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)

During a dynamic perifusion, 20 mmol/L glucose, 20 mmol/L alpha-ketoisocaproate (KIC) or 20 mmol/L methyl pyruvate (MP) stimulate biphasic insulin secretory responses from collagenase-isolated rat islets. Peak first-phase insulin responses were comparable for all 3 nutrient agonists. The largest second-phase insulin secretory response was evoked by 20 mmol/L glucose (30-fold above basal release rates), and this response was more sustained than that observed with either 20 mmol/L KIC or 20 mmol/L MP. When mouse islets were perifused under similar conditions, KIC stimulated the largest first-phase insulin response, while comparable acute insulin secretion rates were obtained with glucose- or MP-stimulated islets. In contrast to rat islets, the sustained second phase of insulin secretion from mouse islets was minimal regardless of the nutrient secretagogue used. This anomalous response of mouse islets as compared with rat islets could not be ascribed to any obvious difference in the glucose usage rate or insulin content between these 2 species. Glucose, KIC, or MP stimulated significant increases in 3H-inositol phosphates in rat islets. Significantly smaller increases were measured in mouse islets. Comparative Western blot analyses showed pronounced species differences in the expression of phospholipase Cbeta1 (PLCbeta1), PLCbeta2, PLCbeta3, and PLCdelta1 but not PLCgamma1 or protein kinase Calpha (PKCalpha) between rat and mouse islets. PLCbeta4 or PLCdelta2 could not be identified in either species. These findings are consistent with the concept that the underexpression of the nutrient-activated PLC isozyme may account for the minimal inositol phosphate (IP) and second-phase insulin secretory response from mouse islets.
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PMID:Insulin secretion, inositol phosphate levels, and phospholipase C isozymes in rodent pancreatic islets. 1101 97

Endothelins (ETs) are a family of 21-amino acid hypertensive peptides, which together with their receptors ETA and ETB are expressed in human adrenal cortex. Evidence has been provided that ETs exert a potent secretagogue effect on human adrenocortical cells, acting through both ETA and ETB receptors. Therefore, it seemed worthwhile to study the signaling cascades mediating the cortisol secretagogue effect of the two receptor subtypes. Normal adrenal glands were obtained from consenting patients undergoing unilateral nephrectomy with ipsilateral adrenalectomy for renal cancer. Dispersed zona fasciculata-reticularis (ZF/R) cells were obtained by collagenase digestion and mechanical disaggregation. The selective activation of ETA and ETB receptors was obtained by exposing dispersed cells to ET-1 plus the ETB receptor antagonist BQ-788 and to the selective ETB receptor agonist BQ-3020, respectively. ETA and ETB receptors about equally contributed to the cortisol response of dispersed ZF/R cells to ETs. The phospholipase (PL) C inhibitor U-73122 abolished ETA-mediated secretory response, but only partially prevented the ETB-mediated one. The phosphatidylinositol 3-kinase inhibitor wortmannin and the protein kinase (PK) C inhibitor calphostin-C significantly blunted the secretory responses ensuing from the activation of both receptor subtypes, while the Ca(2+)-channel blocker nifedipine was ineffective. The ETB receptor-, but not the ETA receptor-mediated cortisol response was partially reversed by the cyclooxygenase (COX) inhibitor indomethacin, which when added together with U-73122 abolished it. The inhibitors of adenylate cyclase, PKA, tyrosine kinase and lipoxygenase did not affect the secretory response to the activation of either receptor subtype. ETA-receptor activation raised inositol triphosphate (IP3) production from dispersed ZF/R cells, while ETB-receptor stimulation enhanced both IP3 and prostaglandin-E(2) production. Collectively, our findings indicate that ETs stimulate cortisol secretion from human ZF/R cells, acting through ETA receptors exclusively coupled with PLC/PKC-dependent pathway and ETB receptors coupled with both PLC/PKC- and COX-dependent cascades.
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PMID:Signaling pathways involved in the A and B receptor-mediated cortisol secretagogue effect of endothelins in the human adrenal cortex. 1117 11

