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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gap junctions, composed of proteins from the connexin family, allow for intercellular communication between cells in tissues and are important in development, tissue/cellular homeostasis, and carcinogenesis. Genome databases indicate that there are at least 20 connexins in the mouse and human. Connexin phosphorylation has been implicated in connexin assembly into gap junctions, gap junction turnover, and cell signaling events that occur in response to tumor promoters and oncogenes. Connexin43 (Cx43), the most widely expressed and abundant gap junction protein, can be phosphorylated at several different serine and tyrosine residues. Here, we focus on the dynamic regulation of Cx43 phosphorylation in tissue and how these regulatory events are affected during development, wound healing, and carcinogenesis. The activation of several kinases, including protein kinase A, protein kinase C, p34cdc2/cyclin B kinase, casein kinase 1, mitogen-activated protein kinase, and pp60src kinase, can lead to the phosphorylation of different residues in the C-terminal region of Cx43. The use of antibodies specific for phosphorylation at defined residues has allowed the examination of specific phosphorylation events both in tissue culture and in vivo. These new antibody tools and those under development will allow us to correlate specific phosphorylation events with changes in connexin function.
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PMID:Temporal regulation of connexin phosphorylation in embryonic and adult tissues. 1613 42

We have been investigating the function and gene expression of connexins by vascular wall cells, especially Connexin43 (Cx43) in bovine aortic endothelial cells (BAEC). In this study, we tested the effects of carbenoxolone (CBN), a gap junction communication (GJC) blocker on the junctional transfer of Lucifer yellow in BAEC. CBN is a water-soluble derivative of the liquorice-root extract 18-alpha-glycyrrhetinic acid. CBN rapidly abolished dye-transfer in the scrape-load transfer assay (a measure of GJC) in a reversible and dose-dependent fashion. We then asked whether the BAEC might somehow compensate for the loss of junctional communication by altering the expression of connexins. Thus, we treated BAEC with 100 microM CBN in serum free medium and determined the total Cx43 cellular distribution (immunostaining) and protein content (immunoblotting). Besides changes in distribution, by 6 h, Cx43 content levels increased to 166% +/- 22% (P < 0.0001) of controls. RNA blot data showed two-three fold increases in Cx43 message in BAEC after 6 h of CBN treatment, suggesting transcriptional control. Since CBN has structural similarities to corticosteroids, we tested both aldosterone and prednisolone but neither drug increased Cx43 levels, suggesting that the CBN response was not due to a generalized steroid effect. Staurosporine inhibited the CBN-induced increase in Cx43 content, suggesting a role for kinases in the signaling pathway. Further studies with inhibitors indicated that PKA but not PKC was implicated. In summary, CBN blocks junctional communication and modulates Cx43 expression in BAEC. These results suggest a feedback mechanism for control of connexin expression based on junctional patency.
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PMID:Carbenoxolone inhibits junctional transfer and upregulates Connexin43 expression by a protein kinase A-dependent pathway. 1655 23

Fibroblast growth factor-2 (FGF-2) confers acute, preconditioning-like cardiac resistance to ischemic injury in a protein kinase C (PKC)-dependent fashion. One of the downstream targets of PKC is the gap junction protein connexin-43 (Cx43). We thus examined the effects of FGF-2 on Cx43 phosphorylation at specific PKC sites in the adult heart. Rat hearts perfused ex vivo for 20 min with an FGF-2-containing solution displayed increased levels of phosphorylated 44-45 kDa Cx43, assessed by western blotting. In addition, FGF-2 significantly upregulated phosphorylation of the PKC target serines 262 and 368 on Cx43 at intercalated disks, assessed using phosphospecific antibodies in immunolocalization and western blotting assays. Our data show that FGF-2, administered by perfusion, can alter the phosphorylation status of Cx43 at cardiomyocyte intercalated disks, and suggest a link between phosphorylation of Cx43 at specific PKC sites and FGF-2 cardioprotection.
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PMID:Administration of FGF-2 to the heart stimulates connexin-43 phosphorylation at protein kinase C target sites. 1661 76

