Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:2.7.11.13 (
protein kinase C
)
49,245
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The G-protein-coupled peptide YY (PYY)/neuropeptide Y Y1 receptor (Y1R) subtype is highly expressed in the proliferative zone of human colonic crypt epithelial cells but biochemical and biological support for growth effects have been lacking. Using a model gut epithelial cell system, we have stably expressed the human Y1R in IEC-6 cells and show that the Y1R does couple to mitogen-activated protein kinase (MAPK) phosphorylation and cell growth. This pathway uses pertussis-toxin-sensitive G-proteins and betagamma subunits, inhibited by co-transfected alpha-transducin. The Src-family tyrosine kinase inhibitor PP1, as well as specific inhibition of the epidermal growth factor receptor tyrosine kinase (
EGFR
TK) by PD153035, also blocks PYY stimulation of MAPK. This pathway further requires
protein kinase C
with
EGFR
TK inhibition blocking PYY-induced
protein kinase Cepsilon
(
PKCepsilon
) translocation to the cell membrane. Finally, we show that PYY stimulates growth in Y1R-expressing gut epithelial cells that is dependent on
EGFR
TK activity. These results demonstrate a novel pathway involving G(i)/G(o) protein,
EGFR
and
PKC
to activate MAPK. Further, they support a role for PYY and the Y1R in regulating growth in human colonic epithelium.
...
PMID:Peptide YY Y1 receptor activates mitogen-activated protein kinase and proliferation in gut epithelial cells via the epidermal growth factor receptor. 1097 Jul 76
Flavopiridol inhibits phosphokinases. Its activity is strongest on cyclin dependent kinases (cdk-1, -2, -4, -6, -7) and less on receptor tyrosine kinases (
EGFR
), receptor associates tyrosine kinases (pp60 Src) and on signal transducing kinases (
PKC
and Erk-1). Although the inhibiting activity of flavopiridol is strongest for cdk, the cytotoxic activity of flavopiridol is not limited to cycling cells. Resting cells are also killed. This fact suggests that inhibition of cdks involved in the control of cell cycle is not the only mechanism of action. Inhibition of cdk's with additional functions (i.e. involved in the control of transcription or function of proteins that do not control cell cycle) may contribute to the antitumoral effect. Moreover, direct and indirect inhibition of receptor activation (
EGFR
) and/or a direct inhibition of kinases (pp60 Src,
PKC
, Erk-1) involved in the signal transduction pathway could play a role in the antiproliferative activity of flavopiridol. From pharmacokinetic data in patients it can be concluded that the inhibitory activity (IC50) of flavopiridol on these kinases is in the range of concentrations that might be achieved intracellularly after systemic application of non-toxic doses of flavopiridol. However, no in situ data from flavopiridol treated cells have been published yet that prove that by inhibition of
EGFR
, pp60 Src,
PKC
and/or Erk-1 (in addition to inhibition of cdk's) flavopiridol is able to induce apoptosis. Thus many questions regarding the detailed mechanism of antitumoral action of flavopiridol are still open. For the design of protocols for future clinical studies this review covers the essential information available on the mechanism of antitumoral activity of flavopiridol. The characteristics of this antitumoral activity include: High rate of apoptosis, especially in leukemic cells; synergy with the antitumoral activity of many cytostatics; independence of its efficacy on pRb, p53 and Bcl-2 expression; lack of interference with the most frequent multidrug resistance proteins (P-glycoprotein and MRP-190); and a strong antiangiogenic activity. Based on these pharmacological data it can be concluded that flavopiridol could be therapeutically active in tumor patients: independent on the genetic status of their tumors or leukemias (i.e. mutations of the pRb and/or p53, amplification of bcl-2); in spite of drug resistance of their tumors induced by first line treatment (and caused by enhanced expression of multidrug resistance proteins); in combination with conventional chemotherapeutics preferentially given prior to flavopiridol; and due to a complex mechanism involving cytotoxicity on cycling and on resting tumor cells, apoptosis and antiangiogenic activity. In consequence, flavopiridol is a highly attractive, new antitumoral compound and deserves further elucidation of its clinical potency.
