Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q9UID6 (Kruppel-like)
 147 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alpha-catenins anchor the transmembrane cell-cell adhesion molecule E-cadherin indirectly to the actin cytoskeleton through interaction with beta-catenin or plakoglobin. Three different alpha-catenins are known at present: alphaE-, alphaT-, and alphaN-catenin. Despite their different expression patterns, no functional differences between the alpha-catenins are known. In a yeast two-hybrid screening with alphaN-catenin as bait, we identified the Cys(2)-His2 zinc finger protein ZASC1. The mRNA and protein of ZASC1 were ubiquitously expressed in various cell lines and human tissues. Our results suggest an association of the ZASC1 protein with DNA, and luciferase reporter assays revealed that ZASC1 is a transcriptional repressor. Upon transient overexpression, the ZASC1 protein localized in the nucleus, to where it was able to recruit cytoplasmic alphaN-catenin. Neither the highly related alphaE-catenin nor alphaT-catenin interacted with ZASC1. By interchanging parts of alphaN-catenin and alphaE-catenin cDNAs, we were able to narrow down the interaction region of alphaN-catenin to two limited amino-terminal regions. On the other hand, the interaction of ZASC1 with alphaN-catenin can be mediated by the domain comprising zinc fingers six to eight of ZASC1. The interaction and nuclear cotranslocation of a neural alpha-catenin with a putative proto-oncogene product as reported here provides novel insights into the signaling functions of alpha-catenins.
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PMID:Nuclear translocation of alphaN-catenin by the novel zinc finger transcriptional repressor ZASC1. 1618 84

In rat in vivo, both paracetamol (APAP) and carbon tetrachloride (CCl4) induce liver necrosis, but long-term treatment with CCl4, in contrast to paracetamol, causes liver fibrosis. The aim of this study was to perform transcriptomic analysis to compare the early changes in mRNA expression profiles induced by APAP and CCl4 in the rat precision-cut liver slice model (PCLS) and to identify early markers that could predict fibrosis-inducing potential. Microarray data of rat PCLS exposed to APAP andCCl4was generated using a toxic dose based on decrease in ATP levels. Toxicity pathway analysis using a custom made fibrosis-related gene list showed fibrosis as one of the predominant toxic endpoints in CCl4-treated, but not in APAP-treated PCLS. Moreover, genes which have a role in fibrosis such as alpha-B crystallin, jun proto-oncogene, mitogen-activated protein kinase 6, serpin peptidase inhibitor and also the transcription factor Kruppel-like-factor-6 were up-regulated by CCl4, but not by APAP. Predicted activation or inhibition of several upstream regulators due to CCl4 is in accordance with their role in fibrosis. In conclusion, transcriptomic analysis of PCLS successfully identified the fibrotic potential of CCl4 as opposed to APAP. The application of PCLS as an ex vivo model to identify early biomarkers to predict the fibrogenic potential of toxic compounds should be further explored.
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PMID:Acute toxicity of CCl4 but not of paracetamol induces a transcriptomic signature of fibrosis in precision-cut liver slices. 2585 67

It is well established that environmental toxins, such as exposure to arsenic, are risk factors in the development of urinary bladder cancer, yet recent genome-wide association studies (GWAS) provide compelling evidence that there is a strong genetic component associated with disease predisposition. A single-nucleotide polymorphism (SNP), rs8102137, was identified on chromosome 19q12, residing 6 kb upstream of the important cell-cycle regulator and proto-oncogene, Cyclin E1 (CCNE1). However, the functional role of this variant in bladder cancer predisposition has been unclear because it lies within a non-coding region of the genome. Here, it is demonstrated that bladder cancer cells heterozygous for this SNP exhibit biased allelic expression of CCNE1 with 1.5-fold more transcription occurring from the risk allele. Furthermore, using chromatin immunoprecipitation assays, a novel enhancer element was identified within the first intron of CCNE1 that binds Kruppel-like Factor 5 (KLF5), a known transcriptional activator in bladder cancer. Moreover, the data reveal that the presence of rs200996365, a SNP in high-linkage disequilibrium with rs8102137 residing in the center of a KLF5 motif, alters KLF5 binding to this genomic region. Through luciferase assays and CRISPR-Cas9 genome editing, a novel polymorphic intronic regulatory element controlling CCNE1 transcription is characterized. These studies uncover how a cancer-associated polymorphism mechanistically contributes to an increased predisposition for bladder cancer development.
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PMID:Transcription Factor KLF5 Binds a Cyclin E1 Polymorphic Intronic Enhancer to Confer Increased Bladder Cancer Risk. 2751 7