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)

Wild-type p53 protein displays a spectrum of activities including the ability to suppress transformed cell growth to direct apoptotic cell death and to mediate G1 checkpoint in response to cellular DNA damage. Earlier work showed that a self-association defective p53 protein retained transformation suppressor activity in rat embryo fibroblast based assays, but that monomerisation of tumour mutant p53 proteins resulted in loss of dominant transforming activity. In order to acquire a more detailed understanding of the biological consequences attendant on disruption of p53:p53 association we have carried out a study of the wild-type-like activities that are retained by monomeric p53 proteins and which are associated with the suppression of transformation. Here we show that monomeric p53 proteins are G1 checkpoint defective. Although able to stimulate transcription via a p53 DNA binding motif from the p21waf1/cip1 gene promoter in episome based assays these p53 proteins are unable to transactive the chromosomal p21waf1/cip1 gene and are sensitive both to degeneracy of consensus binding site and to half site spacing. Monomeric p53 proteins fail to trigger apoptosis in a BRK cell line transformed with E7 and ras. However, they retain wild type transformation suppressor activity in BRK cell based transformation assays. Our results indicate that p21waf1/cip1 induction and all related p53 dependent G1 checkpoint activities are dispensable for the p53 directed suppression of transformed cell growth, and that such transformation suppression by monomeric p53 proteins may occur in the absence of an apoptotic response.
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PMID:Selective loss of endogenous p21waf1/cip1 induction underlies the G1 checkpoint defect of monomeric p53 proteins. 876 Mar

To examine the role of BMP signaling during limb pattern formation, we isolated chicken cDNAs encoding type I (BRK-1 and BRK-2) and type II (BRK-3) receptors for bone morphogenetic proteins. BRK-2 and BRK-3, which constitute dual-affinity signaling receptor complexes for BMPs, are co-expressed in condensing precartilaginous cells, while BRK-1 is weakly expressed in the limb mesenchyme. BRK-3 is also expressed in the apical ectodermal ridge and interdigital limb mesenchyme. BRK-2 is intensely expressed in the posterior-distal region of the limb bud. During digit duplication by implanting Sonic hedgehog-producing cells, BRK-2 expression is induced anteriorly in the new digit forming region as observed for BMP-2 and BMP-7 expression in the limb bud. Dominant-negative effects on BMP signaling were obtained by over-expressing kinase domain-deficient forms of the receptors. Chondrogenesis of limb mesenchymal cells is markedly inhibited by dominant-negative BRK-2 and BRK-3, but not by BRK-1. Although the bone pattern was not disturbed by expressing individual dominant-negative BRK independently, preferential distal and posterior limb truncations resulted from co-expressing the dominant-negative forms of BRK-2 and BRK-3 in the whole limb bud, thus providing evidence that BMPs are essential morphogenetic signals for limb bone patterning.
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PMID:BMP signaling during bone pattern determination in the developing limb. 895 Oct 71

In this study we describe an investigation into the residual spelling skills of a patient (BRK) with a deep dysgraphia. His written spelling was significantly superior to his oral spelling and he had grave difficulties in recognizing orally spelled words. In addition, his impairment in recognizing orally spelled words was qualitatively very similar to his difficulties in oral spelling. In contrast, he could read and repeat the stimuli he could no longer spell. It seems therefore that, recognizing orally spelled words is dependent on the same procedures used in spelling rather than in reading. It is argued that BRK's discrepancy between oral and written spelling reflects a deficit in accessing a letter name code which translates abstract graphemic representations into letter names. In addition, it is suggested that the letter name code has an additional synthesizing function that is involved both in checking self-generated oral spellings and in recognizing orally spelled words.
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PMID:Does recognizing orally spelled words depend on reading? An investigation into a case of better written than oral spelling. 914 99

