UNIPROT:P67775 - FACTA Search

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Query: UNIPROT:P67775 (alpha isoform)
797 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The carboxyl-terminal isoforms of troponin T (TnT), alpha and beta, differing in the sequence of a region near the COOH terminus, arise from alternative splicing of a primary transcript of the TnT gene and are expressed in a tissue-specific and developmentally regulated manner (Medford, R. M., Nguyen, H. T., Destree, A. T., Summers, E., and Nadal-Ginard, B. (1984) Cell 38, 409-421). To date, the beta isoform has not been studied directly at the protein level. To explore the potential functional differences between the alpha and beta sequences, we isolated two rabbit skeletal TnT cDNA clones: a full-length cDNA for a beta isoform and a partial-length cDNA for an alpha isoform. Two restriction fragments derived from the cDNA clones were used to direct overexpression, in Escherichia coli, of two TnT fragments, T2p-alpha and T2p-beta, each containing the last 108 amino acid residues of the alpha or beta isoform of TnT. Using purified T2p-alpha and T2p-beta along with fluorescent derivatives of troponin C (TnC) and alpha alpha-tropomyosin (Tm), we showed that T2p-alpha bound more strongly to TnC than did T2p-beta both in the presence and absence of Ca2+, and exhibited a higher affinity for Tm than did T2p-beta. More interestingly, the Ca2+ affinities of the Ca(2+)-specific regulatory sites of TnC in the T2p-alpha. TnC complex were found to be 3-fold higher than in T2p-beta.TnC complex. These results support the hypothesis that the sequence divergence between the alpha and beta isoforms of TnT may have functional significance in possibly contributing to the determination of the Ca2+ sensitivity of muscle fibers.
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PMID:Two genetically expressed troponin T fragments representing alpha and beta isoforms exhibit functional differences. 142 53

The casein kinase I (CKI) family consists of widely distributed monomeric Ser/Thr protein kinases that have a preference for acidic substrates. Four mammalian isoforms are known. A full length cDNA encoding the CKI alpha isoform was cloned from a rabbit skeletal muscle cDNA library and was utilized to construct a bacterial expression vector. Active CKI alpha was expressed in Escherichia coli as a polypeptide of Mr 36,000. The protein kinase phosphorylated casein, phosvitin and a specific peptide substrate (D4). The enzyme was inhibited by the isoquinolinesulfonamide CKI-7, half-maximally at 70 microM. Heparin inhibited phosphorylation of the D4 peptide or phosvitin by CKI alpha. Polylysine activated when the D4 peptide was the substrate but had no effect on phosvitin phosphorylation. It is becoming clear that the individual CKI isoforms have different kinetic properties and hence could have quite distinct cellular functions.
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PMID:Recombinant rabbit muscle casein kinase I alpha is inhibited by heparin and activated by polylysine. 147 67

Protein kinase C (PKC) isoforms are key mediators in hormone, growth factor, and neurotransmitter triggered pathways of cell activation (Nishizuka: Science 233:305-312, 1986; Nature 334:661-665, 1988). Stimulation of kinase activity by diacylglycerol and calcium often leads to translocation of PKC from the cytosol to a particulate fraction (Kraft and Anderson: Nature 301:621-623, 1983). The beta isoform of PKC is translocated and degraded much more rapidly than the alpha isoform in phorbolester-stimulated rat basophilic leukemia (RBL) cells (Huang et al.: J. Biol. Chem. 264:4238-4243, 1989). We report here immunofluorescence evidence that the distributions of PKC alpha and beta are strikingly different in antigen-activated RBL cells. PKC beta associates with perinuclear filaments and filaments that extend from the perinuclear area to the cell periphery whereas PKC alpha concentrates in regions of the cell periphery. This distribution of PKC beta is distinctly different from that of actin filaments and microtubules as determined by phalloidin staining and by anti-tubulin antibody labeling. In contrast, the staining patterns obtained with antibodies to PKC beta and to the intermediate filament protein vimentin are almost identical, indicating that PKC beta associates with vimentin filaments. These bundles of 100 A filaments may provide docking sites for interactions of PKC beta with its substrates and thus confer specificity to the actions of this isoform.
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PMID:Association of the beta isoform of protein kinase C with vimentin filaments. 151 48

