EC:2.7.10.2 - FACTA Search

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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)

The present study investigates the molecular details of how arsenic trioxide inhibits preadipocyte differentiation and examines the role of Akt/PKB in regulation of differentiation and apoptosis. Continual exposure of arsenic trioxide, at the clinic achievable dosage that does not induce apoptosis, suppressed 3T3-L1 cell differentiation into fat cells by inhibiting the expression of PPARgamma and C/EBPalpha and disrupting the interaction between PPARgamma and RXRalpha, which determines the programming of the adipogenic genes. Interestingly, if we treated the cells for 12 or 24 h and then withdrew arsenic trioxide, the cells were able to differentiate to the comparable levels of untreated cells as assayed by the activity of GAPDH, the biochemical marker of preadipocyte differentiation. Long term treatment blocked the differentiation and the activity of GAPDH could not recover to the comparable levels of untreated cells. Continual exposure of arsenic trioxide caused accumulation in G2/M phase and the accumulation of p21. We found that arsenic trioxide induced the expression and the phosphorylation of Akt/PKB and it inhibited the interaction between Akt/PKB and PPARgamma . Akt/PKB inhibitor appears to block the arsenic trioxide suppression of differentiation. Our results suggested that Akt/PKB may play a role in suppression of apoptosis and negatively regulate preadipocyte differentiation.
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PMID:The role of Akt on arsenic trioxide suppression of 3T3-L1 preadipocyte differentiation. 1591 24

A time course study was performed to reveal the sequence of histopathology after Trichinella spiralis or T. pseudospiralis infection in mice. A cyst was formed in the former case by about 18 days post infection and prominent myopathy was restricted within the cyst. In the latter case, however, no typical cyst was formed, and myopathy spread diffusely over the infected muscle tissues occupying half the area of muscle sections. An electron microscope observation revealed that the disintegration of muscle cells was delayed in T. pseudospiralis infection than in T. spiralis infection. Quantitative reverse transcription polymerase chain reaction (RT-PCR) showed that apoptosis-related genes were expressed for a longer term in muscles infected with T. pseudospiralis than in those with T. spiralis, although the same spectrum of genes are mobilized. Examined apoptosis-related genes included tumor suppressor genes p53, p53; mouse double minute 2, MDM2; cyclin-dependent kinase inhibitor p21 (WAF1), p21(waf) ; Bcl-2 associated protein X, BAX; apoptotic protease activating factor 1, Apaf-1; Caspase 9 and serine/ threonine protein kinase, PKB. Micro-dissection of the infected muscle tissue and subsequent RT-PCR confirmed that the expressions of these genes are restricted to tissue with myopathy. Thus, the expression of the apoptosis-related genes correlated with continuous and diffuse myopathy caused by T. pseudospiralis infection.
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PMID:Trichinella pseudospiralis infection is characterized by more continuous and diffuse myopathy than T. spiralis infection. 1594 11

The ArfGAP paxillin kinase linker (PKL)/G protein-coupled receptor kinase-interacting protein (GIT)2 has been implicated in regulating cell spreading and motility through its transient recruitment of the p21-activated kinase (PAK) to focal adhesions. The Nck-PAK-PIX-PKL protein complex is recruited to focal adhesions by paxillin upon integrin engagement and Rac activation. In this report, we identify tyrosine-phosphorylated PKL as a protein that associates with the SH3-SH2 adaptor Nck, in a Src-dependent manner, after cell adhesion to fibronectin. Both cell adhesion and Rac activation stimulated PKL tyrosine phosphorylation. PKL is phosphorylated on tyrosine residues 286/392/592 by Src and/or FAK and these sites are required for PKL localization to focal adhesions and for paxillin binding. The absence of either FAK or Src-family kinases prevents PKL phosphorylation and suppresses localization of PKL but not GIT1 to focal adhesions after Rac activation. Expression of an activated FAK mutant in the absence of Src-family kinases partially restores PKL localization, suggesting that Src activation of FAK is required for PKL phosphorylation and localization. Overexpression of the nonphosphorylated GFP-PKL Triple YF mutant stimulates cell spreading and protrusiveness, similar to overexpression of a paxillin mutant that does not bind PKL, suggesting that failure to recruit PKL to focal adhesions interferes with normal cell spreading and motility.
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PMID:Src and FAK kinases cooperate to phosphorylate paxillin kinase linker, stimulate its focal adhesion localization, and regulate cell spreading and protrusiveness. 1600 Mar 75