The ability of the gap junction phosphoprotein connexin-43 (Cx43) to inhibit DNA synthesis in primary cardiomyocytes is regulated by serine (S) 262, a protein kinase C phosphorylation site that also affects metabolic coupling. We have now examined if the S262-regulated growth suppression is operating in transformed cells and if so whether it depends on gap junction channel forming ability. Serine 262 became phosphorylated in response to protein kinase C stimulation in HEK293 cells transiently expressing either Cx43 or the non-channel-forming carboxy-terminal tail of Cx43 (Cx43CT). Expression of either wild type Cx43 or Cx43CT inhibited DNA synthesis, as did their mutated versions simulating lack of phosphorylation by carrying an S262-to-alanine substitution. The ability to inhibit DNA synthesis was eliminated when expressing mutated versions of either Cx43 or Cx43CT simulating constitutive phosphorylation by carrying an S262-to-aspartate substitution. We conclude that S262 phosphorylation cancels growth inhibition by Cx43 independently of channel-forming ability.
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PMID:Regulation of connexin-43-mediated growth inhibition by a phosphorylatable amino-acid is independent of gap junction-forming ability. 1671 70

Gap junction (GJ) channels are formed by two hemichannels (connexons), each contributed by the cells taking part in this direct cell-cell communication conduit. Hemichannels that do not interact with their counterparts on neighboring cells feature as a release pathway for small paracrine messengers such as nucleotides, glutamate, and prostaglandins. Connexins are phosphorylated by various kinases, and we compared the effect of various kinase-activating stimuli on GJ channels and hemichannels. Using peptides identical to a short connexin (Cx) amino acid sequence to specifically block hemichannels, we found that protein kinase C, Src, and lysophosphatidic acid (LPA) inhibited GJs and hemichannel-mediated ATP release in Cx43-expressing C6 glioma cells (C6-Cx43). Lipopolysaccharide (LPS) and basic fibroblast growth factor (bFGF) inhibited GJs, but they stimulated ATP release via hemichannels in C6-Cx43. LPS and bFGF inhibited hemichannel-mediated ATP release in HeLa-Cx43 cells, but they stimulated it in HeLa-Cx43 with a truncated carboxy-terminal (CT) domain or in HeLa-Cx26, which has a very short CT. Hemichannel potentiation by LPS was inhibited by blockers of the arachidonic acid metabolism, and arachidonic acid had a potentiating effect like LPS and bFGF. We conclude that GJ channels and hemichannels display similar or oppositely directed responses to modulatory influences, depending on the balance between kinase activity and the activity of the arachidonic acid pathway. Distinctive hemichannel responses to pathological stimulation with LPS or bFGF may serve to optimize the cell response, directed at strictly controlling cellular ATP release, switching from direct GJ communication to indirect paracrine signaling, or maximizing cell-protective strategies.
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PMID:Connexin hemichannels and gap junction channels are differentially influenced by lipopolysaccharide and basic fibroblast growth factor. 1707 35

Connexins in retinal horizontal cells (HC) function in the processing of visual information. For example, gap junction-forming connexins may contribute to the spatial integration of visual stimuli. Additionally, connexin hemichannels have been hypothesized to participate in the feedback pathway from HCs to cones. To verify the identities of the zebrafish HC connexins, we performed promoter expression and immunohistochemical studies of connexin 52.6 (Cx52.6) and Cx55.5. Zebrafish embryos were microinjected with Cx52.6 or Cx55.5 promoter sequences and a green fluorescent protein reporter construct. Light and electron microscopic (EM) analysis showed green fluorescent protein expression exclusively in retinal HCs. Immunohistochemistry confirmed that HCs express Cx52.6 and Cx55.5 proteins. Light microscopy revealed Cx52.6 and Cx55.5 in the retinal inner nuclear and outer plexiform layers. Double labeling for Cx55.5 or Cx52.6 and cell-specific markers (tyrosine hydroxylase, protein kinase C-alpha, or GluR2) demonstrated that these connexins do not localize to interplexiform or ON bipolar cells, but most likely are present in HCs. Preembedding immuno-EM confirmed the HC-specific expression of Cx52.6 and Cx55.5 and illustrated the presence of these two connexins in gap junctions between HCs. The EM data also revealed robust labeling for Cx55.5 in hemichannels on HC dendrites in photoreceptor synaptic terminals. Voltage-clamp experiments in cultured cells demonstrated that Cx55.5-containing hemichannels can open at physiological membrane potentials. These results offer the first in vivo demonstration of the HC-specific activities of the Cx52.6 and Cx55.5 promoters. Furthermore, these data provide the first proof at the protein level for retinal HC-specific connexins in the zebrafish.
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PMID:Retinal horizontal cell-specific promoter activity and protein expression of zebrafish connexin 52.6 and connexin 55.5. 1729 59