...
PMID:Mechanisms of action of flavopiridol. 1131 60
As a result of substantial advances in recent cancer biology, cell cycle regulation in the G1 phase has attracted a great deal of attention as a promising target for the research and treatment of cancer. Many of the important genes associated with G1 regulation have been shown to play a key role in proliferation, differentiation and oncogenic transformation and programmed cell death (apoptosis). Currently, a variety of "cytostatic" agents that affects G1 progression and/or G1/S transition are being evaluated in clinical trials. Flavopiridol is a potent inhibitor of cyclin-dependent kinases (CDKs). UCN-01 was originally found to be a
PKC
-selective protein kinase antagonist. More recent studies have revealed that this agent can also inhibit several CDKs and the checkpoint kinase CHK1. FR901228, MS-27-275 and SAHA are histone deacetylase inhibitors that induce changes in the transcription of specific genes via the hyperacetylation of histones. The proteasome inhibitor PS-341 disrupts the degradation process of intracellular proteins, including cell cycle regulatory proteins such as cyclins. R115777, SCH66336 and BMS-214662 are non-peptidic farnesyl transferase inhibitors that prevent p21 ras oncogene activation. Rapamycin derivative CCI-779 downregulates signals through S6 kinase and FRAP (FKBP-rapamycin associating protein), affecting the expression levels of mRNAs important for progression from G1 to S phase. 17-Allylaminogeldanamycin targets the Hsp-90 (heat shock protein-90) family of cellular chaperones regulating the function of signaling proteins. TNP-470 (AGM-1470), a fumagillin derivative shows antiangiogenic action through binding to MetAP-2 (methionine aminopeptidase-2). The antitumor sulfonamide E7070, causing a cellular accumulation in the G1 phase, has been shown to suppress the activation of CDK2 and cyclin E expression in HCT116 colorectal cancer cell line highly sensitive to the drug. With respect to several growth factor receptors such as
EGFR
, PDGFR, bFGFR and VEGFR, potent and specific inhibitors of receptor tyrosine kinases have been also examined as hopeful drug candidates. In this report, we review the current status of extensive efforts directed towards the discovery and development of new chemotherapeutic anticancer agents targeting cell cycle regulation in the G1 phase, with particular focus on the compounds undergoing clinical investigations.
...
PMID:Cell cycle regulation in the G1 phase: a promising target for the development of new chemotherapeutic anticancer agents. 1156 78
We have shown before that Na(+)/K(+)-ATPase acts as a signal transducer, through protein-protein interactions, in addition to being an ion pump. Interaction of ouabain with the enzyme of the intact cells causes activation of Src, transactivation of
EGFR
, and activation of the Ras/ERK1/2 cascade. To determine the role of
protein kinase C
(
PKC
) in this pathway, neonatal rat cardiac myocytes were exposed to ouabain and assayed for translocation/activation of
PKC
from cytosolic to particulate fractions. Ouabain caused rapid and sustained stimulation of this translocation, evidenced by the assay of Ca(2+)-dependent and Ca(2+)-independent
PKC
activities and by the immunoblot analysis of the alpha, delta, and epsilon isoforms of
PKC
. Dose-dependent stimulation of
PKC
translocation by ouabain (1-100 microm) was accompanied by no more than 50% inhibition of Na(+)/K(+)-ATPase and doubling of [Ca(2+)](i), changes that do not affect myocyte viability and are known to be associated with positive inotropic, but not toxic, effects of ouabain in rat cardiac ventricles. Ouabain-induced activation of ERK1/2 was blocked by
PKC
inhibitors calphostin C and chelerythrine. An inhibitor of phosphoinositide turnover in myocytes also antagonized ouabain-induced
PKC
translocation and ERK1/2 activation. These and previous findings indicate that ouabain-induced activation of
PKC
and Ras, each linked to Na(+)/K(+)-ATPase through Src/
EGFR
, are both required for the activation of ERK1/2. Ouabain-induced
PKC
translocation and ERK1/2 activation were dependent on the presence of Ca(2+) in the medium, suggesting that the signal-transducing and ion-pumping functions of Na(+)/K(+)-ATPase cooperate in activation of these protein kinases and the resulting regulation of contractility and growth of the cardiac myocyte.