Maintenance of methylation patterns in the mammalian genome by DNA (cytosine-5) methyltransferases (DNAMeTase) is required for normal cell and tissue function. Inhibition of DNAMeTase in cultured cells induces the expression of p21, a cyclin-dependent kinase (Cdk) inhibitor critical for cells to enter replicative senescence. We investigated the effects of DNAMeTase inhibition in normal human fibroblasts and found that it induces an irreversible growth arrest. Cells arrested by DNAMeTase inhibition became enlarged and had a flat morphology, exhibited an increased expression of collagenase and p21, and the DNA synthesis block could be overcome by the introduction of the SV40 large T antigen, all characteristics of senescent cells. In contrast, normal human fibroblasts lacking a functional p21 gene fail to undergo cell cycle arrest following DNAMeTase inhibition, indicating that p21 is an essential component of this arrest. Furthermore, DNAMeTase activity was reduced as cells approached the end of their proliferative potential. These data suggest that DNAMeTase could be an integral part of the mechanisms by which cells count the number of cell divisions completed and initiate a signaling cascade that ultimately results in the senescent phenotype.
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PMID:DNA methyltransferase inhibition in normal human fibroblasts induces a p21-dependent cell cycle withdrawal. 1125 5

Degradation of collagenous extracellular matrix by collagenase 1 (also known as matrix metalloproteinase 1 [MMP-1]) plays a role in the pathogenesis of various destructive disorders, such as rheumatoid arthritis, chronic ulcers, and tumor invasion and metastasis. Here, we have investigated the role of distinct mitogen-activated protein kinase (MAPK) pathways in the regulation of MMP-1 gene expression. The activation of the extracellular signal-regulated kinase 1 (ERK1)/ERK2 (designated ERK1,2) pathway by oncogenic Ras, constitutively active Raf-1, or phorbol ester resulted in potent stimulation of MMP-1 promoter activity and mRNA expression. In contrast, activation of stress-activated c-Jun N-terminal kinase and p38 pathways by expression of constitutively active mutants of Rac, transforming growth factor beta-activated kinase 1 (TAK1), MAPK kinase 3 (MKK3), or MKK6 or by treatment with arsenite or anisomycin did not alone markedly enhance MMP-1 promoter activity. Constitutively active MKK6 augmented Raf-1-mediated activation of the MMP-1 promoter, whereas active mutants of TAK1 and MKK3b potently inhibited the stimulatory effect of Raf-1. Activation of p38 MAPK by arsenite also potently abrogated stimulation of MMP-1 gene expression by constitutively active Ras and Raf-1 and by phorbol ester. Specific activation of p38alpha by adenovirus-delivered constitutively active MKK3b resulted in potent inhibition of the activity of ERK1,2 and its upstream activator MEK1,2. Furthermore, arsenite prevented phorbol ester-induced phosphorylation of ERK1,2 kinase-MEK1,2, and this effect was dependent on p38-mediated activation of protein phosphatase 1 (PP1) and PP2A. These results provide evidence that activation of signaling cascade MKK3-MKK3b-->p38alpha blocks the ERK1,2 pathway at the level of MEK1,2 via PP1-PP2A and inhibits the activation of MMP-1 gene expression.
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PMID:p38 mitogen-activated protein kinase-dependent activation of protein phosphatases 1 and 2A inhibits MEK1 and MEK2 activity and collagenase 1 (MMP-1) gene expression. 1125 86

We previously demonstrated the presence of an enhancer that is located between nucleotides - 2264 and - 2495 in the 5' flanking region of the rat sodium/iodide symporter (NIS) gene (Ohno et al., 1999). When attached to NIS or heterologous promoters, this 232 bp fragment, which we call NUE, is able to stimulate transcription in a thyroid-specific and cAMP-dependent manner. A paired-domain transcription factor Pax8 binds to this enhancer and can stimulate the transcription in non-thyroid cells that do not normally support the NUE activities. Cotransfection of PKA, a downstream effector of cAMP, further potentiates the Pax8-mediated transactivation. However, this transcriptional machinery containing pax8 seems to require contributions from the neighboring cis-acting element that is similar to CRE/AP-1 consensus sequences. Modification of this putative CRE/AP-1 site not only represses the NUE transcriptional activities by 90% in FRTL-5 cells, but also nullifies the synergistic effect of PKA on pax8-mediated transactivation in HeLa cells. In this report, we have further characterized the putative CRE/AP-1 site within the NIS upstream enhancer using gel mobility shift assay. An oligonucleotide probe with NIS CRE/AP-1 sequence produced complex binding patterns in both FRTL-5 and HeLa cell, reflecting the presence of diverse classes of binding factors. When compared with CRE or AP-1 elements in other genes, the mobility shift pattern of NIS CRE/AP-1 was similar to those of collagenase TRE, c-Jun TRE, and somatostatin CRE, but the relative intensities of the binding complexes were quite different. This observation raises a possibility that the NIS CRE/AP-site is regulated by a novel mechanism.
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PMID:Characterization of the upstream enhancer of the rat sodium/iodide symporter gene. 1157 34

