Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arylsulfatase A was purified from human lung and human placenta to apparent homogeneity presented by electrophoresis in the absence and presence of sodium dodecyl sulfate. The enzyme from normal lung, placenta, and lung adenocarcinoma showed considerable charge heterogeneity when examined by isoelectrofocusing, with isoelectric point (pI) ranging from 5.1 to 4.6. The enzyme from adenocarcinoma was more heterogeneous and having more acidic components than the other enzyme. When the tumor enzyme was treated with exogenous sialidase, alkaline phosphatase, or endo-beta-N-acetylhexosaminidase H (endoglycosidase H), the acidic components of the enzyme shifted to the more alkaline region on the focussing gel. The banding pattern of the enzyme from normal tissues also changed to the more alkaline region when treated with exogenous hydrolase and showed almost the same pattern as hydrolase treated enzyme from adenocarcinoma. Combined treatment of the enzyme with endoglycosidase H and sialidase resulted in complete loss of the most acidic components to give the less acidic components with pI of 5.1.50. and 4.9. Cyclic AMP-dependent protein kinase could not phosphorylate the protein moiety of arylsulfatase A even after the enzyme was treated with alkaline phosphatase. When an acidic fraction of the endoglycosidase H sensitive oligosaccharides from arylsulfatase A was treated with phosphatase, the acidic oligosaccharide fraction lost the negative charge on QAE-Sephadex chromatography. These results strongly suggest that the charge heterogeneity of arylsulfatase A is due not only to sialylation but also to phosphorylation at the carbohydrate moiety of the enzyme, and that the extent of substitution by acidic groups, sialic acid residue and phosphate residue, is markedly increased in the tumor enzyme.
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PMID:[Studies on charge heterogeneity of arylsulfatase A from human lung cancer]. 286 24

The avian retrovirus S13 codes for an env-linked transformation-specific glycoprotein with a molecular weight of 155,000 (gp155). Treatment of gp155 with endoglycosidase H or growth of S13-infected cells in the presence of tunicamycin reduces the molecular weight of gp155 to about 140K, but these gp155-related molecules may still contain sugar residues. The gp155 protein is not incorporated into virions; it is phosphorylated, but in immunoprecipitates does not show protein kinase activity. The genome of S13 is an 8.5-kilobase (kb) RNA; the helper virus genome is 7.5 kb in size. The putative onc sequences of S13 do not hybridize to DNA probes representing src, erb A, erb B, myc, myb, fps, fms, H-ras, B-lym, abl, rel, and ets.
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PMID:Avian retrovirus S13: properties of the genome and of the transformation-specific protein. 299 97

Monoclonal antibodies have been raised against a dimeric cell surface antigen (p75/150) which is specifically associated with the tumorigenic phenotype in human fibroblast X HeLa hybrids. During biosynthesis, a precursor molecule (p70/140), was associated with microsomal membranes in vivo but possessed no detectable cytoplasmic domains. At this stage, each p70 monomer contained 3 "high-mannose" type N-linked glycans which were subsequently processed into endoglycosidase H-insensitive complex oligosaccharides on the mature cell surface forms. Cleavage of this cell surface form with endoglycosidase F yielded non-N-glycosylated polypeptides of Mr = 60,000/120,000. All the monoclonal antibodies identified similar non-N-glycosylated polypeptides in cells grown in the presence of tunicamycin. p75/150 could be weakly labeled with [3H]palmitic or myristic acid. In vivo, p75/150 was found to be phosphorylated on serine residues. Immunoprecipitates of p75/150 from HeLa or tumorigenic hybrid cell lysates exhibited protein kinase activity in vitro, which phosphorylated p75/150 itself, also on serine residues. We were unable to detect this kinase activity in normal fibroblasts and in the nontumorigenic hybrid cells. Furthermore, we were unable to detect p75/150 or its precursors by either cell surface labeling, metabolic labeling, or Western blotting in nontumorigenic cell hybrids; p75/150 thus represents a tumor-specific marker in this system. Tryptic peptides of highly purified p75/150 have been generated, but their amino acid sequences did not reveal any significant homology with previously described proteins.
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PMID:Structural and functional features of a cell surface phosphoglycoprotein associated with tumorigenic phenotype in human fibroblast x HeLa cell hybrids. 308 Apr 34

