Philipp Skroblin scite author profile

M icroRNAs (miRNAs) are small noncoding RNAs with cell-type specific expression patterns that are released by cells into the circulation as part of membranous particles or protein complexes.1 Thus, miRNAs can be readily quantified by real-time polymerase chain reactions (qPCRs) in plasma and serum and have generated increasing interest as potential new biomarkers.2 Our group has previously identified plateletrelated miRNA signatures that are predictive of cardiovascular events. 3 In addition, we measured miRNAs in healthy volunteers and in patients with symptomatic atherosclerosis before and after initiation of dual antiplatelet therapy and demonstrated reduced plasma levels of platelet-related miRNAs on platelet inhibition. Kaudewitz et al Plasma MicroRNAs and Platelet Function 421Dual oral antiplatelet therapy (acetylsalicylic acid [ASA]+a P2Y 12 inhibitor) is commonly used for the management of non-ST-segment-elevation acute coronary syndromes (ACS) and ST-segment-elevation myocardial infarction.5 ASA irreversibly inhibits cyclooxygenase 1 in platelets, thereby repressing thromboxane A 2 (TxA 2 ) synthesis and, consequently, platelet activation. Clopidogrel, prasugrel, and ticagrelor target the P2Y 12 receptor for ADP. However, interindividual variability in the platelet response to clopidogrel has been reported. Prasugrel and ticagrelor exhibit a more consistent antiplatelet effect and have shown benefits over clopidogrel in patients with ACS but also increase the risk of bleeding. 6,7 It is currently unclear whether plasma levels of platelet-related miRNAs correlate with the residual platelet activity in patients with ACS and how different antiplatelet agents alter miRNAs.In this study, we used RNA sequencing to characterize small RNAs in plasma. Then, we compared the effect of different antiplatelet agents and explored the association of small RNAs (miRNAs and YRNAs) with platelet function tests in patients with ACS. Moreover, we correlated their plasma levels to platelet activation markers in the prospective, population-based Bruneck study 3 and investigated whether a single-nucleotide polymorphism (SNP) that facilitates miR-126 processing 8 alters circulating miR-126 levels and platelet reactivity. These epidemiological observations were complemented by preclinical studies, assessing platelet function in mice on treatment with antagomiRs directed against miR-126 and by mechanistic studies measuring miR-126 targets. MethodsAn expanded Methods section is available in the Online Data Supplement. Next-Generation SequencingSmall RNA libraries were generated from non-normalized RNA (ranging from 375 pg to 1 ng) extracted from equal volumes of platelet-poor plasma (PPP) and platelet-rich plasma (PRP) from healthy human volunteers. Before library preparation, RNA was spiked with equal amounts of C. elegans miR-39 star (cel-miR-39*) to assist in normalization. Libraries were prepared using the small RNA library preparation kit version 2.0 (Illumina Cambridge Ltd) according to manufacturer's protocol with limi...

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Mechanisms of Protein Kinase A Anchoring

Skroblin

et al. 2010

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MicroRNA Biomarkers and Platelet Reactivity

Sunderland

Skroblin

Barwari³

et al. 2017

Circulation Research

172

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Over the last few years, several groups have evaluated the potential of microRNAs (miRNAs) as biomarkers for cardiometabolic disease. In this review, we discuss the emerging literature on the role of miRNAs and other small noncoding RNAs in platelets and in the circulation, and the potential use of miRNAs as biomarkers for platelet activation. Platelets are a major source of miRNAs, YRNAs, and circular RNAs. By harnessing multiomics approaches, we may gain valuable insights into their potential function. Because not all miRNAs are detectable in the circulation, we also created a gene ontology annotation for circulating miRNAs using the gene ontology term extracellular space as part of blood plasma. Finally, we share key insights for measuring circulating miRNAs. We propose ways to standardize miRNA measurements, in particular by using platelet-poor plasma to avoid confounding caused by residual platelets in plasma or by adding RNase inhibitors to serum to reduce degradation. This should enhance comparability of miRNA measurements across different cohorts. We provide recommendations for future miRNA biomarker studies, emphasizing the need for accurate interpretation within a biological and methodological context.

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Circulating MicroRNA-122 Is Associated With the Risk of New-Onset Metabolic Syndrome and Type 2 Diabetes

et al. 2016

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MicroRNA-122 (miR-122) is abundant in the liver and involved in lipid homeostasis, but its relevance to the long-term risk of developing metabolic disorders is unknown. We therefore measured circulating miR-122 in the prospective population-based Bruneck Study (n = 810; survey year 1995). Circulating miR-122 was associated with prevalent insulin resistance, obesity, metabolic syndrome, type 2 diabetes, and an adverse lipid profile. Among 92 plasma proteins and 135 lipid subspecies quantified with mass spectrometry, it correlated inversely with zinc-α-2-glycoprotein and positively with afamin, complement factor H, VLDL-associated apolipoproteins, and lipid subspecies containing monounsaturated and saturated fatty acids. Proteomics analysis of livers from antagomiR-122–treated mice revealed novel regulators of hepatic lipid metabolism that are responsive to miR-122 inhibition. In the Anglo-Scandinavian Cardiac Outcomes Trial (ASCOT, n = 155), 12-month atorvastatin reduced circulating miR-122. A similar response to atorvastatin was observed in mice and cultured murine hepatocytes. Over up to 15 years of follow-up in the Bruneck Study, multivariable adjusted risk ratios per one-SD higher log miR-122 were 1.60 (95% CI 1.30–1.96; P < 0.001) for metabolic syndrome and 1.37 (1.03–1.82; P = 0.021) for type 2 diabetes. In conclusion, circulating miR-122 is strongly associated with the risk of developing metabolic syndrome and type 2 diabetes in the general population.

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