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MiR193a Modulation and Podocyte Phenotype †

Apolipoprotein L1 (APOL1)-miR193a axis has been reported to play a role in the maintenance of podocyte homeostasis. In the present study, we analyzed transcription factors relevant to miR193a in human podocytes and their effects on podocytes’ molecular phenotype. The motif scan of the miR193a gene p...

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Autores principales: Jha, Alok, Saha, Shourav, Ayasolla, Kamesh, Vashistha, Himanshu, Malhotra, Ashwani, Skorecki, Karl, Singhal, Pravin C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7226544/
https://www.ncbi.nlm.nih.gov/pubmed/32316697
http://dx.doi.org/10.3390/cells9041004
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author Jha, Alok
Saha, Shourav
Ayasolla, Kamesh
Vashistha, Himanshu
Malhotra, Ashwani
Skorecki, Karl
Singhal, Pravin C.
author_facet Jha, Alok
Saha, Shourav
Ayasolla, Kamesh
Vashistha, Himanshu
Malhotra, Ashwani
Skorecki, Karl
Singhal, Pravin C.
author_sort Jha, Alok
collection PubMed
description Apolipoprotein L1 (APOL1)-miR193a axis has been reported to play a role in the maintenance of podocyte homeostasis. In the present study, we analyzed transcription factors relevant to miR193a in human podocytes and their effects on podocytes’ molecular phenotype. The motif scan of the miR193a gene provided information about transcription factors, including YY1, WT1, Sox2, and VDR-RXR heterodimer, which could potentially bind to the miR193a promoter region to regulate miR193a expression. All structure models of these transcription factors and the tertiary structures of the miR193a promoter region were generated and refined using computational tools. The DNA-protein complexes of the miR193a promoter region and transcription factors were created using a docking approach. To determine the modulatory role of miR193a on APOL1 mRNA, the structural components of APOL1 3’ UTR and miR193a-5p were studied. Molecular Dynamic (MD) simulations validated interactions between miR193a and YY1/WT1/Sox2/VDR/APOL1 3′ UTR region. Undifferentiated podocytes (UPDs) displayed enhanced miR193a, YY1, and Sox2 but attenuated WT1, VDR, and APOL1 expressions, whereas differentiated podocytes (DPDs) exhibited attenuated miR193a, YY1, and Sox2 but increased WT1, VDR, APOL1 expressions. Inhibition of miR193a in UPDs enhanced the expression of APOL1 as well as of podocyte molecular markers; on the other hand, DPD-transfected with miR193a plasmid showed downing of APOL1 as well as podocyte molecular markers suggesting a causal relationship between miR193a and podocyte molecular markers. Silencing of YY1 and Sox2 in UPDs decreased the expression of miR193a but increased the expression of VDR, and CD2AP (a marker of DPDs); in contrast, silencing of WT1 and VDR in DPDs enhanced the expression of miR193a, YY1, and Sox2. Since miR193a-downing by Vitamin D receptor (VDR) agonist not only enhanced the mRNA expression of APOL1 but also of podocyte differentiating markers, suggest that down-regulation of miR193a could be used to enhance the expression of podocyte differentiating markers as a therapeutic strategy.
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spelling pubmed-72265442020-05-18 MiR193a Modulation and Podocyte Phenotype † Jha, Alok Saha, Shourav Ayasolla, Kamesh Vashistha, Himanshu Malhotra, Ashwani Skorecki, Karl Singhal, Pravin C. Cells Article Apolipoprotein L1 (APOL1)-miR193a axis has been reported to play a role in the maintenance of podocyte homeostasis. In the present study, we analyzed transcription factors relevant to miR193a in human podocytes and their effects on podocytes’ molecular phenotype. The motif scan of the miR193a gene provided information about transcription factors, including YY1, WT1, Sox2, and VDR-RXR heterodimer, which could potentially bind to the miR193a promoter region to regulate miR193a expression. All structure models of these transcription factors and the tertiary structures of the miR193a promoter region were generated and refined using computational tools. The DNA-protein complexes of the miR193a promoter region and transcription factors were created using a docking approach. To determine the modulatory role of miR193a on APOL1 mRNA, the structural components of APOL1 3’ UTR and miR193a-5p were studied. Molecular Dynamic (MD) simulations validated interactions between miR193a and YY1/WT1/Sox2/VDR/APOL1 3′ UTR region. Undifferentiated podocytes (UPDs) displayed enhanced miR193a, YY1, and Sox2 but attenuated WT1, VDR, and APOL1 expressions, whereas differentiated podocytes (DPDs) exhibited attenuated miR193a, YY1, and Sox2 but increased WT1, VDR, APOL1 expressions. Inhibition of miR193a in UPDs enhanced the expression of APOL1 as well as of podocyte molecular markers; on the other hand, DPD-transfected with miR193a plasmid showed downing of APOL1 as well as podocyte molecular markers suggesting a causal relationship between miR193a and podocyte molecular markers. Silencing of YY1 and Sox2 in UPDs decreased the expression of miR193a but increased the expression of VDR, and CD2AP (a marker of DPDs); in contrast, silencing of WT1 and VDR in DPDs enhanced the expression of miR193a, YY1, and Sox2. Since miR193a-downing by Vitamin D receptor (VDR) agonist not only enhanced the mRNA expression of APOL1 but also of podocyte differentiating markers, suggest that down-regulation of miR193a could be used to enhance the expression of podocyte differentiating markers as a therapeutic strategy. MDPI 2020-04-17 /pmc/articles/PMC7226544/ /pubmed/32316697 http://dx.doi.org/10.3390/cells9041004 Text en © 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/).
spellingShingle Article
Jha, Alok
Saha, Shourav
Ayasolla, Kamesh
Vashistha, Himanshu
Malhotra, Ashwani
Skorecki, Karl
Singhal, Pravin C.
MiR193a Modulation and Podocyte Phenotype †
title MiR193a Modulation and Podocyte Phenotype †
title_full MiR193a Modulation and Podocyte Phenotype †
title_fullStr MiR193a Modulation and Podocyte Phenotype †
title_full_unstemmed MiR193a Modulation and Podocyte Phenotype †
title_short MiR193a Modulation and Podocyte Phenotype †
title_sort mir193a modulation and podocyte phenotype †
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7226544/
https://www.ncbi.nlm.nih.gov/pubmed/32316697
http://dx.doi.org/10.3390/cells9041004
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