Noah Alberts-Grill scite author profile

MicroRNAs (miRNAs) regulate cardiovascular biology and disease, but the role of flow-sensitive microRNAs in atherosclerosis is still unclear. Here we identify miRNA-712 (miR-712) as a mechanosensitive miRNA upregulated by disturbed flow (d-flow) in endothelial cells, in vitro and in vivo. We also show that miR-712 is derived from an unexpected source, pre-ribosomal RNA, in an exoribonuclease-dependent but DiGeorge Syndrome Critical Region-8 (DGCR8)-independent manner, suggesting that it is an atypical miRNA. Mechanistically, d-flow-induced miR-712 downregulates tissue inhibitor of metalloproteinase-3 (TIMP3) expression, which in turn activates the downstream matrix metalloproteinases (MMPs) and a disintegrin and metalloproteases (ADAMs) and stimulate pro-atherogenic responses, endothelial inflammation and permeability. Furthermore, silencing miR-712 by anti-miR-712 rescues TIMP3 expression and prevents atherosclerosis in murine models of atherosclerosis. Finally, we report that human miR-205 shares the same “seed sequence” as murine-specific miR-712, and also targets TIMP3 in a flow-dependent manner. Targeting these mechanosensitive “athero-miRs” may provide a new treatment paradigm in atherosclerosis.

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Anti-Inflammatory and Antiatherogenic Role of BMP Receptor II in Endothelial Cells

Kim

Song

Kumar

et al. 2013

ATVB

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Objective Atherosclerosis is an inflammatory disease with multiple underlying metabolic and physical risk factors. Bone morphogenic protein 4 (BMP4) expression is increased in endothelium in atherosclerosis-prone regions and is known to induce endothelial inflammation, endothelial dysfunction and hypertension. BMP actions are mediated by two different types of BMP receptors (BMPRI and II). Here we show a surprising finding that loss of BMPRII expression causes endothelial inflammation and atherosclerosis. Approach and Results Using BMPRII siRNA and BMPRII+/− mice, we found that specific knockdown of BMPRII, but not other BMP receptors (Alk1,Alk2, Alk3, Alk6, ActRIIa and ActRIIb) induced endothelial inflammation in a ligand-independent manner by mechanisms mediated by reactive oxygen species (ROS), NFκB, and NADPH oxidases. Further, BMPRII+/−ApoE−/− mice developed accelerated atherosclerosis compared to BMPRII+/+ApoE−/− mice. Interestingly, we found that multiple pro-atherogenic stimuli such as hypercholesterolemia, disturbed flow (d-flow), pro-hypertensive angiotensin II (AngII), and the pro-inflammatory cytokine, tumor necrosis factor-alpha (TNFα), downregulated BMPRII expression in endothelium, while anti-atherogenic stimuli such as stable flow (s-flow) and statin treatment upregulated its expression in vivo and in vitro. Moreover, BMPRII expression was significantly diminished in human coronary advanced atherosclerotic lesions. Also, we were able to rescue the endothelial inflammation induced by BMPRII knockdown by overexpressing the BMPRII wild-type, but not by the BMPRII short-form lacking the carboxyl-terminal tail region. Conclusions These results suggest that BMPRII is a critical, anti-inflammatory and anti-atherogenic protein that is commonly targeted by multiple pro- and anti-atherogenic factors. BMPRII may be used as a novel diagnostic and therapeutic target in atherosclerosis.

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Expansion of CD25 ⁺ Innate Lymphoid Cells Reduces Atherosclerosis

Engelbertsen

Foks

Alberts-Grill

et al. 2015

ATVB

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Objective Innate lymphoid cells (ILCs) are a newly discovered subset of immune cells that promote tissue homeostasis and protect against pathogens. ILCs produce cytokines also produced by T lymphocytes that have been shown to affect atherosclerosis, but the influence of ILCs on atherosclerosis has not been explored. Approach and Results We demonstrate that CD25+ ILCs that produce type 2 cytokines (ILC2s) are present in the aorta of atherosclerotic immunodeficient ldlr−/−rag1−/− mice. To investigate the role of ILCs in atherosclerosis, ldlr−/−rag1−/− mice were concurrently fed an atherogenic diet and treated with either ILC-depleting anti-CD90.2 antibodies or with IL-2/anti-IL-2 complexes that expand CD25+ ILCs. Lesion development was not affected by anti-CD90.2 treatment, but was reduced in IL-2/anti-IL-2 -treated mice. These IL-2 treated mice had reduced VLDL cholesterol and increased triglycerides compared to controls and reduced apolipoprotein B100 gene expression in the liver. IL-2/anti-IL-2 treatment caused expansion of ILC2s in aorta and other tissues, elevated levels of IL-5, systemic eosinophila and hepatic eosinophilic inflammation. Blockade of IL-5 reversed the IL-2-complex-induced eosinophilia but did not change lesion size. Conclusions This study demonstrates that expansion of CD25-expressing ILCs by IL-2/anti-IL-2 complexes leads to a reduction in VLDL cholesterol and atherosclerosis. Global depletion of ILCs by anti-CD90.2 did not significantly affect lesion size indicating that different ILC subsets may have divergent effects on atherosclerosis.

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