EC:2.7.10.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II (Ang II) exerts a potent growth stimulus on the heart and vascular wall. Activation of the Janus kinase/signal transducer and activator of transcription (JAK/STAT) intracellular signaling pathway by Ang II mediates at least some of the mitogenic responses to this hormone. In other signaling systems that use the JAK/STAT pathway, proteins of the suppressor of cytokine signaling (SOCS) family participate in signal regulation. In the present study it is demonstrated that SOCS3 is constitutively expressed at a low level in rat heart and neonatal rat ventricular myocytes. Ang II at a physiological concentration enhances the expression of SOCS3 mRNA and protein, mainly via AT1 receptors. After induction, SOCS3 associates with JAK2 and impairs further activation of the JAK2/STAT1 pathway. Pretreatment of rats with a specific phosphorthioate antisense oligonucleotide to SOCS3, reverses the desensitization to angiotensin signaling, as detected by a fall in c-Jun expression after repetitive infusions of the hormone. Thus, SOCS3 is induced by Ang II in rat heart and neonatal rat ventricular myocytes and participates in the modulation of the signal generated by this hormone.
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PMID:Suppressor of cytokine signaling 3 is induced by angiotensin II in heart and isolated cardiomyocytes, and participates in desensitization. 1296 61

We demonstrated that enhancement of X-ray-induced apoptosis/rapid cell death by wortmannin accompanied by increased activation of JNK/SAPK in human leukemia MOLT-4 cells. Rapid cell death/apoptosis was determined either by the dye exclusion test or by the appearance of Annexin V-positive cells and cleaved PARP fragments. Enhancement was observed only at higher concentrations of wortmannin, i.e. 1 microM or more. At these high concentrations, both DNA-PK and ATM were inhibited. X-ray-induced phosphorylation of Ser 15 of p53/TP53, accumulation of both p53/TP53 and p21/WAF1/CDKN1A, and phosphorylation of XRCC4 were all suppressed. The enhancement of apoptosis/rapid cell death by wortmannin was prevented by addition of caspase inhibitors, Z-VAD-FMK or Ac-DEVD-CHO, or by transfection and overexpression of mouse Bcl2, which is known as an anti-apoptosis protein. The requirement for a high concentration of wortmannin, i.e. 1 microM or more, indicates that inhibition of both DNA-PK and ATM was necessary for the enhanced apoptosis/rapid cell death. Phosphorylation of AKT/PKB was completely suppressed at a much lower concentration, i.e. 0.1 microM wortmannin, where no enhancement of X-ray-induced apoptosis/rapid cell death was observed. On the other hand, X-ray-induced phosphorylation of JNK and its kinase activity as well as apoptosis/rapid cell death were all significantly enhanced only at high concentrations of wortmannin, i.e. 1 microM or more. Furthermore, the extent of enhancement of both JNK phosphorylation and of apoptosis/rapid cell death by wortmannin was less in Rh1a cells, which are ceramide- and radiation-resistant variant cells compared to the parental MOLT-4 cells. Therefore, activation of the JNK pathway was considered important for the enhancement of X-ray-induced apoptosis/rapid cell death of MOLT-4 cells by wortmannin, because of the requirement for a higher concentration of wortmannin than that required for inhibition of AKT phosphorylation. The suppression of the AKT-dependent pathway by wortmannin may have some underlying role in activating the JNK pathway toward the enhancement of cell death in the current system.
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PMID:Wortmannin-enhanced X-ray-induced apoptosis of human T-cell leukemia MOLT-4 cells possibly through the JNK/SAPK pathway. 1296 28