...
PMID:Role of protein kinase C in the signal pathways that link Na+/K+-ATPase to ERK1/2. 1156 72
Heregulins are a group of growth factors that play diverse and critical roles in the signaling network of the human epidermal growth factor receptor (HER or
EGFR
) superfamily. Our earlier studies have shown that recombinant heregulinbeta1 (HRG) induces apoptosis in SKBr3 breast cancer cells that overexpress HER2. Here we report molecular mechanisms of HRG-induced apoptosis. HRG treatment of SKBr3 cells for 72 h decreased the level of Bcl-2 protein. HRG treatment led to degradation of poly (ADP-ribose) polymerase (PARP) and activated both caspase-9 and caspase-7. No significant activation of caspase-3, -6, or -8 was detected. Expression of exogenous caspase-7 by adenovirus-caspase-7 (Ad-casp-7) in SKBr3 cells resulted in apoptosis, which mimicked the effect of HRG treatment. Expression of exogenous caspase-7 had no impact on Bcl-2 expression, but promoted PARP degradation. Two highly selective inhibitors of
protein kinase C
(
PKC
), GF109203X (GF) and Ro318425 (Ro), significantly enhanced HRG-induced apoptosis as determined by flow cytometric analysis and DNA fragmentation assay. Accordingly, the
PKC
inhibitor GF further decreased the level of Bcl-2 protein and further degraded PARP in HRG-treated cells. Assay of
PKC
activity indicated that HRG activated
PKC
in SKBr3 cells, predominantly affecting the
PKCalpha
isoform. To confirm which
PKC
isoform(s) mediated potentiation of HRG-induced apoptosis, the profile of
PKC
isoforms was measured in SKBr3 cells. Five
PKC
isoforms,
PKCalpha
, PKCiota,
PKCzeta
, PKClambda, and
PKCdelta
as well as their receptors (RACK1) were expressed in this cell line. Treatment with
PKC
inhibitors GF and Ro decreased protein levels of both
PKCalpha
and
PKCdelta
at 24 h.
PKCalpha
levels were still depressed at 72 h. GF and Ro had little effect on the expression of other
PKC
isoforms. An inhibitor of classical
PKC
isoforms (Go6976) enhanced HRG-induced apoptosis, whereas the
PKCdelta
selective inhibitor rottlerin did not. As
PKCalpha
was the only classical isoform expressed in SKBr3 cells, the effect of Go6976 on HRG-induced apoptosis largely related to inhibition of
PKCalpha
. Constitutive expression of wild-type
PKCalpha
attenuated the apoptosis produced by HRG and GF. Consequently, HRG-induced apoptosis in SKBr3 cells appeared to involve down-regulation of Bcl-2 protein, activation of caspase-9 and caspase-7, and degradation of PARP. Inhibition of
PKC
function enhanced HRG-induced apoptosis, leading to synergistic down-regulation of Bcl-2 expression. Impairment of the
PKCalpha
isoform alone was sufficient to potentiate HRG-induced apoptosis.
...