In tuberculosis, matrix metalloproteinase (MMP) secretion is involved in leukocyte migration to sites of infection but in excess may contribute to tissue destruction. We demonstrate that human monocytic THP-1 cells and primary monocytes secrete MMP-1 (52 kD collagenase) when phagocytosing live, virulent M. tuberculosis but not inert latex. The magnitude of MMP-1 secretion was approximately 10-fold less when compared to MMP-9 (92 kD gelatinase) secretion. MMP-1 secretion was also relatively delayed (detected at 24 h vs. 4 h). M. tuberculosis, zymosan or latex stimulate similar TIMP-1 secretion within 8 h and increasing over 24 h. MMP-1/9 secretion was decreased by inhibitors of protein kinase (PK) C, PKA or tyrosine kinases (PTK) in a concentration-dependent manner. In contrast, TIMP-1 secretion was not affected by PKC or PTK blockade and only somewhat reduced by high level PKA inhibition. In summary, M. tuberculosis-infected monocytes secrete MMP-1 at lower concentrations than MMP-9 and such MMP secretion is regulated by multiple upstream signalling pathways which do not control TIMP-1 secretion. Divergent effects of i on MMP and TIMP secretion from monocytes may be important in influencing matrix degradation in vivo.
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PMID:Differential regulation of MMP-1/9 and TIMP-1 secretion in human monocytic cells in response to Mycobacterium tuberculosis. 1182 97

Recently, increasing evidence suggests that alpha inhibin or related proteins may be a functional regulator in the ovary, which is independent of hetero-dimer inhibin. In our previous study, it was demonstrated that human inhibin alpha-N-terminal fragment Tyr-1-32 (P(33)) significantly inhibited progesterone production by rat corpus luteal cells in vitro, and stimulated luteal functional regression and apoptosis in vivo. In the present work, the action of P(33) on apoptosis was further studied in vitro in cultured rat CL cells. Gel electrophoretic analysis for detection of oligonucleosomal DNA fragmentation, AO-EB or PI assays and flow cytometry were used to observe the action of P(33) on the occurrence of spontaneous apoptosis by collagenase-DNase dispersed CL cells, obtained from PMSG-hCG induced pseudopregnant rats. The results showed that P(33) (1 microg/ml) stimulated spontaneous apoptosis of CL cells. The inhibitor of tyrosine protein kinase, genistein (50 microg/ml),inhibited P(33) enhanced spontaneous apoptosis. RNA and protein synthesis inhibitors cycloheximide (Cyx,50 microg/ml) and actinomycin D(Act D,50 microg/ml) did not protect the cells from apoptosis stimulated by P(33). The results suggest that P(33) stimulates spontaneous apoptosis in cultured rat CL cells with the involvement of tyrosine specific protein kinase system. This work provides further evidence for the hypothesis that alpha inhibin or related protein might be a functional regulator in the ovary.
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PMID:[Effect of human inhibin alpha-fragment 1-32-Tyr(P33) on apoptosis of cultured rat corpus luteal cells]. 1197 81

Elastin peptides, such as kappa-elastin (kE), bind to the elastin receptor at the cell surface of human dermal fibroblasts and stimulate collagenase-1 expression at the gene and protein levels. Using specific inhibitors and phosphospecific antibodies, we show here that the binding of elastin peptides to their receptor activates the extracellular signal-regulated kinase (ERK) pathway; this activation is essential for the induction of pro-collagenase-1 production. Moreover, protein kinase A (PKA) and phosphatidylinositol 3-kinase (PI(3)K) signaling were found to participate in ERK activation. Concomitantly, we demonstrate that stimulation by elastin peptides leads to enhanced DNA binding of activator protein-1 (AP-1). Our data indicate that the up-regulation of collagenase-1 following treatment of fibroblasts with elastin peptides results from a cross-talk between PKA, PI(3)K and the ERK signaling pathways and that this regulation is accompanied by activation of AP-1 transcription factors.
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PMID:The elastin peptides-mediated induction of pro-collagenase-1 production by human fibroblasts involves activation of MEK/ERK pathway via PKA- and PI(3)K-dependent signaling. 1213 66