The tumor suppressor phosphatase and tensin homologue deleted from chromosome 10 (PTEN) gene is a negative regulator of the phosphatidylinositol-3-kinase (PI3K)/protein kinase B (Akt/PKB) signaling pathway. Overexpression of PTEN in cancer cells results in cell-cycle arrest and cell death through inhibition of PI3K. Caffeine, a xanthine analogue, is well known to enhance the cytocidal and growth-inhibitory effects of DNA-damaging agents such as radiation, UV light, and anticancer agents on tumor cells by abrogating DNA-damage checkpoints through inhibition of ataxia-telangiectasia-mutated (ATM), and ATM and Rad3-related (ATR) kinase activity. In this study, we demonstrate that treatment with a combination of adenovirus-mediated transfer of PTEN (Ad-PTEN) and caffeine synergistically suppressed cell growth and induced apoptosis in colorectal cancer cells but not in normal colorectal fibroblast cells. This synergistic effect was induced through abrogation of G(2)/M arrest, downregulation of the Akt pathway, and modulation of the p44/42MAPK pathway. Thus, combined treatment with Ad-PTEN and caffeine is a potential therapy for colorectal cancer.
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PMID:Adenovirus-mediated PTEN treatment combined with caffeine produces a synergistic therapeutic effect in colorectal cancer cells. 1460 66

We established 2 novel human cell lines (GCCOT-1, GCCRK) from glassy cell carcinoma. Both cell lines showed dual tendencies of glandular and squamous differentiation, and thus possess the characteristics resembling reserve cells, the putative origin of most carcinomas arising from the uterine cervix. HPV type 18 DNA including E6-E7, which is commonly found in cell types other than squamous cell carcinoma of uterine cervix, was detected in both cell lines. We analyzed gene copy number alterations of the 2 cell lines using conventional comparative genomic hybridization (CGH) coupled with array-based CGH. Among the putative oncogenes demonstrating copy number gain in both cell lines, FGR(SRC2) at 1p36.2-1 and LAMC2 at 1q25-31 have not been reported to show amplification in previous analyses of conventional cervical cell lines. These oncogenes are thus speculated to be directly associated with oncogenesis of glassy cell carcinoma. On the other hand, among the putative suppressor genes demonstrating copy number loss in both cell lines, the 9q region, ATM at 11q22.3, and CYLD at 16q12-13 have not been reported to show loss in conventional cervical cancer cell lines. These sites are speculated to be important as tumor suppressors directly associated with oncogenesis of glassy cell carcinoma. This study suggests for the first time that together with the presence of HPV type 18, alterations at the above sites are closely associated with oncogenesis of glassy cell carcinoma, a special type of carcinoma in the uterine cervix.
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PMID:Conventional and array-based comparative genomic hybridization analyses of novel cell lines harboring HPV18 from glassy cell carcinoma of the uterine cervix. 1501 Aug 38

We have shown recently that DNA damage effector kinase Chk1 is phosphorylated in vitro by protein kinase B/Akt (PKB/Akt) on serine 280. Activation of Chk1 by DNA damage in vivo is suppressed in presence of activated PKB. In this study we show that Chk1 is phosphorylated by PKB in vivo, and that increased phosphorylation by PKB on serine 280 correlates with impairment of Chk1 activation by DNA damage. Our results indicate a likely mechanism for the negative effects that phosphorylation of serine 280 has on activation of Chk1. The Chk1 protein phosphorylated by PKB on serine 280 does not enter into protein complexes after replication arrest. Moreover, Chk1 phosphorylated by PKB fails to undergo activating phosphorylation on serine 345 by ATM/ATR. Phosphorylation by ATM/ATR and association with other checkpoint proteins are essential steps in activation of Chk1. Inhibition of these steps provides a plausible explanation for the observed attenuation of Chk1 activation by activated PKB after DNA damage.
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PMID:Inhibition of Chk1 by activated PKB/Akt. 1510 5

