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)

Transforming growth factor beta (TGF beta) inhibits the proliferation of a wide range of cell types through interaction with its cell surface receptor (R-TGF beta). R-TGF beta possesses serine/threonine kinase activity rather than the tyrosine kinase activity normally associated with peptide growth factor receptors; nevertheless, TGF beta triggers a signaling pathway that leads to the repression of transcription factors, which appear to mediate the action of receptor tyrosine kinases within the nucleus. Accumulating evidence has also shown that the nonreceptor protein tyrosine kinases of the Src family play essential roles in the signal transduction pathways that regulate cell proliferation, differentiation, and function. Here, we investigate whether signals initiated by R-TGF beta are transduced, at least in part, through members of the Src family of tyrosine kinases. Treatment of the responsive human prostate carcinoma cell line PC3 with TGF beta induces a rapid and specific decrease in cellular levels of pp60Src and pp53/56Lyn and a corresponding decrease in their protein kinase activity when the assays were performed in vitro using the exogenous substrate enolase. Consistent with suppression of pp60Src and pp53/56Lyn kinase activity, TGF beta also caused a substantial intracellular accumulation of the unphosphorylated form of SH2-containing protein (SHC), a substrate of the Src family kinases. This was paralleled by decreased formation of a complex between the adaptor protein known as growth factor receptor-bound protein 2 and SHC. These results suggest, for the first time, that TGF beta induces down-regulation of Src family kinases, leading to disruption of the SHC-growth factor receptor-bound protein 2 complex. These events may play a crucial role in the negative regulation of Ras, as well as in the control of downstream effector molecules involved in the regulation of cell growth.
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PMID:Transforming growth factor beta down-regulates Src family protein tyrosine kinase signaling pathways. 752 36

In the short term (< 2 h), proinsulin biosynthesis is predominately glucose regulated at the translational level; however, the details at the molecular level behind this mechanism are not well defined. One of the major hindrances for gaining a better understanding of the proinsulin biosynthetic mechanism has been a lack of an abundant source of beta-cells that express a phenotype of regulated proinsulin biosynthesis in the appropriate 2.8-16.7 mmol/l glucose range as defined in normal pancreatic islets. In this study, we demonstrate that in the MIN6 cell line, specific glucose-regulated translational control of proinsulin biosynthesis is present in the appropriate glucose concentration range. In addition to that of proinsulin, the biosynthesis of the two proinsulin conversion endopeptidases, PC2 and PC3, was coordinately glucose regulated in MIN6 cells, whereas that of the exopeptidase, carboxypeptidase H, was unaffected by glucose. Proinsulin, PC2 and PC3 biosynthesis was specifically stimulated over that of total MIN6 cell protein synthesis above a threshold of 4 mmol/l glucose that reached a maximum rate between 8 and 10 mmol/l glucose. Glucose-induced proinsulin, PC2, and PC3 biosynthesis was rapid (occurring after a 20-min lag period but reaching a maximum by 60 min), unaffected by the presence of actinomycin D; and in parallel experiments, stimulatory glucose concentrations did not alter MIN6 cell total preproinsulin, PC2, or PC3 mRNA levels. Thus, short-term (< 2 h) glucose stimulation of proinsulin, PC2 and PC3 biosynthesis in MIN6 cells, like that in isolated islets, was mediated at the translational level. Intracellular signals for mediating glucose-stimulated proinsulin PC2 and PC3 biosynthesis translation in MIN6 cells also appeared to be similar to those in pancreatic islets, requiring glucose metabolism and a supporting role for protein kinase A. However, protein kinase C or a Ca(2+)-dependent protein kinase did not appear to be required for glucose-regulated proinsulin biosynthesis in MIN6 cells, as in islets. MIN6 cells are the first beta-cell line that indicate glucose-regulated proinsulin biosynthesis translation essentially identical to that in differentiated islet beta-cells and will be an important experimental model to better define the mechanism of proinsulin biosynthesis in detail.
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PMID:Glucose-regulated translational control of proinsulin biosynthesis with that of the proinsulin endopeptidases PC2 and PC3 in the insulin-producing MIN6 cell line. 852 57