Human lung cancer transplanted into athymic mice contains predominantly an acidic variant (designated B1) of lysosomal arylsulfatase B. B1 enzyme was suggested to be phosphorylated and sialylated (Gasa, S., Makita, A., Kameya, T., Kodama, T., Koide, T., Tsumuraya, M., and Komai, T. (1981) Eur. J. Biochem. 116, 497-503). In order to determine the localization of phosphate in B1 enzyme, we labeled in vivo the transplanted tumor with [32P]H3PO4 or [3H]glucosamine and purified B1 enzyme by immunoprecipitation. Bio-Gel chromatography of the labeled B1 enzyme treated with endoglycosidase H demonstrated that both the excluded and included materials were labeled with 32P and 3H. From acid hydrolysate of the excluded materials, phosphorylated serine and threonine were detected. Protein phosphorylation of arylsulfatase was confirmed by in vitro labeling experiments with [gamma-32P]ATP. By incubation of the tumor homogenate with ATP followed by isolation of the enzymes, B1 enzyme had a significant amount of radioactivity, whereas the B enzyme had little; by exogenous protein kinase, partially purified B enzyme was phosphorylated 35 times more than B1 enzyme. Acid hydrolysate of the included materials in the Bio-Gel column demonstrated mannose 6-phosphate and an unknown phosphorylated compound which migrates more than Man-6-P on electrophoresis and chromatography.
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PMID:Phosphorylation on protein and carbohydrate moieties of a lysosomal arylsulfatase B variant in human lung cancer transplanted into athymic mice. 640 42

We have studied the biosynthesis and turnover of the inositol 1,4,5-trisphosphate receptor (IP3R) in WB cells, a rat liver epithelial cell line. In detergent extracts of 35S-labeled WB cells, an affinity-purified antibody directed at the C terminus of the IP3R immunoprecipitated two labeled polypeptides, a major band at 233 kDa and a minor band at 222 kDa. The major band was shown to correspond to the IP3R by immunoblotting. The minor band was not a proteolytic clip of the IP3R because, unlike the IP3R, the 222-kDa band was not a glycoprotein or a substrate for protein kinase A and was not recognized by three different IP3R antibodies on immunoblots. The identity and function of this co-immunoprecipitating protein is unknown. The IP3R in WB cells was 5 kDa smaller than the rat cerebellar IP3R. Significant changes in the molecular weight of the IP3R were not observed in pulse-chase experiments, indicating that extensive proteolytic or carbohydrate processing events do not occur during biosynthesis of the receptor. From the analysis of such experiments in confluent WB cells, it was determined that the half-life of the IP3R protein was 11 h. Chromatography of the 35S-labeled extracts on Sephacryl S-400 columns revealed rapid oligomerization of newly synthesized protein with > 95% of newly synthesized protein forming tetramers during a short (10 min) pulse labeling period. However, significant amounts of mature IP3R were found as incompletely oligomerized forms. Mature IP3R was bound by concanavalin A-Sepharose beads, and binding was greatly reduced by endoglycosidase H treatment of the receptor. Endoglycosidase H sensitivity, absence of binding to wheat germ agglutinin-Sepharose, and insensitivity of biosynthesis or oligomerization to brefeldin A suggest that processing of the WB IP3R does not involve transit through the Golgi apparatus.
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PMID:Biosynthesis of the inositol trisphosphate receptor in WB rat liver epithelial cells. 811 4