Multiple pathways are involved in maintaining the genetic integrity of a cell after its exposure to ionizing radiation. Although repair mechanisms such as homologous recombination and nonhomologous end-joining are important mammalian responses to double-strand DNA damage, cell cycle regulation is perhaps the most important determinant of ionizing radiation sensitivity. A common cellular response to DNA-damaging agents is the activation of cell cycle checkpoints. The DNA damage induced by ionizing radiation initiates signals that can ultimately activate either temporary checkpoints that permit time for genetic repair or irreversible growth arrest that results in cell death (necrosis or apoptosis). Such checkpoint activation constitutes an integrated response that involves sensor (RAD, BRCA, NBS1), transducer (ATM, CHK), and effector (p53, p21, CDK) genes. One of the key proteins in the checkpoint pathways is the tumor suppressor gene p53, which coordinates DNA repair with cell cycle progression and apoptosis. Specifically, in addition to other mediators of the checkpoint response (CHK kinases, p21), p53 mediates the two major DNA damage-dependent cellular checkpoints, one at the G(1)-S transition and the other at the G(2)-M transition, although the influence on the former process is more direct and significant. The cell cycle phase also determines a cell's relative radiosensitivity, with cells being most radiosensitive in the G(2)-M phase, less sensitive in the G(1) phase, and least sensitive during the latter part of the S phase. This understanding has, therefore, led to the realization that one way in which chemotherapy and fractionated radiotherapy may work better is by partial synchronization of cells in the most radiosensitive phase of the cell cycle. We describe how cell cycle and DNA damage checkpoint control relates to exposure to ionizing radiation.
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PMID:Role of cell cycle in mediating sensitivity to radiotherapy. 1523 26

Direct stretch of beta1 integrin activates an outwardly rectifying, tamoxifen-sensitive Cl(-) current (Cl(-) SAC) via focal adhesion kinase (FAK) and/or Src. The characteristics of Cl(-) SAC resemble those of the volume-sensitive Cl(-) current, I(Cl,swell). Because myocyte stretch releases angiotensin II (AngII), which binds AT1 receptors (AT1R) and stimulates FAK and Src in an autocrine-paracrine loop, we tested whether AT1R and their downstream signaling cascade participate in mechanotransduction. Paramagnetic beads coated with mAb for beta1-integrin were applied to myocytes and pulled upward with an electromagnet while recording whole-cell anion current. Losartan (5 microM), an AT1R competitive antagonist, blocked Cl(-) SAC but did not significantly alter the background Cl(-) current in the absence of integrin stretch. AT1R signaling is mediated largely by H(2)O(2) produced from superoxide generated by sarcolemmal NADPH oxidase. Diphenyleneiodonium (DPI, 60 microM), a potent NADPH oxidase inhibitor, rapidly and completely blocked both Cl(-) SAC elicited by stretch and the background Cl(-) current. A structurally unrelated NADPH oxidase inhibitor, 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF, 0.5 and 2 mM), also rapidly and completely blocked Cl(-) SAC as well as a large fraction of the background Cl(-) current. With continuing integrin stretch, Cl(-) SAC recovered upon washout of AEBSF (2 mM). In the absence of stretch, exogenous AngII (5 nM) activated an outwardly rectifying Cl(-) current that was rapidly and completely blocked by DPI (60 microM). Moreover, exogenous H(2)O(2) (10, 100, and 500 microM), the eventual product of NADPH oxidase activity, also activated Cl(-) SAC in the absence of stretch, whereas catalase (1,000 U/ml), an H(2)O(2) scavenger, attenuated the response to stretch. Application of H(2)O(2) during NADPH oxidase inhibition by either DPI (60 microM) or AEBSF (0.5 mM) did not fully reactivate Cl(-) SAC, however. These results suggest that stretch of beta1-integrin in cardiac myocytes elicits Cl(-) SAC by activating AT1R and NADPH oxidase and, thereby, producing reactive oxygen species. In addition, NADPH oxidase may be intimately coupled to the channel responsible for Cl(-) SAC, providing a second regulatory pathway.
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PMID:Angiotensin II (AT1) receptors and NADPH oxidase regulate Cl- current elicited by beta1 integrin stretch in rabbit ventricular myocytes. 1533 22

