Regulation of Connexins Expression Levels by MicroRNAs, an Update

Date

2016

Type:

Artículo

item.page.extent

8

item.page.accessRights

item.contributor.advisor

ORCID:

Journal Title

Journal ISSN

Volume Title

Publisher

Frontiers Research Foundation

item.page.isbn

item.page.issn

item.page.issne

item.page.doiurl

item.page.other

item.page.references

Abstract

Control of cell-cell coordination and communication is regulated by several factors, including paracrine and autocrine release of biomolecules, and direct exchange of soluble factors between cells through gap junction channels. Additionally, hemichannels also participate in cell-cell coordination through the release of signaling molecules, such as ATP and glutamate. A family of transmembrane proteins named connexins forms both gap junction channels and hemichannels. Because of their importance in cell and tissue coordination, connexins are controlled both by post-translational and post-transcriptional modifications. In recent years, non-coding RNAs have garnered research interest due to their ability to exert post-transcriptional regulation of gene expression. One of the most recent, well-documented control mechanisms of protein synthesis is found through the action of small, single-stranded RNA, called micro RNAs (miRNAs or miRs). Put simply, miRNAs are negative regulators of the expression of a myriad proteins involved in many physiological and pathological processes. This mini review will briefly summarize what is currently known about the action of miRNAs over Cxs expression/function in different organs under some relevant physiological and pathological conditions.

Description

item.page.coverage.spatial

item.page.sponsorship

Citation

Calderón JF, Retamal MA. Regulation of Connexins Expression Levels by MicroRNAs, an Update. Front Physiol. 2016 Nov 25;7:558

Keywords

Connexins, hemichannels, miRNA, postranscriptional regulation, non-coding RNA, cellular communication

item.page.dc.rights

item.page.dc.rights.url