In the present work we studied the relationship between the phosphorylated 150- and 160-kDa proteins and other SR proteins in the 150,000-170,000 range of molecular masses. on SDS-PAGE, the identification of their kinase, as well as the purification and structural interactions between these proteins and the rynodine receptor (RyR). The phosphorylated 150-kDa protein was identified as sarcalumenin based on: (a) its cross-reactivity with three different monoclonal antibodies specific for sarcalumenin. (b) its mobility in SDS-PAGE which was modified upon digestion with endoglycosidase H, (c) its elution from lentil-lectin column by alpha-methyl mannoside, (d) its resistance to trypsin, (e) its ability to bind Ca2+ and to stain blue with Stains-All. The phosphorylated 160-kDa protein was identified as the histidine-rich Ca2+ binding protein (HCP) based on: (a) its Ca(2+)-binding property and staining blue with Stains-All, (b) phosphorylation with the catalytic subunit of cAMP-dependent kinase. (c) its increased mobility in SDS-PAGE in the presence of Ca2+ (d) its heat stability and (e) its partial amino acid sequence. The endogenous kinase was identified as casein kinase II (CK II) based on the inhibition of the endogenous phosphorylation 160/150-kDa proteins by heparin, 5.6-dichlorobenzimidazole riboside, polyaspartyl peptide and hemin, and its ability to use [gamma-32P]GTP as the phosphate donor. The association of CK II with SR membranes, was demonstrated using specific polyclonal anti-CK II antibodies. The luminal location of CK II is suggested because CK II was extracted from the SR by l M NaCl only after their treatment with hypotonic medium, and CK II activity was inhibited with the charged inhibitors heparin and polyaspartyl peptide only after their incubation with the SR in the presence of NP-40. The 160- and 150-kDa proteins were purified on spermine-agarose column, and were phosphorylated by CK II. Like the endogenous phosphorylation of the 150/160-kDa proteins in SR. the phosphorylation of the purified proteins by CK II was inhibited by La3+ (Cl50 = 4 microM) and hemin. The results suggest the phosphorylation of the luminally located sarcalumenin and HCP with CK II.
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PMID:The identification of the phosphorylated 150/160-kDa proteins of sarcoplasmic reticulum, their kinase and their association with the ryanodine receptor. 876 99

The influence of protein kinase A activity on transport of newly synthesized vesicular stomatitis virus G glycoprotein along the exocytic pathway was examined. Transport of vesicular stomatitis virus G glycoprotein to the cell surface was inhibited by N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulfonamide (H-89), a selective inhibitor of protein kinase A. This block occurred at the exit of the Golgi complex, whereas transport through the Golgi compartments or from the endoplasmic reticulum to the Golgi was decreased in the presence of H-89. As judged by immunofluorescence endoplasmic reticulum to Golgi transport was accelerated in cells incubated with activators of protein kinase A such as isobutylmethylxanthine (IBMX) or forskolin (FK). Treatment with IBMX and FK also increased transport from the trans-Golgi network to the cell surface. During incubation with IBMX and FK, the organization of the Golgi complex was altered showing intercisternae fusion and miscompartmentalization of resident proteins. These structural changes affected both the kinetics of acquisition of endoglycosidase H resistance and transport activities. These data support a differential regulatory role for protein kinase A in different transport steps along the exocytic pathway. In particular, transport from the trans-Golgi network to the cell surface was dependent on protein kinase A activity. In addition, the results suggest the involvement of this enzyme on the maintenance of the Golgi complex organization.
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PMID:A regulatory role for cAMP-dependent protein kinase in protein traffic along the exocytic route. 894 80

Matrix metalloproteinase-27 (MMP-27) is poorly characterized. Sequence comparison suggests that a C-terminal extension (CTE) includes a potential transmembrane domain as in some membrane-type (MT)-MMPs. Having noticed that MMP-27 was barely secreted, we investigated its subcellular localization and addressed CTE contribution for MMP-27 retention. Intracellular MMP-27 was sensitive to endoglycosidase H. Subcellular fractionation and confocal microscopy evidenced retention of endogenous MMP-27 or recombinant rMMP-27 in the endoplasmic reticulum (ER) with locked exit across the intermediate compartment (ERGIC). Conversely, truncated rMMP-27 without CTE accessed downstream secretory compartments (ERGIC and Golgi) and was constitutively secreted. CTE addition to rMMP-10 (a secreted MMP) caused ER retention and blocked secretion. Addition of a PKA target sequence to the cytosolic C-terminus of transmembrane MT1-MMP/MMP-14 led to effective phosphorylation upon forskolin stimulation, but not for MMP-27, excluding transmembrane anchorage. Moreover, MMP-27 was protected from digestion by proteinase K. Finally, MT1-MMP/MMP-14 but neither endogenous nor recombinant MMP-27 partitioned in the detergent phase after Triton X-114 extraction, indicating that MMP-27 is not an integral membrane protein. In conclusion, MMP-27 is efficiently retained within the ER due to its unique CTE, which does not lead to stable membrane insertion. This could represent a novel ER retention system.
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PMID:A unique C-terminal domain allows retention of matrix metalloproteinase-27 in the endoplasmic reticulum. 2454 19