FIP200 is a novel protein inhibitor for focal adhesion kinase (FAK), which binds to FAK directly and inhibits its kinase activity and associated cellular functions, such as cell adhesion, spreading, and motility in fibroblasts. Here we show that FIP200 inhibits G1-S phase progression, proliferation, and clonogenic survival in human breast cancer cells. Consistent with the G1 arrest induced by FIP200, we found that FIP200 increased p21 and decreased cyclin D1 protein levels in breast cancer cells. In addition, FIP200 significantly induced p21 promoter activity in MCF-7 cells and this response was abolished upon deletion of p53 binding sites within p21 promoter. Furthermore, we found that FIP200 could interact with exogenous and endogenous p53 protein and significantly increase its half-life compared with the control cells. We also found that the NH2-terminal 154 residues of FIP200 were sufficient to mediate p53 interaction and G1 arrest in cells. The increase in p53 half-life correlated with the increased phosphorylation at Ser15 and decreased proteasomal degradation via ubiquitin and Hdm2-independent mechanism. Stabilization of p53 by FIP200 could be partially reversed by NQO1 inhibitor, dicoumarol. In contrast to p53, FIP200 decreased cyclin D1 protein half-life by promoting proteasome-dependent degradation of cyclin D1. In summary, our results suggest that FIP200 increases p21 protein levels via stabilization of its upstream regulator p53 and decreases cyclin D1 protein by promoting its degradation. Both effects are critical for FIP200-induced G1 arrest and may contribute to the putative antitumor activities of FIP200 in breast cancer.
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PMID:Mechanism of cell cycle regulation by FIP200 in human breast cancer cells. 1606 48

Signal transducer and activator of transcription 3 (STAT3) has oncogenic potential. The biological effects of STAT3 have not been studied extensively in the pathogenesis of colon cancer, nor has the role of Janus kinase 3 (JAK3), the physiological activator of STAT3, been evaluated. Here, we demonstrate that activated STAT3 (pSTAT3) and activated JAK3 (pJAK3) are expressed constitutively in two colon cancer cell lines, SW480 and HT29. To evaluate the significance of JAK3/STAT3 signaling, we inhibited JAK3 with AG490 and STAT3 with a dominant-negative construct. Inhibition of JAK3 down-regulated pSTAT3. The blockade of JAK3/STAT3 signaling significantly decreased viability of colon cancer cells due to apoptosis and cell-cycle arrest through down-regulation of Bcl-2, Bcl-X(L), Mcl-1, and cyclin D2 and up-regulation of p21(waf1/cip1) and p27(kip1). We also examined histological sections from 22 tumors from patients with stage II or stage IV colon cancer and found STAT3, JAK3, and their activated forms to be frequently expressed. Furthermore, quantitative reverse transcriptase-polymerase chain reaction identified JAK3 mRNA in colon cancer cell lines and primary tumors. Our findings illustrate the biological importance of JAK3/STAT3 activation in the oncogenesis of colon cancer and provide novel evidence that JAK3 is expressed and contributes to STAT3 activation in this malignant neoplasm.
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PMID:Constitutive activation of JAK3/STAT3 in colon carcinoma tumors and cell lines: inhibition of JAK3/STAT3 signaling induces apoptosis and cell cycle arrest of colon carcinoma cells. 1619 33