We investigated the effect of protein kinase and phosphatase inhibitors on the growth of six human prostatic cancer cell lines: DU145, PC3, ND1, LNCaP, ALVA31 and JCA1. We studied okadaic acid and sodium orthovanadate as serine/threonine and tyrosine protein phosphatase inhibitors, respectively, and staurosporin and genistein as a serine/threonine and tyrosine protein kinase inhibitors, respectively. All inhibitors examined exhibited a dose-dependent growth inhibitory effect on prostatic cancer cell lines. Our data indicate that prostatic cancer cell lines express unique biochemical properties since the degree of growth inhibition varied greatly and was dependent on the specific cell line and inhibitor studied. In addition, we found that surface expression of endoglin (CD105) changed by treatment with all inhibitors in most of the cell lines. These data also indicate that endoglin appears to be involved both in protein phosphatase and kinase mediated phosphoprotein turnover.
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PMID:Differential sensitivity of human prostatic cancer cell lines to the effects of protein kinase and phosphatase inhibitors. 852 97

The prostate gland from several animal species contains variable levels of muscarinic subtypes, but only the human prostate expresses significant levels of the m1 subtype. We studied muscarinic receptor activity in human benign prostatic hypertrophy (BPH) as well as several cell lines derived from prostate cancer. The BPH we studied expresses approximately 75% of the m1 receptor and undetectable levels of the other receptor subtypes whereas PC3 cells express only the m3 receptor subtype. DU145 and LnCaP cells express approximately equal levels of m1 and m3 receptor subtypes. Only the PC3 cells responded to carbachol with an increase in turnover of polyphosphoinositides, and none of the cell lines responded with effects on cAMP metabolism. Co-precipitation of receptors with heterotrimeric guanine nucleotide-binding regulatory proteins demonstrated interactions of the m1 receptors with Gi, Gq and G16 in BPH tissue and of the m1 and m3 receptors with Gi, Gq and G12 in PC3 and DU145 cells. Mitogen activated protein kinase (ERK) activity was seen in response to carbachol in PC3 and DU145 but not LnCaP cells. Finally, carbachol promoted cell proliferation in all three cell lines. Thus, there appears to be no consistent relationship between ERK activity, cell proliferation, and the subtype mediating the proliferative response, amongst these prostate cancer cell lines.
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PMID:Role of m1 receptor-G protein coupling in cell proliferation in the prostate. 912 62

1Alpha,25-dihydroxyvitamin D3 (1,25 D), the most active metabolite of vitamin D3, exerts antiproliferative and prodifferentiating effects on some human prostate cancer cell lines. We previously reported an inverse relationship between functional vitamin D receptor (VDR) levels and antiproliferative response to 1,25 D in two human prostate cancer cell lines, LNCaP and ALVA 31. Although LNCaP cells are far more sensitive to growth inhibition by 1,25 D than ALVA 31 cells, LNCaP express approximately half the number of VDR as ALVA 31. Two other human prostate cancer cell lines studied, PC3 and DU145, express lower levels of functional VDR and are relatively insensitive to growth inhibition by 1,25 D. In this report, we investigated potential mechanisms of the variable antiproliferative activity of 1,25 D. In PC3 cells stably expressing VDR [PC3(VDR)] at levels comparable to LNCaP, 1,25 D treatment resulted in only moderate growth inhibition. These results further support the contention that VDR expression, although required, is not sufficient for maximal growth suppression by 1,25 D, as is exhibited by LNCaP cells. We did not detect 1,25 D-mediated DNA fragmentation after 4 days of 1,25 D treatment in either LNCaP or ALVA 31 cells. This result suggests that variability in 1,25 D sensitivity does not derive from differences in the capacity of these cells to undergo apoptosis in response to 1,25 D. Flow cytometry of propidium iodine-stained cells revealed that 48 h 1,25 D treatment of LNCaP cells resulted in a 2-fold decrease of cells in G2/M plus S phases and accumulation of LNCaP cells in the G1/G0 phase. This effect persisted for 72 h after 1,25 D removal. In contrast, 1,25 D did not significantly alter the cell cycle distribution of ALVA 31 or PC3(VDR) cells. Consistent with accumulation of cells in G1/G0, 1,25 D treatment of LNCaP cells resulted in decreased retinoblastoma protein phosphorylation, repressed E2F transcriptional activity, increased levels of the cyclin-dependent kinase (CDK) inhibitor p21(WAF1, CIP1), and decreased CDK2 activity. However, p21 messenger RNA levels were not altered, suggesting translational or posttranslational regulation of p21 by 1,25 D. In contrast, p21 was not detected in ALVA 31 or PC3(VDR) and was not induced by 1,25 D, consistent with the failure of 1,25 D to influence cell cycle distribution in these cells. These results suggest that variability in sensitivity to the antiproliferative effects of 1,25 D among prostate cancer cells is dependent, at least in part, on the integrity of the retinoblastoma pathway and in particular on p21 expression and 1,25 D regulation of CDK2 activity.
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PMID:Antiproliferative effect of 1alpha,25-dihydroxyvitamin D3 in human prostate cancer cell line LNCaP involves reduction of cyclin-dependent kinase 2 activity and persistent G1 accumulation. 949 54

