Identification and treatment of abdominal aortic aneurysm (AAA) remain among the most prominent challenges in vascular medicine. MicroRNAs (miRNAs) are crucial regulators of cardiovascular pathology and represent intriguing targets to limit AAA expansion. Here we show, by using two established murine models of AAA disease along with human aortic tissue and plasma analysis, that miR-24 is a key regulator of vascular inflammation and AAA pathology. In vivo and in vitro studies reveal chitinase 3-like 1 (Chi3l1) to be a major target and effector under the control of miR-24, regulating cytokine synthesis in macrophages as well as their survival, promoting aortic smooth muscle cell migration and cytokine production, and stimulating adhesion molecule expression in vascular endothelial cells. We further show that modulation of miR-24 alters AAA progression in animal models, and that miR-24 and CHI3L1 represent novel plasma biomarkers of AAA disease progression in humans.
The long noncoding RNA H19 is a novel regulator of SMC survival in abdominal aortic aneurysm development and progression. Inhibition of H19 expression might serve as a novel molecular therapeutic target for aortic aneurysm disease.
To identify the signaling pathways that mediate the adrenergic stimulation of glucose uptake in brown adipose tissue, we used mouse brown adipocytes in culture. The endogenous adrenergic neurotransmitter norepinephrine (NE) induced 2-deoxy-D-glucose uptake 3-fold in a concentration-dependent manner (pEC50 approximately 6.5). The uptake was abolished by high doses of propranolol. The NE effect was mimicked by isoprenaline (pEC50 approximately 6.9), BRL 37344 (pEC50 approximately 8.6), CL 316243 (pEC50 approximately 9.7) and CGP 12177 (pEC50 approximately 7.3) and was thus mediated by beta3-adrenergic receptors. The NE-induced effect on 2-deoxy-D-glucose uptake was mediated by adenylyl cyclase and cAMP because responses were inhibited by the adenylyl cyclase inhibitor 2',5'-dideoxyadenosine and the protein kinase A inhibitor 4-cyano-3-methylisoquinoline. Cholera toxin and 8-bromoadenosine cAMP were both able to increase 2-deoxy-D-glucose uptake. Involvement of other adrenergic signaling pathways (alpha1-and alpha2-adrenergic receptors) were excluded. The phosphatidylinositol 3-kinase (PI3K) inhibitor LY294002, abolished beta-adrenergic- or 8-bromoadenosine cAMP-stimulated 2-deoxy-D-glucose uptake, demonstrating that a cAMP-dependent PI3K-mediated pathway is positively connected to glucose uptake. Inhibition of the beta-adrenergically stimulated response with protein kinase C (PKC) inhibitors (Gö 6983, which inhibits (alpha, beta, gamma), (delta), and (zeta) isoforms and Ro-31-8220, which inhibits (alpha, beta1, beta2, gamma) and (epsilon) but not atypical isoforms) indicated that cAMP-mediated glucose uptake is stimulated via conventional and novel PKCs. These results demonstrate that adrenergic stimulation, through beta3-adrenergic receptors/cAMP/protein kinase A, recruits a PI3K pathway stimulating conventional and novel PKCs, which mediate glucose uptake in brown adipocytes.
on behalf of the BiKE and ASAP study groups Background-Population-based genome-wide association studies have identified several single nucleotide polymorphisms (SNPs) associated with cardiovascular disease or its risk factors. Genes in close proximity to these risk-SNPs are often thought to be pathogenetically important based on their location alone. However, the actual connections between SNPs and disease mechanisms remain largely unknown. Methods and Results-To identify novel susceptibility genes, we investigated how 166 SNPs previously found to be associated with increased cardiovascular risk and/or predisposing metabolic traits relate to the expression of nearby genes. Gene expression in 577 samples of aorta, liver, mammary artery, and carotid atherosclerotic plaque was measured using expression arrays. For 47 SNPs, the expression levels of proximal genes (located within 200 kb) were affected (PϽ0.005). More than 20 of these genes had not previously been identified as candidate genes for cardiovascular or related metabolic traits. SNP-associated gene effects were tissue-specific and the tissue specificity was phenotype-dependent. Conclusions-This study demonstrates several instances of association between risk-SNPs and genes immediately adjacent to them. It also demonstrates instances in which the associated gene is not the immediately proximal and obvious candidate gene for disease. This shows the necessity of careful studies of genetic marker data as a first step toward application of genome-wide association studies findings in a clinical setting. (Circ Cardiovasc Genet. 2010;3:365-373.)
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