ABL1 amplification, due to a cryptic episomal translocation NUP214/ABL1, is a novel finding in T-cell acute lymphoblastic leukemia (ALL). Here we report on the incidence and clinical features of this genetic defect in a series of 30 consecutive adult T-cell ALL patients. Multiple copies of the ABL1 gene were detected in two patients (6.6%), one with the karyotype 46,XY,t(1;3)(p36;p21),del(6)(q23)/46,XY and the other without analyzable metaphases. Metaphase/interphase fluorescence in situ hybridization (FISH) detected multiple uncountable signals corresponding to ABL1 in mitotic cells and nuclei from both patients. In one patient, no signals corresponded with the 9p21 chromosomal region, which contains the p16INK4a gene, and in the other one signal was observed. Quantitative reverse-transcriptase polymerase chain reaction (RT-PCR) demonstrated that in these patients ABL1 gene expression was 14- and 18-fold greater than in normal controls, and returned to normal levels only when complete remission was achieved. We reached the following conclusions: (1) FISH is the only technique that promptly identifies T-cell ALL patients with ABL1 amplification, (2) quick identification with FISH is fundamental in the clinic because this T-cell ALL subset is imatinib sensitive but may become resistant due to development of additional mutations, and (3) ABL1 quantitative RT-PCR may be easily applied to monitor minimal residual disease.
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PMID:ABL1 amplification in T-cell acute lymphoblastic leukemia. 1621 63

BCR-ABL fusion protein, a t(9;22) translocation product is indispensable for generation, maintenance and progression of chronic myeloid leukemia. RNA interference is an approach to silence gene at post-transcriptional level. We show that dsRNA targeted against the translocation region leads to more than 90% inhibition of BCR-ABL mRNA and protein expression levels using K562 as a model. Lack of BCR-ABL leads to cell cycle arrest in G1 phase as observed by decrease in cyclin D1 and increase in p21 and p27 cdk inhibitors mRNA. Apoptosis resistance imparted by BCR-ABL is lost in these cells in caspase-dependent or independent manner. Decrease in Bcl-XL is observed along with decrease in mitochondrial membrane integrity. Transient removal of BCR-ABL expression has a profound effect on proliferation and clonogenic capacity also confirmed by long-term silencing using lentiviral vectors. Interestingly, low level of BCR-ABL message leads to enhanced erythroid differentiation and reduced expression of megakaryocytic markers. Importantly, in six CML patient samples studied, silencing BCR-ABL in the lineage depleted enriched stem cell population leads to a decrease in colony-forming capacity. Thus, long-term silencing of BCR-ABL might prove to be a promising alternative approach in CML patients especially for those who do not respond to any other drug treatment.
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PMID:Transient or long-term silencing of BCR-ABL alone induces cell cycle and proliferation arrest, apoptosis and differentiation. 1628 Oct 73

Gleevec, a selective tyrosine kinase inhibitor, retarded the growth of anaplastic thyroid cancer cell lines in vitro and in vivo through selective inhibition of ABL tyrosine kinase activity. In the present study, we investigated the ability of Gleevec to modulate the in vitro and in vivo radiation response of anaplastic thyroid cancer cells. Cell growth assays, colony formation assays and xenograft models were used to quantify the radiosensitizing effect of Gleevec in cells of the anaplastic thyroid cancer cell lines ARO and FRO. FACS, Western blotting and histochemical techniques were employed to study the mechanisms of radiation response after exposure to Gleevec. Gleevec (7.0 microM) increased the anti-proliferative effect of radiation on the growth ARO and FRO cells in vitro. Clonogenic analysis demonstrated that Gleevec reduced cell survival after irradiation. Gleevec combined with radiation produced an increase in tumor growth inhibition compared to treatment with either modality alone in mice bearing anaplastic thyroid cancer xenografts. The drug suppressed radiation-induced ABL activation and promoted CDKN1A (p21(cip1)) accumulation in irradiated anaplastic thyroid cancer cells. Gleevec had an additional effect on radiation-induced apoptosis in cells of both cell lines and potentiated the induction of terminal growth arrest accompanied by the expression of senescence-associated beta-galactosidase. The antitumor effect of Gleevec is potentiated in adjunctive therapy with radiation not only due to inhibition of proliferative cell growth with transient cell cycle arrest and apoptosis, but also due to the terminal growth arrest associated with senescence, suggesting that tumor cell senescence is a mechanism for tumor targeting therapy in combination with ionizing radiation.
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PMID:Inhibition of ABL tyrosine kinase potentiates radiation-induced terminal growth arrest in anaplastic thyroid cancer cells. 1639 60