Tumors expressing the ABL oncoproteins (BCR/ABL, TEL/ABL, v-ABL) can avoid apoptosis triggered by DNA damaging agents. The tumor suppressor protein p53 is an important activator of apoptosis in normal cells; conversely its functional loss may cause drug resistance. The ABL oncoprotein-p53 paradigm represents the relationship between an oncogenic tyrosine kinase and a tumor suppressor gene. Here we show that BCR/ABL oncoproteins employ p53 to induce resistance to DNA damage in myeloid leukemia cells. Cells transformed by the ABL oncoproteins displayed accumulation of p53 upon DNA damage. In contrast, only a modest increase of p53 expression followed by activation of caspase-3 were detected in normal cells expressing endogenous c-ABL. Phosphatidylinositol-3 kinase-like protein kinases (ATR and also ATM) -dependent phosphorylation of p53-Ser15 residue was associated with the accumulation of p53, and stimulation of p21(Waf-1) and GADD45, resulting in G(2)/M delay in BCR/ABL cells after genotoxic treatment. Inhibition of p53 by siRNA or by the temperature-sensitive mutation reduced G(2)/M accumulation and drug resistance of BCR/ABL cells. In conclusion, accumulation of the p53 protein contributed to prolonged G(2)/M checkpoint activation and drug resistance in myeloid cells expressing the BCR/ABL oncoproteins.
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PMID:BCR/ABL recruits p53 tumor suppressor protein to induce drug resistance. 1549 10

The gene mutated in ataxia telangiectasia, ATM, has been implicated in several cell functions such as cell cycle control and response to DNA damage and insulin. PKB/Akt has also been implicated in the cellular response to insulin, gamma-radiation, and cell cycle control. Interestingly, lack of PKB/Akt function in vivo is able to mimic some phenotypic abnormalities associated with ataxia telangiectasia (AT). Here we show that ATM is a major determinant of full PKB/Akt activation in response to insulin or gamma-radiation. This effect is mediated through the phosphatidylinositol 3-kinase domain of ATM that specifically affects Akt serine 473 phosphorylation. This conclusion was inferred from the results obtained in transient transfection assays using exogenous PKB/Akt and ATM in Cos cells. Moreover, the use of ATM inhibitors or small interfering RNA confirmed our observation. Further supporting these results, we also observed that biological responses tightly regulated by Akt, such as transcription factor of the forkhead family activity after insulin treatment or gamma-radiation response, were altered in cell lines derived from AT patients and knockout mice for ATM in which phosphorylation in serine 473 was almost abolished. This study proposes new clues in the search of the unknown PDK2 and new explanations for the radiosensitivity or insulin intolerance described more than 30 years ago in AT patients.
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PMID:Full activation of PKB/Akt in response to insulin or ionizing radiation is mediated through ATM. 1554 63

Hyperglycemia was reported to enhance angiotensin (Ang) II generation in rat cardiomyocytes, and Ang II inhibition reduces cardiovascular morbidity and mortality in diabetic patients. In diabetic patients, the enhanced activation of intracellular pathways related with myocyte hypertrophy and gene expression might enhance the progression of cardiac damage. Therefore, we investigated the effects of glucose on Ang II-mediated activation of Janus-activated kinase (JAK)-2, a tyrosine kinase related with myocyte hypertrophy and cytokine and fibrogenetic growth factor overexpression, in ventricular myocytes isolated from nonfailing human hearts (n = 5) and failing human hearts (n = 8). In nonfailing myocytes, JAK2 phosphorylation was enhanced by Ang II only in the presence of high glucose (25 mmol/l) via Ang II type I (AT1) receptors (+79% vs. normal glucose, P < 0.05). JAK2 activation was prevented by inhibitors of reactive oxygen species (ROS) generation (diphenyleneiodonium [DPI], tiron, and apocynin). In myocytes isolated from failing hearts, JAK2 phosphorylation was enhanced by high glucose alone (+107%, P < 0.05). High glucose-induced JAK2 activation was blunted by both ACE inhibition (100 nmol/l ramipril) and AT1 antagonism (1 mumol/l valsartan), thus revealing that the effects are mediated by autocrine Ang II production. Inhibition of ROS generation also prevented high glucose-induced JAK2 phosphorylation. In conclusion, in human nonfailing myocytes, high glucose allows Ang II to activate JAK2 signaling, whereas in failing myocytes, hyperglycemia alone is able to induce Ang II generation, which in turn activates JAK2 via enhanced oxidative stress.
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PMID:Hyperglycemia activates JAK2 signaling pathway in human failing myocytes via angiotensin II-mediated oxidative stress. 1567 97

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