The influence of lifestyle factors on miRNA expression and signal pathways: a review

The term ‘lifestyle’ includes different factors that contribute to the maintenance of a good health status. Increasing evidences suggest that lifestyle factors may influence epigenetic mechanisms, such as miRNAs expression. The dysregulation of miRNAs can modify the expression of genes and molecular...

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Veröffentlicht in:	Epigenomics 2021-01, Vol.13 (2), p.145-164
Hauptverfasser:	Panico, Alessandra, Tumolo, Maria R, Leo, Carlo G, Donno, Antonella De, Grassi, Tiziana, Bagordo, Francesco, Serio, Francesca, Idolo, Adele, Masi, Roberto De, Mincarone, Pierpaolo, Sabina, Saverio
Format:	Artikel
Sprache:	eng
Schlagworte:	alcohol consumption Alcohol Drinking - genetics Animals diet Epigenesis, Genetic - genetics Exercise - genetics health Humans Life Style lifestyle MicroRNAs - genetics miRNA physical activity signal pathways Signal Transduction - genetics smoking Smoking - genetics
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container_title	Epigenomics
container_volume	13
creator	Panico, Alessandra Tumolo, Maria R Leo, Carlo G Donno, Antonella De Grassi, Tiziana Bagordo, Francesco Serio, Francesca Idolo, Adele Masi, Roberto De Mincarone, Pierpaolo Sabina, Saverio
description	The term ‘lifestyle’ includes different factors that contribute to the maintenance of a good health status. Increasing evidences suggest that lifestyle factors may influence epigenetic mechanisms, such as miRNAs expression. The dysregulation of miRNAs can modify the expression of genes and molecular pathways that may lead to functional alterations. This review summarizes human studies highlighting that diet, physical activity, smoking and alcohol consumption may affect the miRNA machinery and several biological functions. Most miRNAs are involved in molecular pathways that influence inflammation, cell cycle regulation and carcinogenesis resulting in the onset or progression of pathological conditions. Investigating these interactions will be pivotal for understanding the etiology of pathologic processes, the potential new treatment strategies and for preventing diseases.
doi_str_mv	10.2217/epi-2020-0289
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subjects	alcohol consumption Alcohol Drinking - genetics Animals diet Epigenesis, Genetic - genetics Exercise - genetics health Humans Life Style lifestyle MicroRNAs - genetics miRNA physical activity signal pathways Signal Transduction - genetics smoking Smoking - genetics
title	The influence of lifestyle factors on miRNA expression and signal pathways: a review
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