Unregulated FGF signaling produced by activating FGFR3 mutations causes several forms of dwarfism-associated chondrodysplasias in humans and mice. FGF signaling inhibits chondrocyte proliferation by activating multiple signal transduction pathways that all contribute to chondrocyte growth arrest and induction of some aspects of differentiation. Previous studies had identified the Stat1 pathway, dephosphorylation of the Rb family proteins p107 and p130, induction of p21 expression and sustained activation of MAP kinases as playing a role in the FGF response of chondrocytes. We have examined the role of Akt (PKB) in the response of chondrocytes to FGF signaling. Differently from what is observed in many other cell types, FGF does not activate Akt in chondrocytes, and Akt phosphorylation is actually downregulated after FGF treatment. By expressing a constitutively activated, myristylated form of Akt (myr-Akt) in the RCS chondrosarcoma cell line, we show that Akt activation partially counteracts the inhibitory effect of FGF signaling. The response of myr-Akt expressing cells to FGF is identical to parental RCS in the first few hours after treatment, but then diverges as myr-Akt cells show decreased p130 phosphorylation, increased cyclin E/cdk2 activity and continue to proliferate at a slow rate. Constitutive Akt activation does not affect p21 expression but appears to influence directly cdk/cyclin activity. On the other hand, the induction of differentiation-related genes is unchanged in myr-Akt cells. These results identify Akt downregulation as an important aspect of the response of chondrocytes to FGF that, however, only affects chondrocyte proliferation and not the ability of FGF to induce differentiation genes.
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PMID:Downregulation of Akt activity contributes to the growth arrest induced by FGF in chondrocytes. 1652 91

Endothelial cell proliferation is a critical step in angiogenesis and requires a coordinated response to soluble growth factors and the extracellular matrix. As focal adhesion kinase (FAK) integrates signals from both adhesion events and growth factor stimulation, we investigated its role in endothelial cell proliferation. Expression of a dominant-negative FAK protein, FAK-related nonkinase (FRNK), impaired phosphorylation of FAK and blocked DNA synthesis in response to multiple angiogenic stimuli. These results coincided with elevated cyclin-dependent kinase inhibitors (CDKIs) p21/Cip and p27/Kip, as a consequence of impaired degradation. FRNK inhibited the expression of Skp2, an F-box protein that targets CDKIs, by inhibiting mitogen-induced mRNA. The FAK-regulated degradation of p27/Kip was Skp2 dependent, while levels of p21/Cip were regulated independent of Skp2. Skp2 is required for endothelial cell proliferation as a consequence of degrading p27. Finally, knockdown of both p21 and p27 in FRNK-expressing cells completely restored mitogen-induced endothelial cell proliferation. These data demonstrate a critical role for FAK in the regulation of CDKIs through two independent mechanisms: Skp2 dependent and Skp2 independent. They also provide important insights into the requirement of focal adhesion kinase for normal vascular development and reveal novel regulatory control points for angiogenesis.
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PMID:Focal adhesion kinase controls cellular levels of p27/Kip1 and p21/Cip1 through Skp2-dependent and -independent mechanisms. 1670 71

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