Molecular Aspects of Pancreatic β-cell Dysfunction: Oxidative Stress, MicroRNA, and Long Noncoding RNA

Overview

Journal J Cell Physiol

Specialties Cell Biology
Physiology

Date 2018 Dec 20

PMID 30565679

Citations 32

Authors

Mohammad Javad Saeedi Borujeni

Ebrahim Esfandiary

Azar Baradaran

Ali Valiani

Mustafa Ghanadian

Pilar Codoner-Franch

Reyhane Basirat

Eulalia Alonso-Iglesias

Hamed Mirzaei

Amid Yazdani

Affiliations

Soon will be listed here.

Abstract

Metabolic syndrome is known as a frequent precursor of type 2 diabetes mellitus (T2D). This disease could affect 8% of the people worldwide. Given that pancreatic β-cell dysfunction and loss have central roles in the initiation and progression of the disease, the understanding of cellular and molecular pathways associated with pancreatic β-cell dysfunction can provide more information about the underlying pathways involved in T2D. Multiple lines evidence indicated that oxidative stress, microRNA, and long noncoding RNA play significant roles in various steps of diseases. Oxidative stress is one of the important factors involved in T2D pathogenesis. This could affect the function and survival of the β cell via activation or inhibition of several processes and targets, such as receptor-signal transduction, enzyme activity, gene expression, ion channel transport, and apoptosis. Besides oxidative stress, microRNAs and noncoding RNAs have emerged as epigenetic regulators that could affect pancreatic β-cell dysfunction. These molecules exert their effects via targeting a variety of cellular and molecular pathways involved in T2D pathogenesis. Here, we summarized the molecular aspects of pancreatic β-cell dysfunction. Moreover, we highlighted the roles of oxidative stress, microRNAs, and noncoding RNAs in pancreatic β-cell dysfunction.

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