PMID:Heregulin-induced apoptosis is mediated by down-regulation of Bcl-2 and activation of caspase-7 and is potentiated by impairment of protein kinase C alpha activity. 1178 40
Angiotensin II (Ang II) is a multifunctional hormone that influences the function of cardiovascular cells through a complex series of intracellular signaling events initiated by the interaction of Ang II with AT1 and AT2 receptors. AT1 receptor activation leads to cell growth, vascular contraction, inflammatory responses and salt and water retention, whereas AT2 receptors induce apoptosis, vasodilation and natriuresis. These effects are mediated via complex, interacting signaling pathways involving stimulation of PLC and Ca2+ mobilization; activation of PLD, PLA2,
PKC
, MAP kinases and NAD(P)H oxidase, and stimulation of gene transcription. In addition, Ang II activates many intracellular tyrosine kinases that play a role in growth signaling and inflammation, such as Src, Pyk2, p130Cas, FAK and JAK/STAT. These events may be direct or indirect via transactivation of tyrosine kinase receptors, including PDGFR,
EGFR
and IGFR. Ang II induces a multitude of actions in various tissues, and the signaling events following occupancy and activation of Ang receptors are tightly controlled and extremely complex. Alterations of these highly regulated signaling pathways may be pivotal in structural and functional abnormalities that underlie pathological processes in cardiovascular diseases such as cardiac hypertrophy, hypertension and atherosclerosis.
...
PMID:Recent advances in angiotensin II signaling. 1221 72
Butyrolactone I (BL) is a competitive inhibitor of ATP for binding and activation of cyclin-dependent kinases and is a potent inhibitor of cell cycle progression. Treatment of H460 human lung and SW480 human colon cancer cells with doses of BL that exceed the Ki for CDK inhibition but which are much lower than doses required to inhibit MAPK, PKA,
PKC
, or
EGFR
lead to a rapid significant reduction of endogenous p21 protein expression. BL-dependent inhibition of p21 expression appears to be p53-independent. BL-dependent p21 degradation was blocked by lactacystin, consistent with the hypothesis that there is accelerated p21 proteasomal degradation in the presence of BL. BL also inhibited the p53-dependent increase of p21 protein expression in cells exposed to the DNA damag-ing agent etoposide, and favored a greater G2/M arrest as compared to the non-BL exposed cells. BL accelerated the degradation of exogenously expressed p21 that was not observed with a C-terminal truncated form of p21. Degradation of exogenous p21 led to a shift to G2 accumulation in the cells exposed to BL. We conclude that BL has effects on the cell cycle beyond its role as a CDK inhibitor and can be used as a novel tool to study the mechanism of p21 degradation and the consequences towards p21- dependent checkpoints.
...
PMID:The cyclin-dependent kinase inhibitor butyrolactone is a potent inhibitor of p21 (WAF1/CIP1 expression). 1242 18
The action mechanisms of several chemopreventive agents derived from herbal medicine and edible plants have become attractive issues in cancer research. Tea is the most widely consumed beverage worldwide. Recently, the cancer chemopreventive actions of tea have been intensively investigated. It have been demonstrated that the active principles of tea were attributed to their tea polyphenols. Recently, tremendous progress has been made in elucidating the molecular mechanisms of cancer chemoprevention by tea and tea polyphenols. The suppression of various tumor biomarkers including growth factor receptor tyrosine kinases, cytokine receptor kinases, PI3K, phosphatases, ras, raf, MAPK cascades, N x FB, I x B kinase, PKA, PKB,
PKC
, c-jun, c-fos, c-myc, cdks, cyclins, and related transducing proteins by tea polyphenols has been studied in our laboratory and others. The I x B kinase (IKK) activity in LPS-activated murine macrophages (RAW 264.7 cells) was found to be inhibited by various tea polyphenols including (-) epigallocatechin-3-gallate (EGCG), theaflavin (TF-1), theaflavin-3-gallate (TF-2) and theaflavin-3,3'-digallate (TF-3). TF-3 inhibited IKK activity in activated macrophages more strongly than did the other tea polyphenols. TF-3 inhibited both IKK1 and IKK2 activity and prevented the degradation of I x B x and I x B x in activated macrophage cells. The results suggested that the inhibition of IKK activity by TF-3 and other tea polyphenols could occur by a direct effect on IKKs or on upstream events in the signal transduction pathway. TF-3 and other tea polyphenols blocked phosphorylation of IB from the cytosolic fraction, inhibited NFB activity and inhibited increases in inducible nitric oxide synthase levels in activated macrophage. TF-3 and other tea polyphenols also inhibited strongly the activities of xanthine oxidase, cyclooxygenase, EGF-receptor tyrosine kinase and
protein kinase C
. These results suggest that TF-3 and other tea polyphenols may exert their cancer chemoprevention through suppressing tumor promotion and inflammation by blocking signal transduction. The mechanisms of this inhibition may be due to the blockade of the mitogenic and differentiating signals through modulating
EGFR
function, MAPK cascades, NFkappaB activation as well as c-myc, c-jun and c-fos expression.
