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Target Concepts:
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Query: UMLS:C0162871 (
abdominal aortic aneurysm
)
8,664
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Notch signalling pathway regulates cell-cell communication in higher eukaryotes. Cellular differentiation and tissue development relies on correct intercellular communication, accounting for the high interest in the Notch signalling pathway. Together with mastermind and CSL (
CBF-1
, Suppressor of Hairless, lag-2) DNA-binding proteins, Notch forms a complex that mediates transcriptional activation of the respective target genes. This activation is strictly controlled, and deregulation causes extreme developmental defects. In Drosophila, the stringency of the control system is given by the general Notch-antagonist Hairless. Hairless assembles in a repressor complex on Notch target genes, which involves Suppressor of Hairless and two corepressors, Groucho and C-terminal binding protein. In mammals,
CBF-1
recruits corepressors on its own. In addition Hairless recruits also other proteins. One example is the Pros26.4
AAA
-ATPase which specifically destabilises Hairless resulting in a novel positive regulation of Notch signalling. By inhibition of Notch, Hairless not only regulates cellular differentiation but also has anti-apoptotic functions. Moreover, many genetic interactions imply a cross-talk between Hairless and the EGF-receptor pathway, which might act independently of Notch. Surprisingly, no Hairless homologue has been identified in mammals so far, despite the high degree of conservation of other components of the pathway. This discrepancy might be resolved in the future, once all components of the repressor-complex in the different species have been identified. In conclusion, Hairless is a central component of the regulation of the Notch signalling pathway in Drosophila, and is hence essential for cell differentiation and tissue development in the fly.
...
PMID:Hairless: the ignored antagonist of the Notch signalling pathway. 1736 57
Genome-wide association studies have identified multiple novel genomic loci associated with vascular diseases. Many of these loci are common non-coding variants that affect the expression of disease-relevant genes within coronary vascular cells. To identify such genes on a genome-wide level, we performed deep transcriptomic analysis of genotyped primary human coronary artery smooth muscle cells (HCASMCs) and coronary endothelial cells (HCAECs) from the same subjects, including splicing Quantitative Trait Loci (sQTL), allele-specific expression (ASE), and colocalization analyses. We identified sQTLs for TARS2, YAP1, CFDP1, and STAT6 in HCASMCs and HCAECs, and 233 ASE genes, a subset of which are also GTEx eGenes in arterial tissues. Colocalization of GWAS association signals for coronary artery disease (CAD), migraine, stroke and
abdominal aortic aneurysm
with GTEx eGenes in aorta, coronary artery and tibial artery discovered novel candidate risk genes for these diseases. At the CAD and stroke locus tagged by rs2107595 we demonstrate colocalization with expression of the proximal gene TWIST1. We show that disrupting the rs2107595 locus alters TWIST1 expression and that the risk allele has increased binding of the NOTCH signaling protein
RBPJ
. Finally, we provide data that TWIST1 expression influences vascular SMC phenotypes, including proliferation and calcification, as a potential mechanism supporting a role for TWIST1 in CAD.
...
PMID:Genomic profiling of human vascular cells identifies TWIST1 as a causal gene for common vascular diseases. 3191 87