Gap junctions are plasma membrane domains containing arrays of channels that exchange ions and small molecules between neighboring cells. Gap junctional intercellular communication enables cells to directly cooperate both electrically and metabolically. Several lines of evidence indicate that gap junctions are important in regulating cell growth and differentiation and for maintaining tissue homeostasis. Gap junction channels consist of a family of transmembrane proteins called connexins. Gap junctions are dynamic structures, and connexins have a high turnover rate in most tissues. Connexin43 (Cx43), the best-studied connexin isoform, has a half-life of 1.5-5 h; and its degradation involves both the lysosomal and proteasomal systems. Increasing evidence suggests that ubiquitin is important in the regulation of Cx43 endocytosis. Ubiquitination of Cx43 is thought to occur at the plasma membrane and has been shown to be regulated by protein kinase C and the mitogen-activated protein kinase pathway. Cx43 binds to the E3 ubiquitin ligase Nedd4, in a process modulated by Cx43 phosphorylation. The interaction between Nedd4 and Cx43 is mediated by the WW domains of Nedd4 and involves a proline-rich sequence conforming to a PY (XPPXY) consensus motif in the C terminus of Cx43. In addition to the PY motif, an overlapping tyrosine-based sorting signal conforming to the consensus of an YXXphi motif is involved in Cx43 endocytosis, indicating that endocytosis of gap junctions involves both ubiquitin-dependent and -independent pathways. Here, we discuss current knowledge on the ubiquitination of connexins.
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PMID:Ubiquitination of gap junction proteins. 1765 22

The mechanism by which intracellular Ca(2+) concentration ([Ca(2+)](i)) regulates the permeability of gap junctions composed of connexin43 (Cx43) was investigated in HeLa cells stably transfected with this connexin. Extracellular addition of Ca(2+) in the presence of the Ca(2+) ionophore ionomycin produced a sustained elevation in [Ca(2+)](i) that resulted in an inhibition of the cell-to-cell transfer of the fluorescent dye Alexa fluor 594 (IC(50) of 360 nM Ca(2+)). The Ca(2+) dependency of this inhibition of Cx43 gap junctional permeability is very similar to that described in sheep lens epithelial cell cultures that express the three sheep lens connexins (Cx43, Cx44, and Cx49). The intracellular Ca(2+)-mediated decrease in cell-to-cell dye transfer was prevented by an inhibitor of calmodulin action but not by inhibitors of Ca(2+)/calmodulin-dependent protein kinase II or protein kinase C. In experiments that used HeLa cells transfected with a Cx43 COOH-terminus truncation mutant (Cx43(Delta257)), cell-to-cell coupling was similarly decreased by an elevation of [Ca(2+)](i) (IC(50) of 310 nM Ca(2+)) and similarly prevented by the addition of an inhibitor of calmodulin. These data indicate that physiological concentrations of [Ca(2+)](i) regulate the permeability of Cx43 in a calmodulin-dependent manner that does not require the major portion of the COOH terminus of Cx43.
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PMID:Intracellular calcium regulation of connexin43. 1789 33