...
PMID:Cancer chemoprevention by tea polyphenols through modulating signal transduction pathways. 1243 85
Evidence from live cell bioassays shows that the flat mucosa from patients with colon cancer exhibits resistance to bile salt-induced apoptosis. Three independent cell lines derived from the colonic epithelial cell line HCT-116 were selected for resistance to bile salt-induced apoptosis. These cell lines were developed as tissue culture models of apoptosis resistance. Selection was carried out for resistance to apoptosis induced by sodium deoxycholate (NaDOC), the bile salt found in highest concentrations in human fecal water. Cultures of HCT-116 cells were serially passaged in the presence of increasing concentrations of NaDOC. The resulting apoptosis resistant cells were able to grow at concentrations of NaDOC (0.5 mM) that cause apoptosis in a few hours in unselected HCT-116 cells. These cells were then analyzed for changes in gene expression. Observations from cDNA microarray, 2-D gel electrophoresis/MALDI-mass spectroscopy, and confocal microscopy of immunofluorescently stained preparations indicated underexpression or overexpression of numerous genes at either the protein or mRNA level. Genes that may play a role in apoptosis and early stage carcinogenesis have been identified as upregulated in these cell lines, including Grp78, Bcl-2, NF-kappaB(p50), NF-kappaB(p65), thioredoxin peroxidase (peroxiredoxin) 2, peroxiredoxin 4, maspin, guanylate cyclase activating protein-1,
PKCzeta
,
EGFR
, Ras family members, PKA, PI(4,5)K, TRAF2 and BIRC1 (IAP protein). Under-expressed mRNAs included BNIP3, caspase-6, caspase-3 and serine protease 11. NF-kappaB was constitutively activated in all three resistant cell lines, and was responsible, in part, for the observed apoptosis resistance, determined using antisense oligonucleotide strategies. Molecular and cellular analyses of these resistant cell lines has suggested potential mechanisms by which apoptosis resistance may develop in the colonic epithelium in response to high concentrations of hydrophobic bile acids that are associated with a Western-style diet. These analyses provide the rationale for the development of hypothesis-driven intermediate biomarkers to assess colon cancer risk on an individual basis.
...
PMID:Development and molecular characterization of HCT-116 cell lines resistant to the tumor promoter and multiple stress-inducer, deoxycholate. 1250 30
Previous work has shown that phorbol esters modulate chemotaxis. Here, we demonstrate that
PKC
activation via phorbol 12-myristate 13-acetate (PMA) treatment of MDA-MB-231 cells inhibits EGF-induced cell spreading, the initial event of motility and chemotaxis. Of five
PKC
isoforms (alpha,iota,lambda,delta,and epsilon) identified in this cell line, PMA treatment only induced
PKCalpha
translocation from the cytosol to the membrane, an event that correlated with the development of the rounded morphology. Cell recovery was linked to
PKCalpha
downregulation in part via the proteasome pathway since treatment with MG101 in the presence of PMA did not lead to
PKCalpha
degradation and cell recovery. Co-immunoprecipitation and immunolocalization demonstrated that EGF co-localized with
PKCalpha
and
EGFR
, however, PMA did not abrogate
EGFR
transactivation. This work suggests that
PKCalpha
is the primary target of PMA acting as a transient negative regulator of cell spreading and motility in MDA-MB-231 breast cancer cells.
...
PMID:Protein kinase Calpha negatively regulates cell spreading and motility in MDA-MB-231 human breast cancer cells downstream of epidermal growth factor receptor. 1287 87
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