Protein tyrosine kinases (PTKs) have been implicated in the development of many common human tumours including melanoma. Previously we isolated PTK gene sequences expressed in normal melanocytes. Here we examined expression of 9 of these genes in cell lines derived from defined stages of melanoma progression, by Northern blotting and in some cases immunoblotting. We also tested cells from 2 animal models of particular stages in progression, as well as uncultured biopsies of metastatic melanoma. The expression of 2 receptor kinase family members found in melanocytes, PTK7/CCK-4 and SEK/TYRO1, was decreased or lost in advanced melanomas. PTK7 mRNA was found in only 54% of melanoma cell lines and 20% of melanoma biopsies. Similarly, expression was lost in 2 advanced cell lines selected from an early melanoma line that did express PTK7 mRNA. SEK/TYRO1 expression was observed in 75% and 17% of cell lines from primary and metastastic melanomas, respectively. Conversely, mRNA for the non-receptor kinase PTK6/BRK was not detected in normal melanocytes or primary melanoma lines, but was found in 9% of metastatic melanoma cell lines.
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PMID:Loss of expression of receptor tyrosine kinase family genes PTK7 and SEK in metastatic melanoma. 918 12

BRK is a recently described non receptor protein tyrosine kinase whose mRNA was found to be expressed in human breast tumours and breast cancer cell lines. Expression of BRK in fibroblasts and mammary epithelial cells has been shown to enhance their ability to grow anchorage independently, and mammary epithelial cells expressing BRK acquire a potentiated mitogenic response to epidermal growth factor. In order to investigate further the expression of BRK in breast cancers, we have isolated monoclonal antibodies specifically recognising the protein. Whereas BRK expression was low or undetectable in normal mammary tissue and benign lesions, approximately two-thirds of breast tumours expressed appreciable levels, and 27% of tumours over expressed BRK by fivefold or more (up to 43x). This expression pattern was mirrored in a comparison of cell lines derived either from normal mammary epithelial cells or from carcinomas. BRK expression was found to be constant throughout the cell cycle, and did not vary with cell proliferation rate. A consideration of this expression data, in conjunction with BRK's demonstrated ability to deregulate the proliferation of mammary epithelial cells, supports the hypothesis that the over expression of BRK in a high proportion of breast carcinomas is a functionally important factor in their evolution.
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PMID:BRK tyrosine kinase expression in a high proportion of human breast carcinomas. 926 66

p53 is a pivotal regulator of apoptosis but its mechanism of action is obscure. We report that the polyproline (PP) region located between p53's transactivation and DNA binding domains is necessary to induce apoptosis but not cell growth arrest. The PP region was dispensable for DNA binding, inhibition of SAOS-2 tumor cell growth, suppression of E1A + RAS cell transformation, and cell cycle inhibition. A temperature-sensitive dominant inhibitory p53 mutant lacking PP (p53ts deltaPP) retained its ability to cooperate with adenovirus E1A in transformation of primary BRK cells. However, while activation of wt p53 induced apoptosis in E1A + p53ts-transformed cells, activation of p53 deltaPP induced cell cycle arrest but not apoptosis in E1A + p53ts deltaPP-transformed cells. Similarly, PP deletion abolished apoptosis in LoVo colon carcinoma cells, which are killed by wt p53 overexpression. Transactivation was largely unaffected by PP deletion. Significantly, BAX induction was intact, indicating that additional events are required for p53 to induce apoptosis. As a recently described site for familial mutation in at least one breast cancer family, the PP region represents a domain that may be altered in human tumors. We concluded that p53's ability to induce apoptosis is dispensable for inhibiting cell growth and transformation and that the PP region plays a crucial role in apoptotic signaling.
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PMID:The polyproline region of p53 is required to activate apoptosis but not growth arrest. 928 84

The brk gene encodes a non-receptor protein tyrosine kinase that consists of single SH3, SH2 and catalytic domains. Although BRK shows strongest sequence similarity to members of the SRC family of PTKs, there are several key structural and regulatory differences that place it on its own amongst non-receptor PTKs. In this study we have isolated genomic DNA clones corresponding to the human brk locus and used these to determine the intron-exon structure of the brk gene. The genomic structure of brk consists of 8 exons, whose boundaries are distinct from other non-receptor PTK family members, again indicating a structural and functional divergence. Alternate splicing of the primary brk transcript generates a distinct mRNA which encodes a truncated protein consisting of an SH3 domain and a novel C-terminal proline rich sequence. Using an antiserum raised to the SH3 domain, we have demonstrated that the product of this alternate brk transcript is expressed in the human breast tumour cell line T-47D. We have previously reported that expression of a tumour derived brk cDNA in mouse embryonic fibroblasts and human mammary epithelial cells supports anchorage independent growth, and in the latter potentiates the mitogenic response to epidermal growth factor. The protein encoded by the genomic sequence derived from normal human tissue is identical to that encoded by the tumour derived cDNA, and therefore the altered growth regulation is not associated with mutations within brk. In addition, we have identified a 5' genomic region that has promoter activity. The brk gene has been assigned to chromosome 20q 13.3 [corrected] using fluorescence in situ hybridisation (FISH).
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PMID:Characterisation and chromosome mapping of the human non receptor tyrosine kinase gene, brk. 933 26