Human skin is exposed to solar ultraviolet radiation. Ultraviolet radiation damages human skin and results in an old and wrinkled appearance, called photoaging. We have previously reported that molecular mechanisms by which ultraviolet light causes photoaging involve activation of growth factor and cytokine receptors in keratinocytes and dermal cells. They lead to downstream signal transduction through activation of mitogen-activated protein kinase (extracellular signal-regulated kinase, c-jun N-terminal protein kinase, and p38) pathways. These signaling pathways converge in the nucleus of cells to form an activated complex of transcription factor activator protein 1 (cFos/cJun), which induces matrix metalloproteinases that degrade skin connective tissue. In addition to cell surface receptor activation, generation of reactive oxygen species by ultraviolet radiation is believed to be critical in triggering mitogen-activated protein kinase pathways. We investigated the ability of (i) ultraviolet irradiation to generate reactive oxygen species in human skin in vivo; and (ii) genistein, which possesses both tyrosine kinase inhibitory and antioxidant activities, and n-acetyl cysteine, which can be converted into the endogenous antioxidant glutathione, to impair responses to ultraviolet light that eventuate in photoaging in human skin in vivo. Ultraviolet irradiation caused a rapid and significant increase in hydrogen peroxide levels in human skin in vivo. Pretreatment of human skin with genistein inhibited ultraviolet-induced epidermal growth factor receptor tyrosine kinase activity, whereas n-acetyl cysteine did not. Genistein inhibited ultraviolet induction of both extracellular signal-regulated kinase and cJun N-terminal protein kinase activities. n-Acetyl cysteine inhibited extracellular signal-regulated kinase but not cJun N-terminal protein kinase activation. Both genistein and n-acetyl cysteine prevented ultraviolet induction of cJun protein. Consistent with this, genistein and n-acetyl cysteine blocked ultraviolet induction of cJun-driven enzyme, collagenase. Neither genistein nor n-acetyl cysteine acted as sunscreens as they had no effect on ultraviolet-induced erythema. These data indicate that compounds similar to genistein and n-acetyl cysteine, which possess tyrosine kinase inhibitory and/or antioxidant activities, may prevent photoaging.
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PMID:Topical N-acetyl cysteine and genistein prevent ultraviolet-light-induced signaling that leads to photoaging in human skin in vivo. 1271 90

Prolactin (PRL) has long been implicated in Xenopus metamorphosis as an anti-metamorphic and/or juvenilizing hormone. Numerous studies showed that PRL could prevent effects of either endogenous or exogenous thyroid hormone (TH; T(3)). It has been shown that expression of matrix metalloproteinases (MMPs) is induced by TH during Xenopus metamorphosis. Direct in vivo evidence, however, for such anti-TH effects by PRL with respect to MMPs has not been available for the early phase of Xenopus development or metamorphosis. To understand the functional role of PRL, we investigated effects of PRL on Xenopus collagenase-3 (XCL3) and collagenase-4 (XCL4) expression in a cultured Xenopus laevis cell line, XL-177. Northern blot analysis demonstrated that XCL3 and XCL4 expression were not detected in control or T(3)-treated cells, but were differentially induced by PRL in a dose- and time-dependent fashion. Moreover, treatment with IL-1alpha as well as phorbol myristate acetate (PMA), a protein kinase C (PKC) activator, or H8, a protein kinase A (PKA) inhibitor, augmented PRL-induced collagenase expression, suggesting that multiple protein kinase pathways and cytokines may participate in PRL-induced collagenase expression. Interestingly, XCL3 expression could be induced in XL-177 cells by T(3), but only when co-cultured with prometamorphic Xenopus tadpole tails (stage 54/55), suggesting that the tails secrete a required intermediate signaling molecule(s) for T(3)-induced XCL3 expression. Taken together, these data demonstrate that XCL3 and XCL4 can be differentially induced by PRL and T(3) and further suggest that PRL is a candidate regulator of TH-independent collagenase expression during the organ/tissue remodeling which occurs in Xenopus development.
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PMID:Activity and expression of Xenopus laevis matrix metalloproteinases: identification of a novel role for the hormone prolactin in regulating collagenolysis in both amphibians and mammals. 1528 Oct 98


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