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Target Concepts:
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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
HDL metabolism is crucial in maintaining cellular cholesterol and phospholipid homeostasis and prevention of
atherosclerosis
progression. Recent work identified the ATP-binding cassette transporter A1 (ABCA1) as the major regulator of plasma high density lipoprotein (HDL) cholesterol responsible for the removal of excess cholesterol from peripheral cells and tissues. Here we discuss some novel aspects of the ABCA1 network: 1) the cellular pathways involved in cholesterol and phospholipid efflux, 2) regulation of ABCA1, 3) sulfonylurea receptor 1 (SUR1)- or cystic fibrosis transmembrane conductance regulator (CFTR)-like function of ABCA1, 4) interaction of the ABCA1 C-terminus with
beta2-syntrophin
, 5) ABCA1 modulation of the Rho GTPase Cdc42, 6) localization of ABCA1 in plasma membrane microdomains and intracellular sites, 7) differential effects of prebeta-HDL precursors on ABCA1 mediated alpha-HDL particle formation and 8) ABCA1 in platelets and its relation to phosphatidylserine-flippase activity. A complex regulatory network and additional antiatherogenic features that may depend on the composition of prebeta-HDL precursor particles are believed to coordinate ABCA1 function in reverse cholesterol and phospholipid transport. Distinct prebeta-HDL ligand-specific receptor-clusters are involved that may modulate specific signaling pathways with varying outcomes related to prebeta-HDL particle composition, the cell-type and the cellular response status.
...
PMID:ABCA1: regulation, trafficking and association with heteromeric proteins. 1245 78
Atherosclerosis
is a typical complex multi-factorial disease and many molecules at different levels and pathways were involved in its development. Some studies have investigated the dysregulation in
atherosclerosis
at mRNA, miRNA or DNA methylation level, respectively. However, to our knowledge, the studies that integrated these data and revealed the abnormal networks of
atherosclerosis
have not been reported. Using microarray technology, we analyzed the omics data in
atherosclerosis
at mRNA, miRNA and DNA methylation levels. Our results demonstrated that the global DNA methylation and expression of miRNA/mRNA were significantly decreased in atherosclerotic plaque than in normal vascular tissue. The interaction network constructed using the integrative data revealed many genes, cellular processes and signaling pathways which were widely considered to play crucial roles in
atherosclerosis
and also revealed some genes, miRNAs or signaling pathways which have not been investigated in
atherosclerosis
until now (e.g. miR-519d and
SNTB2
). Moreover, the overall protein ubiquitination in atherosclerotic plaque was significantly increased. The proteasome activity was increased early but decreased in advanced
atherosclerosis
. Our study revealed many classic and novel genes and miRNAs involved in
atherosclerosis
and indicated the effects of ubiquitin-proteasome system on
atherosclerosis
might be closely related to the course of
atherosclerosis
. However, the efficacy of proteasome inhibitors in the treatment of
atherosclerosis
still needs more research.
...
PMID:Integrated analysis of microarray data of atherosclerotic plaques: modulation of the ubiquitin-proteasome system. 2533 56
