Sarah R. Langley scite author profile

Pioneering studies have revealed the presence of endogenous microRNAs (miRNAs) in the circulation that are not cell-associated. 1 The cellular origin and the biological function of circulating miRNAs, however, are less clear. Editorial, see p 576We have previously quantified circulating miRNAs in a large population-based cohort, the Bruneck study.3,4 Using concepts of network topology, 5 we identified altered miRNA signatures in patients with type 2 diabetes mellitus 3 and with future myocardial infarction. 4 In addition, we subjected healthy volunteers to limb ischemia-reperfusion generated by thigh cuff inflation. 4 Computational analysis identified 6 distinct miRNA clusters. 4 One cluster included all miRNAs associated with risk of myocardial infarction and consisted of miRNAs predominantly expressed in platelets. Microarray screening revealed that miR-126, miR-197, miR-223, miR-24, and miR-21 are among the most highly expressed miRNAs in platelets and platelet microparticles (PMPs), and their circulating levels correlated with PMPs as quantified by flow cytometry.Original received November 14, 2012; revision received December 21, 2012; accepted December 28, 2012. In November 2012, the average time from submission to first decision for all original research papers submitted to Circulation Research was 15.8 days.Brief UltraRapid Communications are designed to be a format for manuscripts that are of outstanding interest to the readership, report definitive observations, but have a relatively narrow scope.

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Lipidomics Profiling and Risk of Cardiovascular Disease in the Prospective Population-Based Bruneck Study

Stegemann

et al. 2014

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A trans-acting locus regulates an anti-viral expression network and type 1 diabetes risk

Heinig

Petretto

Wallace

et al. 2010

Nature

262

293

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Combined analyses of gene networks and DNA sequence variation can provide new insights into the aetiology of common diseases. Here, we used integrated genome-wide approaches across seven rat tissues to identify gene networks and the loci underlying their regulation. We defined an interferon regulatory factor 7 (IRF7)1-driven inflammatory network (iDIN) enriched for viral response genes, which represents a molecular biomarker for macrophages and was regulated in multiple tissues by a locus on rat chromosome 15q25. At this locus, Epstein-Barr virus induced gene 2 (Ebi2 or Gpr183), which we localised to macrophages and is known to control B lymphocyte migration2,3, regulated the iDIN. The human chromosome 13q32 locus, orthologous to rat 15q25, controlled the human equivalent of iDIN, which was conserved in monocytes. For the macrophage-associated autoimmune disease type 1 diabetes (T1D) iDIN genes were more likely to associate with T1D susceptibility than randomly selected immune response genes (P = 8.85 × 10−6). The human locus controlling the iDIN, was associated with the risk of T1D at SNP rs9585056 (P = 7.0 × 10−10, odds ratio = 1.15), which was one of five SNPs in this region associated with EBI2 expression. These data implicate IRF7 network genes and their regulatory locus in the pathogenesis of T1D.

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Sarah R. Langley

Circulating MicroRNAs as Novel Biomarkers for Platelet Activation

Lipidomics Profiling and Risk of Cardiovascular Disease in the Prospective Population-Based Bruneck Study

A trans-acting locus regulates an anti-viral expression network and type 1 diabetes risk

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