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

HIV-1 Vpu is a small transmembrane phosphoprotein of 16 kDa which performs critical roles in CD4 proteolysis and virus release. Previous studies have demonstrated that Vpu-induced degradation of CD4 occurs in the endoplasmic reticulum (ER), and that the proteolytic process is sequence specific requiring both the transmembrane and cytoplasmic domains of CD4. In the present study, we investigated the effects of Vpu expression on the intracellular membrane trafficking pathway of mammalian cells. In singly transfected cells, the HIV envelope glycoproteins and vesicular stomatitis virus glycoprotein (VSV G) were properly transported to the cell surface undergoing oligosaccharide modifications characteristic of their movement through the Golgi complex. In contrast, the cell surface delivery of glycoproteins was severely impeded in cells expressing Vpu. Biochemical analyses revealed that Vpu expression blocked the transfer of proteins from the ER-Golgi complex to the plasma membrane in a dose- and protein-dependent manner. Soluble gp120 exhibited extreme transport defects in the presence of Vpu, whereas transmembrane proteins (e.g., gp160, VSV) responded only moderately to wild-type Vpu. To gain insight into Vpu-mediated transport inhibition, we performed mutational analysis of the CK-2 phosphorylation sites (serines at 52 and 56) in the Vpu protein. CK-2 phosphorylation of Vpu has been shown to regulate the activity of the protein in reactions that involve the proteolysis of CD4 in the ER. We demonstrate here that the phosphorylation mutant is defective in both sequence-specific degradation of VRE-containing substrates and the transport inhibition of gp120 and VSV-G in the secretory pathway. Thus, these experiments have revealed that Vpu-mediated proteolysis and transport inhibition are mechanistically coupled requiring the same structural elements of the Vpu protein in both processes. We propose that the primary effect of Vpu expression is to impede the secretion process and then access glycoproteins bearing the VRE for Vpu-mediated proteolysis in the ER of mammalian cells.
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PMID:The human immunodeficiency virus type 1 Vpu protein: a potential regulator of proteolysis and protein transport in the mammalian secretory pathway. 749 87

Intracellular Ca2+ (Cai2+) stores contribute significantly to Ca2+ signaling in many types of cells. We studied the role of inositol trisphosphate (InsP3)-sensitive Ca2+ stores, a principal Cai2+ store that presumably is within the endoplasmic reticulum (ER), in cell signaling by examining the effect of thapsigargin (Tg), an ER Ca2+ pump inhibitor that depletes the ER Ca2+ pool, on ACTH secretion. Preincubation for 6-24 h with 2-20 nM Tg had no effect on the resting cytosolic free Ca2+ concentrations ([Cai2+]) but inhibited the ionomycin-stimulated spike-type increase in [Cai2+], which is mediated by InsP3-independent Cai2+ release from the ER, in a dose-dependent (IC50, 4 nM) and time-dependent manner. In ER Cai(2+)-depleted cells, the spike phase (initial 5 min) of the ACTH secretory response to arginine vasopressin (AVP), which is mediated by InsP3-induced Cai2+ release, was also attenuated (IC50, 7.3 nM). However, the spike phase of the ACTH secretory response to AVP was inhibited to a much greater degree than the spike-type response to ionomycin, suggesting that ER Cai2+ stores might have functions other than simply providing Ca2+ for InsP3-stimulated Cai2+ release. Tg pretreatment (IC50, 12 nM) also markedly inhibited the sustained plateau (final 15-min) phase of the ACTH secretory response to AVP, which is mediated by diacylglycerol-induced activation of protein kinase C and subsequent influx of extracellular Ca2+ via L-type voltage-sensitive Ca2+ channels (VSCC), but had no effect on the sustained (full 20 min) response to dioctanoylglycerol that directly activates protein kinase C. Tg had no effect on specific cell binding of [125I]AVP or on specific cell binding of [3H]phorbol 12,13-dibutyrate (except at 20 nM Tg), an index of protein kinase C concentration, or on protein kinase C activity. AVP significantly stimulated inositol trisphosphate accumulation, but pretreatment with Tg completely abolished this effect of AVP, whereas [3H]myoinositol incorporation into membrane-associated inositol lipids and inositol phosphates was unaffected. Thus, Tg-induced depletion of ER Cai2+ stores inhibited both the spike and plateau phases of the ACTH secretory response to AVP, presumably by inhibiting phospholipase C activity and the resulting generation of InsP3 and diacylglycerol. Preincubation with Tg inhibited, in a dose-dependent (IC50, 13 nM) and time-dependent manner, the sustained ACTH secretory response to corticotropin-releasing hormone (CRH) that is mediated by cAMP-induced activation of protein kinase A and Cae2+ influx via L-type VSCC, and the sustained response to forskolin, which directly activates adenylate cyclase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of inositol trisphosphate-sensitive calcium stores in the regulation of adrenocorticotropin secretion by perifused rat anterior pituitary cells. 758 88