Transcription of the prostate-specific antigen (PSA) gene escapes regulation by androgens in advanced prostate cancer. To determine the molecular mechanism(s) of androgen-independent regulation of the PSA gene, the possibility that the androgen receptor (AR) is activated in the absence of androgen by stimulation of protein kinase A (PKA) was investigated. Activation of PKA by forskolin resulted in elevated expression of the PSA gene in androgen-depleted LNCaP cells, an effect that was blocked by the antiandrogen, bicalutamide. Further evidence that induction of PSA gene expression was dependent on AR was obtained from experiments using PC3 cells devoid of AR. Neither PSA, PB, nor ARR3 androgen-responsive reporters could be induced by activation of PKA in the absence of transfected AR. In addition, when nuclear AR from forskolin-treated LNCaP cells was incubated with oligonucleotides encoding an androgen response element of the PSA promoter and examined by electromobility shift assay, an increase in AR-androgen response element complex formation was observed. Lastly, cotransfection of an expression vector for a chimeric protein encoding the amino-terminal domain of the human AR linked to Gal4 and a 5xGal4UAS reporter gene construct resulted in activation of the amino-terminal domain of the AR by stimulation of PKA activity. These results demonstrate androgen-independent induction of PSA gene expression in prostate cancer cells by an AR-dependent pathway.
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PMID:Androgen-independent induction of prostate-specific antigen gene expression via cross-talk between the androgen receptor and protein kinase A signal transduction pathways. 1007 69

Melatonin, secreted nocturnally by the pineal gland, can bind to human benign prostate epithelial cells and attenuate their growth and viability. In the present study, melatonin binding and responses were explored in the human steroid-independent PC3 prostatic tumor cells. PC3 cells bound 125I-melatonin with low affinity (Kd ca. 0.9 nM) at high as well as low cell density. Melatonin enhanced cGMP and 3H-thymidine incorporation at low, but attenuated them at high cell density. In addition, melatonin inhibited cAMP at low, but augmented it at high cell density. These effects were associated with an increase in cell count at low- but not high-density cultures. Pertussis toxin treatment suppressed 125I-melatonin binding and ablated all the effects of melatonin on 3H-thymidine incorporation, cAMP, and cGMP at both cell densities. Cholera toxin treatment failed to block the effects of melatonin on 3H-thymidine incorporation, but prevented the modulation by melatonin of cAMP at low and cGMP at high cell density. The cGMP analog 8-Br-cGMP, inhibited melatonin's effects on 3H-thymidine incorporation at both cell densities. H89, a protein kinase A inhibitor, prevented melatonin's effects on 3H-thymidine incorporation at low but not high cell density. These results provide the first demonstration of direct interaction of melatonin with hormone-insensitive prostate tumor cells. The melatonin receptors in the PC3 cells are coupled to pertussis toxin-sensitive G proteins to induce cell density-dependent changes in cGMP, cAMP, and cell growth.
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PMID:Melatonin receptors in PC3 human prostate tumor cells. 1034 Jul 23

