Normalization strategies differently affect circulating miRNA profile associated with the training status

MicroRNAs are fine regulators of the whole-body adaptive response but their use as biomarkers is limited by the lack of standardized pre- and post-analytical procedures. This work aimed to compare different normalization approaches for RT-qPCR data analyses, in order to identify the most reliable an...

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Veröffentlicht in:	Scientific reports 2019-02, Vol.9 (1), p.1584-1584, Article 1584
Hauptverfasser:	Faraldi, Martina, Gomarasca, Marta, Sansoni, Veronica, Perego, Silvia, Banfi, Giuseppe, Lombardi, Giovanni
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Sprache:	eng
Schlagworte:	38 38/90 45/77 631/337/384/331 692/53/2423 Biomarkers Data processing Epigenetics Humanities and Social Sciences miRNA multidisciplinary Oligonucleotides Science Science (multidisciplinary) Skeletal muscle
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creator	Faraldi, Martina Gomarasca, Marta Sansoni, Veronica Perego, Silvia Banfi, Giuseppe Lombardi, Giovanni
description	MicroRNAs are fine regulators of the whole-body adaptive response but their use as biomarkers is limited by the lack of standardized pre- and post-analytical procedures. This work aimed to compare different normalization approaches for RT-qPCR data analyses, in order to identify the most reliable and reproducible method to analyze circulating miRNA expression profiles in sedentary and highly-trained subjects. As the physically active status is known to affect miRNA expression, they could be effective biomarkers of the homeostatic response. Following RNA extraction from plasma, a panel of 179 miRNAs was assayed by RT-qPCR and quantified by applying different normalization strategies based on endogenous miRNAs and exogenous oligonucleotides. hsa-miR-320d was found as the most appropriate reference miRNA in reducing the technical variability among the experimental replicates and, hence, in highlighting the inter-cohorts differences. Our data showed an association between the physically active status and specific skeletal muscle- and bone-associated circulating miRNAs profiles, revealing that established epigenetic modifications affect the baseline physiological status of these tissues. Since different normalization strategies led to different outputs, in order to avoid misleading interpretation of data, we remark the importance of the accurate choice of the most reliable normalization method in every experimental setting.
doi_str_mv	10.1038/s41598-019-38505-x
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subjects	38 38/90 45/77 631/337/384/331 692/53/2423 Biomarkers Data processing Epigenetics Humanities and Social Sciences miRNA multidisciplinary Oligonucleotides Science Science (multidisciplinary) Skeletal muscle
title	Normalization strategies differently affect circulating miRNA profile associated with the training status
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