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Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs

The chondrocyte-specific miR-140 miRNAs are necessary for normal endochondral bone growth in mice. miR-140 deficiency causes dwarfism and craniofacial deformity. However, the physiologically important targets of miR-140 miRNAs are still unclear. The miR-140 gene (Mir140) encodes three chondrocyte-sp...

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Autores principales: Young, Cameron, Caffrey, Melissa, Janton, Christopher, Kobayashi, Tatsuya
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9074898/
https://www.ncbi.nlm.nih.gov/pubmed/35332065
http://dx.doi.org/10.1261/rna.079013.121
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author Young, Cameron
Caffrey, Melissa
Janton, Christopher
Kobayashi, Tatsuya
author_facet Young, Cameron
Caffrey, Melissa
Janton, Christopher
Kobayashi, Tatsuya
author_sort Young, Cameron
collection PubMed
description The chondrocyte-specific miR-140 miRNAs are necessary for normal endochondral bone growth in mice. miR-140 deficiency causes dwarfism and craniofacial deformity. However, the physiologically important targets of miR-140 miRNAs are still unclear. The miR-140 gene (Mir140) encodes three chondrocyte-specific microRNAs, miR-140-5p, derived from the 5′ strand of primary miR-140, and miR140-3p.1 and -3p.2, derived from the 3′ strand of primary miR-140. miR-140-3p miRNAs are 10 times more abundant than miR-140-5p likely due to the nonpreferential loading of miR-140-5p to Argonaute proteins. To differentiate the role of miR-140-5p and -3p miRNAs in endochondral bone development, two distinct mouse models, miR140-C > T, in which the first nucleotide of miR-140-5p was altered from cytosine to uridine, and miR140-CG, where the first two nucleotides of miR-140-3p were changed to cytosine and guanine, were created. These changes are expected to alter Argonaute protein loading preference of -5p and -3p to increase -5p loading and decrease -3p loading without changing the function of miR140-5p. These models presented a mild delay in epiphyseal development with delayed chondrocyte maturation. Using RNA-sequencing analysis of the two models, direct targets of miR140-5p, including Wnt11, were identified. Disruption of the predicted miR140-5p binding site in the 3′ untranslated region of Wnt11 was shown to increase Wnt11 mRNA expression and caused a modest acceleration of epiphyseal development. These results show that the relative abundance of miRNA-5p and -3p can be altered by changing the first nucleotide of miRNAs in vivo, and this method can be useful to identify physiologically important miRNA targets.
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spelling pubmed-90748982023-06-01 Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs Young, Cameron Caffrey, Melissa Janton, Christopher Kobayashi, Tatsuya RNA Article The chondrocyte-specific miR-140 miRNAs are necessary for normal endochondral bone growth in mice. miR-140 deficiency causes dwarfism and craniofacial deformity. However, the physiologically important targets of miR-140 miRNAs are still unclear. The miR-140 gene (Mir140) encodes three chondrocyte-specific microRNAs, miR-140-5p, derived from the 5′ strand of primary miR-140, and miR140-3p.1 and -3p.2, derived from the 3′ strand of primary miR-140. miR-140-3p miRNAs are 10 times more abundant than miR-140-5p likely due to the nonpreferential loading of miR-140-5p to Argonaute proteins. To differentiate the role of miR-140-5p and -3p miRNAs in endochondral bone development, two distinct mouse models, miR140-C > T, in which the first nucleotide of miR-140-5p was altered from cytosine to uridine, and miR140-CG, where the first two nucleotides of miR-140-3p were changed to cytosine and guanine, were created. These changes are expected to alter Argonaute protein loading preference of -5p and -3p to increase -5p loading and decrease -3p loading without changing the function of miR140-5p. These models presented a mild delay in epiphyseal development with delayed chondrocyte maturation. Using RNA-sequencing analysis of the two models, direct targets of miR140-5p, including Wnt11, were identified. Disruption of the predicted miR140-5p binding site in the 3′ untranslated region of Wnt11 was shown to increase Wnt11 mRNA expression and caused a modest acceleration of epiphyseal development. These results show that the relative abundance of miRNA-5p and -3p can be altered by changing the first nucleotide of miRNAs in vivo, and this method can be useful to identify physiologically important miRNA targets. Cold Spring Harbor Laboratory Press 2022-06 /pmc/articles/PMC9074898/ /pubmed/35332065 http://dx.doi.org/10.1261/rna.079013.121 Text en © 2022 Young et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society https://creativecommons.org/licenses/by-nc/4.0/This article is distributed exclusively by the RNA Society for the first 12 months after the full-issue publication date (see http://rnajournal.cshlp.org/site/misc/terms.xhtml). After 12 months, it is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) .
spellingShingle Article
Young, Cameron
Caffrey, Melissa
Janton, Christopher
Kobayashi, Tatsuya
Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title_full Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title_fullStr Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title_full_unstemmed Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title_short Reversing the miRNA -5p/-3p stoichiometry reveals physiological roles and targets of miR-140 miRNAs
title_sort reversing the mirna -5p/-3p stoichiometry reveals physiological roles and targets of mir-140 mirnas
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9074898/
https://www.ncbi.nlm.nih.gov/pubmed/35332065
http://dx.doi.org/10.1261/rna.079013.121
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