Phosphophoryns (PPs) are phosphoproteins specific to the dentin matrix and are the major noncollagenous matrix proteins in rat incisor dentin. It has been hypothesized that their phosphate groups are important in dentin mineralization. PPs have many sequences which are substrates for membrane-associated endogenous messenger-independent kinases. The objective of this study was to localize the protein kinases involved in phosphorylating the PPs. Osteoblast-like ROS 17/2.8 cells, which secrete extracellular matrix phosphoproteins, were lysed. After removal of the nuclei and mitochondria by low-speed centrifugation, the membrane associated organelles were isolated at higher speed from the cytosol. The Golgi vesicle and rough microsome fractions were collected from 29-43.7% sucrose density gradients. Each fraction was tested for casein kinase II (CKII) activity using an in vitro phosphorylation assay with PPs as substrate. To characterize and confirm the nature of the components of the sucrose gradient fractions, the activities of specific enzymes such as N-acetylglucosamine galactosyltransferase and cytochrome c reductase, which are exclusively associated with the Golgi and rough microsomes, respectively, were determined. Electron microscopy of the isolated fractions confirmed the enzyme assay characterizations. CKII activity capable of phosphorylating the PP was found in the rough microsome fraction but not in the Golgi. Thus, phosphorylation of the secreted phosphoproteins would appear to take place in the endoplasmic reticulum as a cotranslational event.
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PMID:Casein kinase localization in the endoplasmic reticulum of the ROS 17/2.8 cell line. 761 Sep 32

Calcium depletion from the endoplasmic reticulum inhibits protein synthesis and correlates with increased phosphorylation of the alpha subunit of eukaryotic initiation factor 2 (eIF-2 alpha) by a mechanism that does not require ongoing protein synthesis. To elucidate whether protein synthesis inhibition requires eIF-2 alpha phosphorylation and whether eIF-2 alpha phosphorylation is mediated by the double-stranded RNA-dependent protein kinase (PKR), we studied protein synthesis in response to calcium depletion mediated by calcium ionophore A23187 in cell lines overexpressing wild-type eIF-2 alpha, a mutant eIF-2 alpha (S51A) that is resistant to phosphorylation, or a dominant negative mutant PKR (K296P in catalytic subdomain II). Expression of either mutant eIF-2 alpha or mutant PKR partially protected NIH3T3 cells from inhibition of protein synthesis upon A23187 treatment. In contrast, overexpression of wild-type PKR increased sensitivity to protein synthesis inhibition mediated by A23187 treatment. In a COS-1 monkey cell transient transfection system, increased eIF-2 alpha phosphorylation in response to A23187 treatment was inhibited by expression of the dominant negative PKR mutant. Overexpression of the PKR regulatory RNA binding domain, independent of the PKR catalytic domain, was sufficient to inhibit increased phosphorylation of eIF-2 alpha upon A23187 treatment. In addition, overexpression of the HIV TAR RNA binding protein also inhibited eIF-2 alpha phosphorylation upon A23187 treatment. Taken together, our data show that calcium depletion activates PKR to phosphorylate eIF-2 alpha, and this activation is likely mediated through the PKR RNA binding domain.
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PMID:Calcium depletion from the endoplasmic reticulum activates the double-stranded RNA-dependent protein kinase (PKR) to inhibit protein synthesis. 762 70

