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microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery
BACKGROUND: Peripheral artery disease is caused by atherosclerotic occlusion of vessels outside the heart and most commonly affects vessels of the lower extremities. Angiogenesis is a part of the postischemic adaptation involved in restoring blood flow in peripheral artery disease. Previously, in a...
Autores principales: | , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
John Wiley and Sons Inc.
2022
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9496313/ https://www.ncbi.nlm.nih.gov/pubmed/35946473 http://dx.doi.org/10.1161/JAHA.122.025727 |
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author | Lamin, Victor Verry, Joseph Dokun, Olumayowa S. Kronemberger, Ana Wong, Thomas Lira, Vitor A. Dokun, Ayotunde O. |
author_facet | Lamin, Victor Verry, Joseph Dokun, Olumayowa S. Kronemberger, Ana Wong, Thomas Lira, Vitor A. Dokun, Ayotunde O. |
author_sort | Lamin, Victor |
collection | PubMed |
description | BACKGROUND: Peripheral artery disease is caused by atherosclerotic occlusion of vessels outside the heart and most commonly affects vessels of the lower extremities. Angiogenesis is a part of the postischemic adaptation involved in restoring blood flow in peripheral artery disease. Previously, in a murine hind limb ischemia model of peripheral artery disease, we identified ADAM12 (a disintegrin and metalloproteinase gene 12) as a key genetic modifier of postischemic perfusion recovery. However, less is known about ADAM12 regulation in ischemia. MicroRNAs are a class of small, noncoding, single‐stranded RNAs that regulate gene expression primarily through transcriptional repression of messenger RNA (mRNA). We showed microRNA‐29a (miR‐29a) modulates ADAM12 expression in the setting of diabetes and ischemia. However, how miR‐29a modulates ADAM12 is not known. Moreover, the physiological effects of miR‐29a modulation in a nondiabetic setting is not known. METHODS AND RESULTS: We overexpressed or inhibited miR‐29a in ischemic mouse gastrocnemius and tibialis anterior muscles, and quantified the effect on perfusion recovery, ADAM12 expression, angiogenesis, and skeletal muscle regeneration. In addition, using RNA immunoprecipitation–based anti‐miR competitive assay, we investigated the interaction of miR‐29a and ADAM12 mRNA in mouse microvascular endothelial cell, skeletal muscle, and human endothelial cell lysates. Ectopic expression of miR‐29a in ischemic mouse hind limbs decreased ADAM12 mRNA expression, increased skeletal muscle injury, decreased skeletal muscle function, and decreased angiogenesis and perfusion recovery, with no effect on skeletal muscle regeneration and myofiber cross‐sectional area following hind limb ischemia. RNA immunoprecipitation–based anti‐miR competitive assay studies showed miR‐29a antagomir displaced miR‐29a and ADAM12 mRNA from the AGO‐2 (Argonaut‐2) complex in a dose dependent manner. CONCLUSIONS: Taken together, the data show miR‐29a suppresses ADAM12 expression by directly binding to its mRNA, resulting in impaired skeletal muscle function, angiogenesis, and poor perfusion. Hence, elevated levels of miR‐29a, as seen in diabetes and aging, likely contribute to vascular pathology, and modulation of miR‐29a could be a therapeutic target. |
format | Online Article Text |
id | pubmed-9496313 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2022 |
publisher | John Wiley and Sons Inc. |
record_format | MEDLINE/PubMed |
spelling | pubmed-94963132022-09-30 microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery Lamin, Victor Verry, Joseph Dokun, Olumayowa S. Kronemberger, Ana Wong, Thomas Lira, Vitor A. Dokun, Ayotunde O. J Am Heart Assoc Original Research BACKGROUND: Peripheral artery disease is caused by atherosclerotic occlusion of vessels outside the heart and most commonly affects vessels of the lower extremities. Angiogenesis is a part of the postischemic adaptation involved in restoring blood flow in peripheral artery disease. Previously, in a murine hind limb ischemia model of peripheral artery disease, we identified ADAM12 (a disintegrin and metalloproteinase gene 12) as a key genetic modifier of postischemic perfusion recovery. However, less is known about ADAM12 regulation in ischemia. MicroRNAs are a class of small, noncoding, single‐stranded RNAs that regulate gene expression primarily through transcriptional repression of messenger RNA (mRNA). We showed microRNA‐29a (miR‐29a) modulates ADAM12 expression in the setting of diabetes and ischemia. However, how miR‐29a modulates ADAM12 is not known. Moreover, the physiological effects of miR‐29a modulation in a nondiabetic setting is not known. METHODS AND RESULTS: We overexpressed or inhibited miR‐29a in ischemic mouse gastrocnemius and tibialis anterior muscles, and quantified the effect on perfusion recovery, ADAM12 expression, angiogenesis, and skeletal muscle regeneration. In addition, using RNA immunoprecipitation–based anti‐miR competitive assay, we investigated the interaction of miR‐29a and ADAM12 mRNA in mouse microvascular endothelial cell, skeletal muscle, and human endothelial cell lysates. Ectopic expression of miR‐29a in ischemic mouse hind limbs decreased ADAM12 mRNA expression, increased skeletal muscle injury, decreased skeletal muscle function, and decreased angiogenesis and perfusion recovery, with no effect on skeletal muscle regeneration and myofiber cross‐sectional area following hind limb ischemia. RNA immunoprecipitation–based anti‐miR competitive assay studies showed miR‐29a antagomir displaced miR‐29a and ADAM12 mRNA from the AGO‐2 (Argonaut‐2) complex in a dose dependent manner. CONCLUSIONS: Taken together, the data show miR‐29a suppresses ADAM12 expression by directly binding to its mRNA, resulting in impaired skeletal muscle function, angiogenesis, and poor perfusion. Hence, elevated levels of miR‐29a, as seen in diabetes and aging, likely contribute to vascular pathology, and modulation of miR‐29a could be a therapeutic target. John Wiley and Sons Inc. 2022-08-10 /pmc/articles/PMC9496313/ /pubmed/35946473 http://dx.doi.org/10.1161/JAHA.122.025727 Text en © 2022 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made. |
spellingShingle | Original Research Lamin, Victor Verry, Joseph Dokun, Olumayowa S. Kronemberger, Ana Wong, Thomas Lira, Vitor A. Dokun, Ayotunde O. microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title |
microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title_full |
microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title_fullStr |
microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title_full_unstemmed |
microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title_short |
microRNA‐29a Regulates ADAM12 Through Direct Interaction With ADAM12 mRNA and Modulates Postischemic Perfusion Recovery |
title_sort | microrna‐29a regulates adam12 through direct interaction with adam12 mrna and modulates postischemic perfusion recovery |
topic | Original Research |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9496313/ https://www.ncbi.nlm.nih.gov/pubmed/35946473 http://dx.doi.org/10.1161/JAHA.122.025727 |
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