We have examined the changes of intercellular electrical coupling protein connexin-43 (Cx43) and of PKC-epsilon in heart atria of diabetic rats and/or after the treatment with triiodothyronine (T(3)). Diabetes was induced in Wistar-Kyoto rats by streptozotocin (50 mg/kg, i.v.) and atria were examined after 5 (acute stage) and 10 (chronic stage) weeks. T(3) (10 microg/100 g/day) was applied via a gastric tube for the last 10 days prior to the end of the experiments to non-diabetic and to the half of diabetic rats. Expression and phosphorylated status of Cx43, as well as expression of PKC-epsilon, were analyzed by Western blots using mouse monoclonal anti-Cx43 and rabbit polyclonal anti-PKC-epsilon antibodies. We found that the Cx43 expression was significantly increased after the treatment with T(3) and in the acute diabetes. Both in diabetes and after T(3) treatment the phosphorylation of Cx43 isoforms was markedly suppressed compared to the non-diabetic and T(3)-untreated controls. Such a down-regulation was less pronounced in diabetic rats after the T(3)-treatment. The expression of atrial PKC-epsilon was increased in diabetic rats. This increase was suppressed after T(3) administration and the expression was decreased in T(3)-treated non-diabetic rats. We suggest that the reduced Cx43 phosphorylation in diabetic and hyperthyroid rats can deteriorate a cell-to-cell coupling and consequently facilitate a development of atrial tachyarrhythmia in diabetic or hyperthyroid animals.
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PMID:Diabetes and thyroid hormones affect connexin-43 and PKC-epsilon expression in rat heart atria. 1838 May 41

Syncytial behavior of cardiac tissue is mainly controlled by the expression of cardiac gap junction proteins, and of these, connexin43 (Cx43) represents the predominant connexin in the working myocardium. Because the alpha(1)-adrenoceptor is involved in many cardiac diseases, the following experiments were performed to clarify the pathway whereby alpha(1)-adrenoceptor stimulation may control Cx43 expression. Cultured neonatal rat cardiomyocytes were stimulated with phenylephrine for 24 h, and Cx43 expression was investigated. Moreover, we investigated activation of p38 mitogenic-activated protein kinase (MAPK), p42/44-MAPK, and c-JUN NH(2)-terminal kinase (JNK) by phosphospecific enzyme-linked immunosorbent assay and nuclear translocation of the transcription factors c-fos and activator protein 1 (AP1). For verification of our results, a Cx43-promoter-enhanced green fluorescent protein (EGFP) construct using the complete promoter [2771 base pairs (bp)] or fragments (0-2421 bp) with EGFP under control of the Cx43 promoter was transfected into cardiomyocytes, and fluorescence intensity was investigated. Phenylephrine exposure caused approximately 2-fold up-regulation of Cx43 protein with an EC(50) of approximately 5 nM, which was significantly inhibited by bisindolylmaleimide I [protein kinase C (PKC) inhibitor], 4-(4-fluorophenyl)-2-(4-methylsulfinylphenyl)-5-(4-pyridyl)-1H-imidazole (SB203580; p38 inhibitor), or 2-(2-amino-3-methoxyphenyl)-4H-1-benzopyran-4-one (PD98059; p42/44 inhibitor). Similar findings were obtained for Cx43 mRNA. Furthermore, Cx43 up-regulation was accompanied by phosphorylation of p38, p42/44, and JNK. Moreover, we found translocation of c-fos and AP1 to the nucleus. Phenylephrine stimulation of Cx43-promoter EGFP-transfected cardiomyocytes significantly increased fluorescence, depending on the length of promoter fragments. A 91-bp fragment containing the first AP1 binding site produced approximately 50% of the fluorescence intensity of the complete promoter. Therefore, we conclude that alpha(1)-adrenoceptor stimulation up-regulates cardiac Cx43 expression via a PKC p38- and p42/44 MAPK-regulated pathway, possibly involving AP1.
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PMID:Signal transduction and transcriptional control of cardiac connexin43 up-regulation after alpha 1-adrenoceptor stimulation. 1844 82


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