Calponin is a basic smooth-muscle-specific protein capable of binding to F-actin, tropomyosin and calmodulin in vitro. Using two-dimensional gel electrophoresis, we show that calponin exists as multiple isoelectric variants in avian and mammalian tissues. During chick embryogenesis, one isoform is expressed in gizzard that shows a pI identical to the most basic adult alpha variant; around 10 d after hatching multiple isoforms then appear. SM 22 [Pearlstone, J. R., Weber, M., Lees-Miller, J. P., Carpenter, M. R. & Smillie, L. B. (1987) J. Biol. Chem. 262, 5985-5991], which has sequence-motifs related to calponin, displays a similar isoform pattern during development; one isoform (alpha) is present in the embryo and three in the adult. In living smooth-muscle strips from chicken gizzard and guinea pig taenia coli, labelled with 32PO4, no phosphate incorporation could be detected in any of the calponin or SM 22 isoforms during either contraction or relaxation. From the additional observation that antibodies against phosphoserine also failed to label calponin and SM 22 in two-dimensional gel immunoblots, we conclude that the multiple isoforms do not arise via differential phosphorylation. These results support the claim [Barany, M., Rokolya, A. & Barany, K. (1991) FEBS Lett. 279, 65-68] that calponin phosphorylation is not involved in smooth muscle regulation in vivo, as has been suggested from in vitro studies [Winder, S. J. & Walsh, M. J. (1990) J. Biol. Chem. 265, 10148-10155]. In vitro translation of porcine and chicken smooth-muscle mRNA produced only a single (alpha) isoform of calponin, suggesting that the adult isoforms do not derive from multiple gene products; in the same assay two polypeptides appeared in the position of SM 22, one corresponding to the alpha isoform and a second more basic spot, not observed in tissue samples. Whereas calponin and SM 22 appear synchronously during smooth muscle differentiation in vivo, SM 22 is not fully down-regulated like calponin, metavinculin and heavy-caldesmon in smooth muscle cells in culture, pointing to a differential regulation of expression of the alpha SM 22 isoform during smooth-muscle phenotype modulation in vitro.
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PMID:Calponin and SM 22 isoforms in avian and mammalian smooth muscle. Absence of phosphorylation in vivo. 157 91

We have established an RNase protection method to quantify the expression of mRNA for the human protein kinase C (PK-C) isoforms alpha, beta 1, beta 2, and gamma. This was used to investigate whether each isoform is differentially expressed during the differentiation of hematopoietic cells. Myeloid and lymphoid cells express PK-C alpha, beta 1, and beta 2 mRNAs in various proportions. PK-C gamma mRNA was detected in human brain, but not in hematopoietic cells. PK-C alpha mRNA decreases as HL-60 cells mature to a neutrophil phenotype in response to retinoic acid, but its abundance does not change during monocytic differentiation in response to vitamin D3. PK-C alpha mRNA and protein were undetectable in peripheral blood neutrophils, but are present in monocytes. The mRNAs for PK-C beta 1 and beta 2 isoforms increase during HL-60 differentiation and are expressed in both neutrophils and monocytes. Therefore, the PK-C alpha isoform is specifically down-regulated during human neutrophil terminal differentiation. These data suggest that mature neutrophil functions do not require the PK-C alpha isoform.
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PMID:Down-regulation of human protein kinase C alpha is associated with terminal neutrophil differentiation. 161 Oct 98

Two forms of protein kinase C (PKC) activity in cytosol of cultured rat mesangial cells have been characterized in vitro by using histone H1 or endogenous proteins as substrates. Histones H1-phosphorylation was significantly increased only when calcium, phosphatidylserine (PS) and 1,2-diacylglycerol (DAG) or phorbol myristate acetate (PMA) were present together in the incubation medium. EGTA, a calcium chelator, completely inhibited this activity. Upon hydroxyapatite chromatography (HPLC), the PKC activity was eluted as a main peak at 150 mM potassium phosphate with a shoulder at 180 mM. Both peaks corresponded to the type III PKC from rat brain and were identified as PKC alpha isoform by immunoblot analysis. In contrast with what was observed using histone H1, the increased phosphorylation of endogenous proteins in the presence of a mixture of Ca2+/PS, plus either DAG or PMA, was only partly reduced by EGTA. Moreover, the level of the PKC activity detected in the presence of EGTA was comparable to the level of kinase activity, measured in the presence of PS alone or associated with DAG or PMA. This suggests that mesangial cells contain PKC activity which does not absolutely require calcium. Polyacrylamide gel electrophoresis revealed that patterns of phosphorylated mesangial cell proteins are different depending on whether calcium was added or not. In the presence of calcium, PKC strongly phosphorylated the proteins of 53,000 molecular weight, a doublet of 37,000-39,000, the 24,000 and the triplet of 17,000-20,000-22,000 molecular weight. The addition of EGTA to the assays suppressed completely the labelling of most proteins; only the 20,000 molecular weight protein remained strongly labelled, while the 39,000 molecular weight band was only faintly visible. The same patterns of phosphorylations were obtained after omission of calcium in the assays containing only PS and DAG (or PMA). So, the main substrates of calcium-dependent PKC are proteins of 53,000, 39,000, 37,000, 22,000, 24,000 and 17,000 molecular weight while the protein of 20,000 molecular weight appears to be the main substrate of calcium-independent PKC. The existence in mesangial cells of at least two forms of PKC, which phosphorylate specific endogenous proteins, emphasizes the complexity of the phospholipid-dependent regulatory cascade and raises the possibility that actions of different regulators may be transduced through distinct PKC isozymes.
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PMID:Heterogeneity of protein kinase C in cultured rat mesangial cells. 161 24