In interphase cells, alpha-casein kinase I (alpha-CKI) is found associated with cytosolic vesicular structures, the centrosome, and within the nucleus. To identify the specific vesicular structures with which alpha-CKI is associated, established cell lines and primary rat neurons were immunofluorescently labeled with an antibody raised to alpha-CKI. In nonneuronal cells, alpha-CKI colocalizes with vesicular structures which align with microtubules and are partially coincident with both Golgi and endoplasmic reticulum markers. In neurons, alpha-CKI colocalizes with synaptic vesicle markers. When synaptic vesicles were purified from rat brain, they were highly enriched in a CKI, based on activity and immunoreactivity. The synaptic vesicle-associated CKI is an extrinsic kinase and was eluted from synaptic vesicles and purified. This purified CKI has properties most similar to alpha-CKI. When the activities of casein kinase I or II were specifically inhibited on isolated synaptic vesicles, CKI was shown to phosphorylate a specific subset of vesicle proteins, one of which was identified as the synaptic vesicle-specific protein SV2. As with alpha-CKI, the synaptic vesicle CKI is inhibited by phosphatidylinositol 4,5-bisphosphate (PIP2). However, synthesis of PIP2 was detected only in plasma membrane-containing fractions. Therefore, PIP2 may spatially regulate CKI. Since PIP2 synthesis is required for secretion, this inhibition of CKI may be important for the regulation of secretion.
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PMID:A phosphatidylinositol 4,5-bisphosphate-sensitive casein kinase I alpha associates with synaptic vesicles and phosphorylates a subset of vesicle proteins. 762 70

The presence and physiological role of cGMP-dependent protein kinase (G-kinase) was investigated in human mononuclear phagocytes. Western blots of monocyte extracts revealed a single polypeptide band that comigrated with purified bovine lung G-kinase. G-kinase was localized by immunofluorescence microscopy in freshly isolated adherent human monocytes, monocyte-derived macrophages cultured from 4 to 14 days, and alveolar macrophages. In monocytes, G-kinase was localized in granules or vesicles in the cytoplasm, at the microtubule organizing center, on filaments, and in the nucleus. In monocyte-derived macrophages, intense staining for G-kinase was found in the vicinity of the Golgi, in vesicles throughout the cytoplasm, and diffusely in the nucleus. Dual-label confocal laser scanning microscopy demonstrated that G-kinase was colocalized with the endoplasmic reticulum. For comparison, G-kinase was localized in alveolar macrophages that were adhered from 3 to 30 min. In these cells, G-kinase was prominent within the organelle-rich area pericortical to the nucleus. However, a well-defined area of intense staining was also observed at the cell periphery at early time points during adherence and spreading. Rhodamine-labeled phalloidin showed that this peripheral area was rich in F-actin. Cytochalasin D, but not nocodazole, inhibited G-kinase targeting to the cell margin. Furthermore, the guanylate cyclase inhibitor LY83583 inhibited alveolar macrophage spreading and staining for G-kinase at the cell periphery. These data suggest that G-kinase may play an important role in cGMP-mediated regulation involved in protein processing and cell motility.
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PMID:Localization of cyclic GMP-dependent protein kinase in human mononuclear phagocytes. 772 24

Annexin-I was demonstrated to specifically present in islets and not in exocrine tissues of the rat pancreas and to have a diffuse and homogeneous distribution in all islet cells in our previous study. In the present report, to clarify the functions of annexin-I in rat pancreatic islets, especially in beta-cells, we investigated the role of annexin-I in insulin secretion. Immunoelectron microscopic analysis of pancreatic beta-cells demonstrated that immunogold particles reactive to annexin-I were almost exclusively observed on most of the insulin-containing granules (approximately 90%) and less frequently located in cytosol and other organelles, such as the endoplasmic reticulum and mitochondria. The number of annexin-I gold particles located on insulin granules after oral glucose administration was significantly increased compared with that observed in fasted rats. Moreover, when the isolated islets were stimulated by a high concentration of glucose (20 mM), the phosphorylation of annexin-I was markedly enhanced, and it was synchronized to insulin secretion. This phosphorylation mainly occurred on serine residues. H-7 (100 microM), a potent inhibitor of protein kinase-C, inhibited the phosphorylation to about 90%. These findings suggest that annexin-I might be involved in the regulatory mechanism of glucose-induced insulin secretion in rat pancreatic islets via phosphorylation-dephosphorylation processes.
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PMID:Involvement of annexin-I in glucose-induced insulin secretion in rat pancreatic islets. 775 Apr 63

