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Query: EC:2.7.11.17 (
CaMKII
)
4,029
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A
caldesmon kinase
activity was partially purified from an extract of chicken gizzard smooth muscle by sequential chromatography on columns of DEAE-Sephacel, MonoQ and Superose 12. This kinase was identified as casein kinase II by Western blotting using peptide-directed antibodies raised against the alpha, alpha' and beta subunits of human casein kinase II; the smooth muscle enzyme consisted of similar subunits of M(r) 43,000 (alpha), 39,000 (alpha'), and 27,000 (beta). Phosphorylation of caldesmon and casein by smooth muscle casein kinase II was optimal at approximately 0.1 M NaCl, did not require second messengers, and was inhibited by heparin. The kinase utilized either GTP or ATP as a substrate. Caldesmon was phosphorylated to approximately 1 mol Pi mol-1 caldesmon by smooth muscle casein kinase II with a Km for caldesmon of 4.9 microM. Two-dimensional thin-layer electrophoresis indicated phosphate incorporation into both serine and threonine. All the incorporated phosphate was recovered in the
N-terminal peptide
(residues 1-152) generated by cleavage at cysteine 153 with 2-nitro-5-thiocyanobenzoic acid. Purification of tryptic phosphopeptides and N-terminal sequencing revealed two principal sites of phosphorylation: serine 73 and threonine 83. The following four synthetic peptides corresponding to this domain of caldesmon were examined as substrates of casein kinase II: A = RRREVNAQNSVAEEE; B = AQNSVAEEE; C = RSTDDEAA; D = SVAEEETKRSTDDE. Interestingly, only peptides C and D were phosphorylated and both only at threonine. Phosphorylation of intact caldesmon did not affect the pattern of chymotryptic digestion suggesting that it does not induce a significant conformational change in the protein substrate. Phosphorylation also had no effect on the binding of caldesmon to actin or on the caldesmon-mediated inhibition of actomyosin MgATPase activity. However, phosphorylation completely abolished the interaction of caldesmon with immobilized smooth muscle myosin. These results are consistent with the localization of the myosin-binding domain near the N-terminus of caldesmon and of the actin-binding domain near the opposite end of the elongated molecule. Casein kinase II may therefore play a role in regulating caldesmon-myosin interaction and the ability of caldesmon to cross-link actin and myosin filaments in smooth muscle.
...
PMID:Phosphorylation of caldesmon by smooth-muscle casein kinase II. 780 38
We have isolated and sequenced cDNAs encoding
Ca2+/calmodulin-dependent protein kinase
type Gr (CaM-K-Gr, also called CaM-K-IV) from human brain and thymus. The sequence of the protein coding region of the cDNA is identical in both brain and thymus, although Northern hybridization analysis shows variation of the mRNA transcripts in these tissues. The sequence predicts a protein of M(r) 51,897 that is 83.7% identical and shows 89.2% similarity with the rat homologue. The deduced human CaM-K-Gr is identical to the rat and mouse proteins in the portion of the enzyme involved in ATP binding, the catalytic domain and Ca2+/calmodulin-binding domain; however, the N terminus of the human kinase, which may comprise a second regulatory domain [McDonald et al., J. Biol. Chem. 268 (1993) 10054-10059], contains a 4-amino-acid (aa) insertion relative to the rodent enzymes. Additionally, the C-terminal association domain shows only 45.2 and 41.6% identity with the rat and mouse proteins, respectively, suggesting that this domain is not constrained by stringent structural and functional requirements. Based on the predicted aa sequence of the human kinase, we produced polyclonal antisera against a
C-terminal peptide
that recognizes two forms of CaM-K-Gr in human T-cell lymphoma and neuroblastoma cell lines. The human antiserum cross-reacts with the rat and mouse proteins and immunoprecipitates the active kinase.
...
PMID:The cDNA sequence and characterization of the Ca2+/calmodulin-dependent protein kinase-Gr from human brain and thymus. 819 51
The prohormone convertases play important roles in the maturation of neuropeptides and peptide hormone precursors. Prohormone convertase-2 (PC2) is the only convertase that requires the expression of another neuroendocrine protein,
7B2
, for expression of enzyme activity. In this study, we determined that
7B2
can be phosphorylated in Rin cells (a rat insulinoma cell line) and cultured chromaffin cells, but not in AtT-20 cells (derived from mouse anterior pituitary). Phosphoamino acid analysis of Rin cell
7B2
indicated the presence of phosphorylated serine and threonine. Phosphorylation of Ser115 (located within the minimally active 36-residue peptide) was confirmed by mutagenesis, although Ser115 did not represent the sole residue phosphorylated. Two independent assays were used to investigate the effect of phosphorylated
7B2
on PC2 activation: the ability of
7B2
to bind to pro-PC2 was assessed by co-immunoprecipitation, and activation of pro-PC2 was assessed in a cell-free assay. Phosphorylated
7B2
was unable to bind pro-PC2, and the phosphorylated
7B2
peptide (residues 86-121, known to be the minimally active peptide for pro-PC2 activation) was impaired in its ability to facilitate the generation of PC2 activity in membrane fractions containing pro-PC2. In vitro phosphorylation experiments using Golgi membrane fractions showed that
7B2
could be phosphorylated by endogenous Golgi kinases. Golgi kinase activity was strongly inhibited by the broad-range kinase inhibitor staurosporine and partially inhibited by the protein kinase C inhibitor bisindolylmaleimide I, but not by the other protein kinase A, Ca2+/
calmodulin-dependent kinase II
, myosin light chain kinase, and protein kinase G inhibitors tested. We conclude that phosphorylation of
7B2
functionally inactivates this protein and suggest that this may be analogous to the phosphorylating inactivation of BiP, which impairs its ability to bind substrate.
...
PMID:Neuroendocrine protein 7B2 can be inactivated by phosphorylation within the secretory pathway. 1628 64
