Identifying circulating microRNAs as biomarkers of cardiovascular disease: a systematic review

Navickas, Rokas; Gal, Diane; Laucevičius, Aleksandras; Taparauskaitė, Agnė; Zdanytė, Monika; Holvoet, Paul

doi:10.1093/cvr/cvw174

Cited by 292 publications

(250 citation statements)

References 161 publications

(231 reference statements)

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“…verifying their utility for the early diagnosis of AMI (12). Despite all these achievements, it is essential to carry out clinical studies, including groups of individuals who have genetic differences that might influence miR expression.…”

Section: Plasma Levels Of Mir208b (A) and Mir499 (B) Were Significantmentioning

confidence: 99%

“…In contrast, the levels of circulating plasma miRs can be measured rapidly using realtime PCR, offering two main advantages over standard antibody-based assays: increased sensitivity and specificity. Several studies have already considered circulating cardiacspecific or -enriched miRs as new biomarkers for the early diagnosis of AMI (8)(9)(10)(11)(12).…”

mentioning

confidence: 99%

“…In fact, the vast majority of these studies have been performed in Asian populations, while limited studies from European populations are also available (12). Consequently, better validation through larger studies is required for the establishment of miRs as biomarkers in clinical practice.…”

mentioning

confidence: 99%

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Expression of miR-208b and miR-499 in Greek Patients with Acute Myocardial Infarction

Αγιαννιτόπουλος

Pavlopoulou

Tsamis

et al. 2018

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Abstract. Background/Aim: Certain microRNAs (miRs) present in human plasma are candidate biomarkers for cardiovascular diseases, including acute myocardial infarction (AMI). We examined the expression of two cardiac-specific miRs (miR-208b and miR-499) MicroRNAs (miRs) are evolutionary small endogenous, noncoding, single-stranded RNAs involved in the regulation of gene expression at the post-transcriptional level (1). They possess an important role in multiple biological processes by binding to their target mRNAs and altering the protein expression of their candidate targets (2). Circulating miRs detected in serum or plasma, are actively secreted in macrovesicles or exosomes from different cell types (3), including cardiomyocytes. Elevated mRNA expression levels have been involved in numerous human pathologies including cardiovascular diseases (4).Acute myocardial infarction (AMI) is the acute necrosis of myocardial tissue due to persistent and severe ischemia, and remains a leading cause of morbidity and mortality worldwide (5). Accurate and rapid diagnosis is crucial for the clinical management and prognosis of AMI (6). Thus, exploration of new potential biomarkers that will contribute in this direction is particularly important. Although the circulating levels of cardiac troponin proteins are currently regarded as the most prominent biomarkers for the diagnosis of AMI, measurable amounts of troponins are not usually released from damaged myocardium earlier than 4-8 h after the onset of symptoms (6, 7). In contrast, the levels of circulating plasma miRs can be measured rapidly using realtime PCR, offering two main advantages over standard antibody-based assays: increased sensitivity and specificity. Several studies have already considered circulating cardiacspecific or -enriched miRs as new biomarkers for the early diagnosis of .In fact, the vast majority of these studies have been performed in Asian populations, while limited studies from European populations are also available (12). Consequently, better validation through larger studies is required for the establishment of miRs as biomarkers in clinical practice. Based on the elegant study of Huang et al. (13) who showed that miRNA expression levels exhibit population differences, and the recorded dysregulation of two specific myocardialderived miRNAs in AMI patients (14, 15), we decided to further investigate their expression in a Caucasian population. Specifically, the purpose of this study was to 313

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Section: Plasma Levels Of Mir208b (A) and Mir499 (B) Were Significantmentioning

confidence: 99%

mentioning

confidence: 99%

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Expression of miR-208b and miR-499 in Greek Patients with Acute Myocardial Infarction

Αγιαννιτόπουλος

Pavlopoulou

Tsamis

et al. 2018

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“…Conversely, abrogation of Nos3 promoter DNA methylation increases basal eNOS mRNA expression in vitro and protects against hind limb ischemia injury in vivo [75]. Similarly, growing evidence suggests a central role of miRNAs in the genesis of cardiometabolic dysfunction, also proposed as sensitive molecular markers of vascular disease [76]. In fact, we recently reported that circulating levels of miRNA Let-7 and miR-126 are associated with different traits of cardiometabolic dysfunction in children as well as have a predictive value for metabolic syndrome in these subjects [77].…”

Section: Epigenetics and Endothelial Dysfunctionmentioning

confidence: 99%

Epigenetic Programming of Cardiovascular Disease by Perinatal Hypoxia and Fetal Growth Restriction

Casanello¹,

Herrera²,

Krause³

2017

Hypoxia and Human Diseases

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Most of the worldwide deaths in patients with non-communicable diseases are due to cardiovascular and metabolic diseases, which are determined by a mix of environmental, genetic and epigenetic factors, and by their interactions. The aetiology of most cardiovascular diseases has been partially linked with in utero adverse conditions that may increase the risk of developing diseases later in life, known as Developmental Origins of Health and Disease (DOHaD). Perinatal hypoxia can program the fetal and postnatal developmental patterns, resulting in permanent modifications of cells, organs and systems function. In spite of the vast evidence obtained from human and animal studies linking development under adverse intrauterine conditions with increased cardiovascular risk, still few is known about the specific effects of intrauterine oxygen deficiency and the related pathogenic mechanisms. Currently, the most accepted processes that program cellular function are epigenetic mechanisms which determine gene expression in a cell-specific fashion. In this chapter we will review the current literature regarding the perinatal exposure to chronic hypoxia and Fetal Growth Restriction (FGR) in humans and animals and how this impinges the cardiovascular physiology through epigenetic, biochemical, morphologic and pathophysiologic modifications that translate into diseases blasting at postnatal life.

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“…Furthermore the promising role of miR-1 (3 studies) in the diagnosis of acute coronary syndromes and the regulation of miR-145 in STEMI patients is highlighted. A meta-analysis, however, is not presented because of heterogeneous study designs and analytical reasons (1).…”

Section: Recently Navickas Et Al Published a Review On The Role Of Mmentioning

confidence: 99%

The role of circulating microRNAs in acute coronary syndromes: ready for prime time?

Klug

Metzler

2016

Ann. Transl. Med.

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Identifying circulating microRNAs as biomarkers of cardiovascular disease: a systematic review

Cited by 292 publications

References 161 publications

Expression of miR-208b and miR-499 in Greek Patients with Acute Myocardial Infarction

Expression of miR-208b and miR-499 in Greek Patients with Acute Myocardial Infarction

Epigenetic Programming of Cardiovascular Disease by Perinatal Hypoxia and Fetal Growth Restriction

The role of circulating microRNAs in acute coronary syndromes: ready for prime time?

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