping the role of myosin light chain phosphatase in smooth muscle cell relaxation. 1453 Feb 90

Protein-protein interactions have emerged as an important mechanism providing for specificity in cellular signal transduction. Two splice variants of type I cGMP-dependent protein kinase (PKG Ialpha and Ibeta) differ only in their N-terminal approximately 100 amino acids, which mediate binding to different target proteins. PKG Ibeta, but not Ialpha, binds to the general transcriptional regulator TFII-I and the inositol 1,4,5-trisphosphate receptor-associated PKG substrate IRAG. Using a combination of site-directed mutagenesis and in vitro binding assays, we identified a group of acidic amino acids in the N-terminal leucine zipper dimerization domain of PKG Ibeta required for its binding to both TFII-I and IRAG. Small clusters of basic amino acids in possible alpha-helical regions in TFII-I and IRAG were found to mediate their interaction with PKG Ibeta. Mutation of two negatively charged residues in the PKG Ibeta leucine zipper (D26K/E31R) to positively charged residues, found in corresponding positions in PKG Ialpha, completely abrogated binding to TFII-I and IRAG without disrupting PKG dimerization. Mutation of specific basic residues in TFII-I or IRAG abolished binding of the full-length proteins to PKG Ibeta in intact cells. Based on these results, we propose a model for specific PKG Ibeta interaction with target proteins.
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PMID:Identification of the interface between cGMP-dependent protein kinase Ibeta and its interaction partners TFII-I and IRAG reveals a common interaction motif. 1616 82

During nitric oxide signaling, type Ialpha cGMP-dependent protein kinase (PKGIalpha) activates myosin light chain (MLC) phosphatase through an interaction with the 130-kDa myosin targeting subunit (MYPT1), leading to dephosphorylation of 20-kDa MLC and vasodilatation. It has been suggested that the MYPT1-PKGIalpha interaction is mediated by the COOH-terminal leucine zipper (LZ) of MYPT1 and the NH(2)-terminal LZ of PKGIalpha (HK Surks and ME Mendelsohn. Cell Signal 15: 937-944, 2003; HK Surks et al. Science 286: 1583-1587, 1999), but we previously showed that PKGIalpha interacts with LZ-positive (LZ+) and LZ-negative (LZ-) MYPT1 isoforms (13). Interestingly, PKGIalpha is known to preferentially bind to RR and RK motifs (WR Dostmann et al. Proc Natl Acad Sci USA 97: 14772-14777, 2000), and there is an RK motif within the aa 888-928 sequence of MYPT1 in LZ+ and LZ- isoforms. Thus, to localize the domain of MYPT1 important for the MYPT1-PKGIalpha interaction, we designed four MYPT1 fragments that contained both the aa 888-928 sequence and the downstream LZ domain (MYPT1FL), lacked both the aa 888-928 sequence and the LZ domain (MYPT1TR), lacked only the aa 888-928 sequence (MYPT1SO), or lacked only the LZ domain (MYPT1TR2). Using coimmunoprecipitation, we found that only the fragments containing the aa 888-928 sequence (MYPT1FL and MYPT1TR2) were able to form a complex with PKGIalpha in avian smooth muscle tissue lysates. Furthermore, mutations of the RK motif at aa 916-917 (R(916)K(917)) to AA decreased binding of MYPT1 to PKGIalpha in chicken gizzard lysates; these mutations had no effect on binding in chicken aorta lysates. However, mutation of R(916)K(917) to E(916)E(917) eliminated binding, suggesting that one factor important for the PKGIalpha-MYPT1 interaction is the charge at aa 916-917. These results suggest that, during cGMP-mediated signaling, aa 888-928 of MYPT1 mediate the PKGIalpha-MYPT1 interaction.
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PMID:MYPT1 mutants demonstrate the importance of aa 888-928 for the interaction with PKGIalpha. 1687 Aug 32

Cyclic GMP modulates gene expression in vascular smooth muscle cells (SMCs) in part by stimulating cGMP-dependent protein kinase I (PKGI) and the phosphorylation of transcription factors. In some cells, cGMP increases nuclear translocation of PKGI and PKGI-dependent phosphorylation of transcription regulators; however, these observations have been variable, and the mechanisms mediating nuclear PKGI translocation are incompletely understood. We tested the hypothesis that proteolytic cleavage of PKGI is required for cGMP-stimulated nuclear compartmentation of PKGI and phosphorylation of transcription factors. We detected an NH(2)-terminal PKGI fragment with leucine zipper domain immunoreactivity in the cytosol and endoplasmic reticulum of SMCs, but only a COOH-terminal PKGI fragment containing the catalytic region (now termed PKGIgamma) was observed in the Golgi apparatus (GA) and nucleoplasm. Posttranslational PKGI processing in the GA was critical for nuclear compartmentation of PKGIgamma because GA disruption with nocodazol or brefeldin A inhibited PKGIgamma nuclear localization. PKGIgamma immunoreactivity was particularly abundant in the nucleolus of interphase SMCs where its colocalization with the nucleolar dense fibrillar component protein fibrillarin closely matched the level of nucleolar assembly. Purified nucleolar PKGIgamma enzyme activity was insensitive to cGMP stimulation, which is consistent with its lack of the NH(2)-terminal autoinhibitory domain. Mutation of a putative proteolytic cleavage region in PKGI inhibited cGMP-mediated phosphorylation of cAMP response element-binding protein, cAMP response element-dependent transcription, and nuclear localization of PKGIgamma. These observations suggest that posttranslational modification of PKGI critically influences the nuclear translocation of PKGI and activities of cGMP in SMCs.
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PMID:Proteolytic processing of cGMP-dependent protein kinase I mediates nuclear cGMP signaling in vascular smooth muscle cells. 1853 60


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