Regulation of Na,K-ATPase mRNA alpha isoform and mRNA beta expression by thyroid hormone (T3) in neonatal rat myocardium was examined. In euthyroid neonates between ages of 2 and 5 days, mRNA alpha 1, mRNA alpha 3, and mRNA beta 1 abundances were nearly constant while mRNA alpha 2 was undetectable. During the interval between postnatal days 5 and 15, mRNA alpha 3 decreased to negligible levels and mRNA alpha 2 became expressed and increased in abundance to account for approximately 20% of the mRNA alpha pool by the 15th postnatal day. To examine the effect of T3 on this developmental program, neonates were injected with 75 micrograms T3/100 g body weight or diluent alone on the second and third postnatal days and myocardial Na,K-ATPase subunit-mRNA abundances were determined on the third and fourth postnatal days. Because T3 treatment increased the RNA/DNA ratios of myocardial tissue, the subunit-mRNA abundances were normalized per unit DNA. Following 24 and 48 hr of T3 treatment, the abundances of mRNA alpha 1, mRNA alpha 3, and mRNA beta 1 increased, while mRNA alpha 2 continued to remain undetectable during the 2-day interval between the second to fourth postnatal days. It is concluded that T3 augments the abundance of Na,K-ATPase subunit mRNAs that are already being expressed in the neonatal rat myocardium. The results further suggest that T3 does not act as a "molecular switch" in the developmental expression of the mRNA alpha isoforms in rat myocardium during the first four postnatal days.
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PMID:Thyroid hormone regulation of Na,K-ATPase subunit-mRNA expression in neonatal rat myocardium. 164 35

By virtue of their capacity to bind plasminogen activators and plasminogen, to accelerate plasminogen activation and to protect bound plasmin from inactivation by alpha 2 antiplasmin, cells can harness the broad proteolytic activity of plasmin to their surface. Most cells bind plasminogen with a very high capacity, a relatively low affinity (Kd approximately 1 microM) and recognize the lysine binding sites of the molecule. Gangliosides serve as non-protein plasminogen binding sites, and a subset of membrane proteins with carboxy-terminal lysine residues also serve as receptors. The alpha isoform of enolase possesses a carboxy-terminal lysine and is a prominent plasminogen binding protein of cells. Cells of the monocytoid lineage, including peripheral blood monocytes, can markedly upregulate their expression of plasminogen receptors. The capacity to modulate expression of receptors for fibrinolytic components establishes an additional mechanism by which the cell-surface regulates the function of the plasminogen system.
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PMID:Cellular regulation of fibrinolysis. 165 42

Clones of cDNA that code for an isoform of the Artemia franciscana Na/K ATPase alpha subunit (NaKA alpha) have been isolated. The sequence of the longest of these clones (pArATNa136) is 3595 nucleotides; it codes for a 1004-amino acid protein whose sequence is identical to that of two previously sequenced Artemia NaKA alpha peptides. The encoded protein is over 73% identical to Drosophila melanogaster and vertebrate NaKA alpha s, and 73.8% identical to another Artemia NaKA alpha isoform previously described (named alpha 2850 in this article). The two Artemia cDNA clones code for mRNAs of different size; the clone pArATNa136 codes for a 4.5-kb mRNA while the alpha 2850 clone codes for a 3.6-kb mRNA. The degree of homology and the different size of the mRNAs encoded by both cDNAs suggest that they code for two different isoforms of the protein.
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PMID:Cloning of a cDNA encoding an Artemia franciscana Na/K ATPase alpha-subunit. 165 19

The Na,K-ATPase alpha isoform (alpha 1, alpha 2, and alpha 3) and beta subunit genes exhibit a complex pattern of expression during heart development. To identify possible molecular signals that regulate the differential expression of these genes, isolated neonatal rat myocardial and non-myocardial cells were cultured in chemically defined medium and the responses of the multiple Na,K-ATPase subunit mRNAs to various hormones were tested. Myocardiocytes in control cultures express primarily alpha 1 and beta mRNAs. Triiodothyronine (T3) induced the expression of alpha 2, alpha 3, and beta mRNAs without influencing alpha 1 mRNA levels. Dexamethasone (DEX) treatment similarly induced alpha 2 mRNA levels, but the abundance of the other subunit transcripts remained unaltered. T3 and DEX together caused increases in alpha 2 and beta mRNA, increments similar to that observed with T3 alone. However, DEX specifically repressed the induction of alpha 3 mRNA by T3. Both hormones stimulated corresponding changes in the sarcolemma concentration of these Na,K-ATPase isozymes. Addition of norepinephrine to the cultures had little appreciable effect on expression of the alpha isoform and beta mRNAs. Although characterized less extensively, control cultures of non-myocardiocytes expressed alpha 1, alpha 3, and beta mRNAs, of which only the beta mRNA was stimulated by T3. These data indicate that thyroid and glucocorticoid hormones differentially regulate the expression of multiple alpha isoform and beta subunit mRNAs of Na,K-ATPase in cardiocytes in vitro and, therefore, may also be important physiological modulators in vivo.
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PMID:Thyroid and glucocorticoid hormones regulate the expression of multiple Na,K-ATPase genes in cultured neonatal rat cardiac myocytes. 168 3

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