Clones encoding the breast tumor kinase BRK were isolated from a normal human small intestinal cDNA library that was screened with the cDNA encoding the mouse epithelial-specific tyrosine kinase Sik. Although BRK and Sik share only 80% amino acid sequence identity, Southern blot hybridizations confirmed that the two proteins are orthologues. Sik was mapped to mouse distal chromosome 2, which shows conservation of synteny with human chromosome 20q13.3, the location of the BRK gene. BRK expression was examined in the normal gastrointestinal tract, colon tumor cell lines, and primary colon tumor samples. Like Sik, BRK is expressed in normal epithelial cells of the gastrointestinal tract that are undergoing terminal differentiation. BRK expression also increased during differentiation of the Caco-2 colon adenocarcinoma cell line. Modest increases in BRK expression were detected in primary colon tumors by RNase protection, in situ hybridization, and immunohistochemical assays. The BRK tyrosine kinase appears to play a role in signal transduction in the normal gastrointestinal tract, and its overexpression may be linked to the development of a variety of epithelial tumors.
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PMID:BRK/Sik expression in the gastrointestinal tract and in colon tumors. 1043 81

We had previously observed that HPV-16 E7 disturbs the Guanylate Binding Protein (GBP)-ISRE reporter activation by IFN-gamma thus suggesting an alteration of the IRF-1 function. In this study we examined the mechanism by which E7 affects the IFN-gamma signals driving the activation of gene transcription. Using 14/2 BRK cells containing dexamethasone-inducible HPV-16 E7 gene, we observed a large inhibition of the IRF-1 DNA binding activity upon E7 induction. Concomitantly, there was no significant change in the levels of IRF-1, indicating that this was not due to reduced levels of IRF-1 expression. Likewise, in vitro translated E7 did not affect the IRF-1 DNA binding activity in nuclear extracts derived from IFN-induced cells, thus indicating that the effects of E7 are upstream of IRF-1's binding to its DNA recognition site. Finally, NFkappaB DNA binding activity was also inhibited under conditional expression of E7. These data indicate that HPV-16 E7 inhibits the IRF-1 and NFkappaB function and this could lead to the impairment of the IFN response in HPV-infected cells. Furthermore, the findings suggest that different events of the IFN inducible signal cascade seem to be target for HPV-16 E7.
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PMID:Human papillomavirus type 16 E7 impairs the activation of the interferon regulatory factor-1. 1081 19

Sik (mouse Src-related intestinal kinase) and its orthologue BRK (human breast tumor kinase) are intracellular tyrosine kinases that are distantly related to the Src family and have a similar structure, but they lack the myristoylation signal. Here we demonstrate that Sik and BRK associate with the RNA binding protein Sam68 (Src associated during mitosis, 68 kDa). We found that Sik interacts with Sam68 through its SH3 and SH2 domains and that the proline-rich P3 region of Sam68 is required for Sik and BRK SH3 binding. In the transformed HT29 adenocarcinoma cell cell line, endogenous BRK and Sam68 colocalize in Sam68-SLM nuclear bodies (SNBs), while transfected Sik and Sam68 are localized diffusely in the nucleoplasm of nontransformed NMuMG mammary epithelial cells. Transfected Sik phosphorylates Sam68 in SNBs in HT29 cells and in the nucleoplasm of NMuMG cells. In functional studies, expression of Sik abolished the ability of Sam68 to bind RNA and act as a cellular Rev homologue. While Sam68 is a substrate for Src family kinases during mitosis, Sik/BRK is the first identified tyrosine kinase that can phosphorylate Sam68 and regulate its activity within the nucleus, where it resides during most of the cell cycle.
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PMID:Sik (BRK) phosphorylates Sam68 in the nucleus and negatively regulates its RNA binding ability. 1091 93

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