Characterising the transcriptional and translational impact of the schizophrenia-associated miR-1271-5p in neuronal cells

Kiltschewskij, Dylan J.; Geaghan, Michael P.; Cairns, Murray J.

Title: Characterising the transcriptional and translational impact of the schizophrenia-associated miR-1271-5p in neuronal cells
Creator: Kiltschewskij, Dylan J.; Geaghan, Michael P.; Cairns, Murray J.
Relation: NHMRC.1067137 http://purl.org/au-research/grants/nhmrc/1067137
Relation: Cells Vol. 9, Issue 4, no. 1014
Publisher Link: http://dx.doi.org/10.3390/cells9041014
Publisher: MDPI AG
Resource Type: journal article
Date: 2020
Description: MicroRNA (miRNA) coordinate complex gene expression networks in cells that are vital to support highly specialised morphology and cytoarchitecture. Neurons express a rich array of miRNA, including many that are specific or enriched, which have important functions in this context and implications for neurological conditions. While the neurological function of a number of brain-derived miRNAs have been examined thoroughly, the mechanistic basis of many remain obscure. In this case, we investigated the transcriptome-wide impact of schizophrenia-associated miR-1271-5p in response to bidirectional modulation. Alteration of miR-1271-5p induced considerable changes to mRNA abundance and translation, which spanned a diverse range of cellular functions, including directly targeted genes strongly associated with cytoskeletal dynamics and cellular junctions. Mechanistic analyses additionally revealed that upregulation of miR-1271-5p predominantly repressed mRNAs through destabilisation, wherein 3′UTR and coding sequence binding sites exhibited similar efficacy. Knockdown, however, produced no discernible trend in target gene expression and strikingly resulted in increased expression of the highly conserved miR-96-5p, which shares an identical seed region with miR-1271-5p, suggesting the presence of feedback mechanisms that sense disruptions to miRNA levels. These findings indicate that, while bidirectional regulation of miR-1271-5p results in substantial remodeling of the neuronal transcriptome, these effects are not inverse in nature. In addition, we provide further support for the idea that destabilisation of mRNA is the predominant mechanism by which miRNAs regulate complementary mRNAs.
Subject: microRNA; mRNA sequencing; ribosome profiling; translation; neuron
Identifier: http://hdl.handle.net/1959.13/1423944
Identifier: uon:37998
Identifier: ISSN:2073-4409
Rights: © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
Language: eng
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