Dose- and time-dependent killing of cultured rat hepatocytes was produced by aluminum maltolate (AlM), a neutral, water-soluble complex of aluminum 3-hydroxy-2-methyl-4H-pyran-4-one. Treatment with 10 mM AlM for 1 h killed 50% or more of the cells within 3 h. Removal of calcium from the culture medium or treatment with calcium channel blockers (verapamil, nifedipine, diltiazem) potentiated the cell killing. By contrast, inhibition by thapsigargin of the sequestration of intracellular calcium by the endoplasmic reticulum reduced the toxicity of AlM. In turn, activation of protein kinase C with 12-O-tetradecanoylphorbol 13-acetate or activation of protein kinase A with 8-[4-chlorophenyl-thio]adenosine 3',5'-cyclic monophosphate also reduced the toxicity of AlM. By contrast, inhibition of protein kinase activity by staurosporine potentiated the cell killing. Staurosporine, however, did not reverse the protection afforded by thapsigargin. Hepatocytes treated with AlM for 1 h were rescued by adding deferoxamine as late as 90 min following the removal of AlM, whereas pretreatment for 1 h with deferoxamine did not prevent the toxicity of AlM. ATP depletion did not precede loss of viability. Pharmacologic probes excluded oxidative stress as a mechanism of lethal injury by AlM, and inhibition of protein synthesis by cycloheximide did not protect the hepatocytes, thereby excluding activation of a cell death program. These data define a new model in which aluminum kills liver cells by a mechanisms distinct from previously recognized pathways of lethal cell injury. It is hypothesized that aluminum binds to cytoskeletal proteins intimately associated with the plasma membrane. This interaction eventually disrupts the permeability barrier function of the cell membrane, an event that heralds the death of the hepatocyte. The intracellular calcium ion concentration and protein phosphorylation may modify the interaction of aluminum with its critical targets. Alternatively, aluminum may inhibit the phosphorylation of cytoskeletal elements, thereby interfering with their function.
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PMID:The absence of extracellular calcium potentiates the killing of cultured hepatocytes by aluminum maltolate. 784 Jun 48

Thapsigargin, a selective inhibitor of the endoplasmic reticulum Ca2+ pump, has been shown to deplete inositol-1,4,5-trisphosphate-sensitive Ca2+ stores. Here we report that when thapsigargin was introduced to serum-stimulated human fibroblasts at a time point just before the G1/S boundary, it completely inhibited expression of cyclin A, activation of p33CDK2 cyclin-dependent kinase and initiation of DNA synthesis. In contrast, the Ca2+ mobilizing ionophore ionomycin was without effect. These findings indicate that Ca2+ inside the inositol-1,4,5-trisphosphate-sensitive Ca2+ stores plays a pivotal role for traverse across the G1/S transition point.
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PMID:Involvement of intact inositol-1,4,5-trisphosphate-sensitive Ca2+ stores in cell cycle progression at the G1/S boundary in serum-stimulated human fibroblasts. 787 24

Perturbants of the endoplasmic reticulum (ER), including Ca(2+)-mobilizing agents, provoke a rapid suppression of translational initiation in conjunction with an increased phosphorylation of the alpha-subunit of eukaryotic initiation factor (eIF)-2. Depletion of ER Ca2+ stores was found to signal the activation of a specific eIF-2 alpha kinase. Analysis of extracts derived from cultured cells that had been pretreated with Ca2+ ionophore A23187 or thapsigargin revealed a 2-3-fold increase in eIF-2 alpha kinase activity without detectable changes in eIF-2 alpha phosphatase activity. A peptide of 65-68 kDa, which was phosphorylated concurrently with eIF-2 alpha in extracts of pretreated cells, was identified as the interferon-inducible, double-stranded RNA (dsRNA)-regulated protein kinase (PKR). Depletion of ER Ca2+ stores did not alter the PKR contents of extracts. When incubated with reovirus dsRNA, extracts derived from cells with depleted ER Ca2+ stores displayed greater degrees of phosphorylation of PKR and of eIF-2 alpha than did control extracts. The enhanced dsRNA-dependent phosphorylation of PKR was observed regardless of prior induction of the kinase with interferon. Lower concentrations of dsRNA were required for maximal phosphorylation of PKR in extracts of treated as compared to control preparations. These findings suggest that PKR mediates the translational suppression occurring in response to perturbation of ER Ca2+ homeostasis.
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PMID:Activation of the double-stranded RNA-regulated protein kinase by depletion of endoplasmic reticular calcium stores. 789 Jul 57


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