Transcriptional activation of the p53 target genes plays a critical role in the cellular response to DNA damage, hypoxia, cellular stress and other signals regulating the cell cycle and apoptosis. The discovery of new p53 target genes continues to reveal novel mechanisms of action of this multifaceted protein. We used cDNA arrays to search for p53-regulated genes in prostate cancer cells. In this report, we describe robust induction of heat shock protein 27 (hsp27) in prostate cancer cells (DU145, LNCaP, PC3) following wild-type p53 expression from an adenoviral p53 expression vector (AdWTp53). A mutant p53 (R175H)-containing adenoviral expression vector did not induce hsp27. hsp27 expression was not altered in prostate cancer cells following expression of cyclin-dependent kinase inhibitors: p21(waf1/cip1) and p27(kip1) from adenoviral expression vectors. Treatment of cells with staurosporine, an apoptosis-inducing agent, did no affect hsp27 expression. These observations provide evidence that induction of hsp27 expression was wild-type p53-specific and was not due to non-specific effects of cell growth arrest and/or apoptosis. Previous studies and the experiment reported here show induction of hsp27 expression in response to androgen ablation, a physiological state that induces apoptosis in prostatic epithelial cells. The nature of p53 and hsp27 interactions in the regulation of apoptosis and/or cell growth needs to be further defined.
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PMID:p53-dependent induction of heat shock protein 27 (HSP27) expression. 1100 67

Interleukin-6 (IL-6) induces prostate cancer (CaP) cell proliferation in vitro. Several lines of evidence suggest that IL-6 may promote CaP progression through induction of an androgen response. In this work, we explored whether IL-6 induces androgen responsiveness through modulation of androgen receptor (AR) expression. We found that in the absence of androgen, IL-6 increased prostate-specific antigen (PSA) mRNA levels and activated several androgen-responsive promoters, but not the non-androgen responsive promoters in LNCaP cells. Bicalutamide, an antiandrogen, abolished the IL-6 effect and IL-6 could not activate the PSA and murine mammary tumor virus reporters in AR-negative DU-145 and PC3 cells. These data indicate the IL-6 induces an androgen response in CaP cells through the AR. Pretreatment of LNCaP cells with SB202190, PD98059, or tyrphostin AG879 [p38 mitogen-activated protein kinase (MAPK), MAP/extracellular signal-regulated protein kinase kinase 1/2, and ErbB2 MAPK inhibitors, respectively) but not wortmannin (PI3-kinase inhibitor) blocked IL-6-mediated induction of the PSA promoter, which demonstrates that IL-6 activity is dependent on a MAPK pathway. Finally, IL-6 activated the AR gene promoter, resulting in increased AR mRNA and protein levels in LNCaP cells. These results demonstrate that IL-6 induces AR expression and are the first report of cytokine-mediated induction of the AR promoter. Taken together, our results suggest that IL-6 induces AR activity through both increasing AR gene expression and activating the AR in the absence of androgen in CaP cells. These results provide a mechanism through which IL-6 may contribute to the development of androgen-independent CaP.
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PMID:Interleukin-6 induces androgen responsiveness in prostate cancer cells through up-regulation of androgen receptor expression. 1141 May 19

The intracellular signaling pathways mediating the nuclear exclusion of the androgen receptor (AR) by melatonin were evaluated in PC3 cells stably transfected with the AR. The melatonin-induced nuclear exclusion of the AR by melatonin (100 nM, 3 h) was blocked by LY 83583 (an inhibitor of guanylyl cyclases). 8-Bromo-cGMP (a cell-permeable cGMP analog), mimicked the effect of melatonin, as did ionomycin (a calcium ionophore) and PMA [an activator of protein kinase C (PKC)], and their effects were blocked by GF- 109203X (a selective PKC inhibitor). BAPTA (an intracellular calcium chelator) blocked the effects of melatonin and 8-bromo-cGMP but not of PMA. Inhibition or activation of the protein kinase A pathway did not affect basal or melatonin-mediated AR localization. We conclude that the melatonin-mediated rise in cGMP elicits AR nuclear exclusion via a pathway involving increased intracellular calcium and PKC activation. These results define a novel signaling pathway that regulates AR localization and androgen responses in target cells.
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PMID:Evaluation of signal transduction pathways mediating the nuclear exclusion of the androgen receptor by melatonin. 1181 62


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