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Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension
Iron–sulfur (Fe-S) clusters are essential for mitochondrial metabolism, but their regulation in pulmonary hypertension (PH) remains enigmatic. We demonstrate that alterations of the miR-210-ISCU1/2 axis cause Fe-S deficiencies in vivo and promote PH. In pulmonary vascular cells and particularly endo...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
BlackWell Publishing Ltd
2015
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4459813/ https://www.ncbi.nlm.nih.gov/pubmed/25825391 http://dx.doi.org/10.15252/emmm.201404511 |
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| author | White, Kevin Lu, Yu Annis, Sofia Hale, Andrew E Chau, B Nelson Dahlman, James E Hemann, Craig Opotowsky, Alexander R Vargas, Sara O Rosas, Ivan Perrella, Mark A Osorio, Juan C Haley, Kathleen J Graham, Brian B Kumar, Rahul Saggar, Rajan Saggar, Rajeev Wallace, W Dean Ross, David J Khan, Omar F Bader, Andrew Gochuico, Bernadette R Matar, Majed Polach, Kevin Johannessen, Nicolai M Prosser, Haydn M Anderson, Daniel G Langer, Robert Zweier, Jay L Bindoff, Laurence A Systrom, David Waxman, Aaron B Jin, Richard C Chan, Stephen Y |
| author_facet | White, Kevin Lu, Yu Annis, Sofia Hale, Andrew E Chau, B Nelson Dahlman, James E Hemann, Craig Opotowsky, Alexander R Vargas, Sara O Rosas, Ivan Perrella, Mark A Osorio, Juan C Haley, Kathleen J Graham, Brian B Kumar, Rahul Saggar, Rajan Saggar, Rajeev Wallace, W Dean Ross, David J Khan, Omar F Bader, Andrew Gochuico, Bernadette R Matar, Majed Polach, Kevin Johannessen, Nicolai M Prosser, Haydn M Anderson, Daniel G Langer, Robert Zweier, Jay L Bindoff, Laurence A Systrom, David Waxman, Aaron B Jin, Richard C Chan, Stephen Y |
| author_sort | White, Kevin |
| collection | PubMed |
| description | Iron–sulfur (Fe-S) clusters are essential for mitochondrial metabolism, but their regulation in pulmonary hypertension (PH) remains enigmatic. We demonstrate that alterations of the miR-210-ISCU1/2 axis cause Fe-S deficiencies in vivo and promote PH. In pulmonary vascular cells and particularly endothelium, hypoxic induction of miR-210 and repression of the miR-210 targets ISCU1/2 down-regulated Fe-S levels. In mouse and human vascular and endothelial tissue affected by PH, miR-210 was elevated accompanied by decreased ISCU1/2 and Fe-S integrity. In mice, miR-210 repressed ISCU1/2 and promoted PH. Mice deficient in miR-210, via genetic/pharmacologic means or via an endothelial-specific manner, displayed increased ISCU1/2 and were resistant to Fe-S-dependent pathophenotypes and PH. Similar to hypoxia or miR-210 overexpression, ISCU1/2 knockdown also promoted PH. Finally, cardiopulmonary exercise testing of a woman with homozygous ISCU mutations revealed exercise-induced pulmonary vascular dysfunction. Thus, driven by acquired (hypoxia) or genetic causes, the miR-210-ISCU1/2 regulatory axis is a pathogenic lynchpin causing Fe-S deficiency and PH. These findings carry broad translational implications for defining the metabolic origins of PH and potentially other metabolic diseases sharing similar underpinnings. |
| format | Online Article Text |
| id | pubmed-4459813 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2015 |
| publisher | BlackWell Publishing Ltd |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-44598132015-06-12 Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension White, Kevin Lu, Yu Annis, Sofia Hale, Andrew E Chau, B Nelson Dahlman, James E Hemann, Craig Opotowsky, Alexander R Vargas, Sara O Rosas, Ivan Perrella, Mark A Osorio, Juan C Haley, Kathleen J Graham, Brian B Kumar, Rahul Saggar, Rajan Saggar, Rajeev Wallace, W Dean Ross, David J Khan, Omar F Bader, Andrew Gochuico, Bernadette R Matar, Majed Polach, Kevin Johannessen, Nicolai M Prosser, Haydn M Anderson, Daniel G Langer, Robert Zweier, Jay L Bindoff, Laurence A Systrom, David Waxman, Aaron B Jin, Richard C Chan, Stephen Y EMBO Mol Med Research Articles Iron–sulfur (Fe-S) clusters are essential for mitochondrial metabolism, but their regulation in pulmonary hypertension (PH) remains enigmatic. We demonstrate that alterations of the miR-210-ISCU1/2 axis cause Fe-S deficiencies in vivo and promote PH. In pulmonary vascular cells and particularly endothelium, hypoxic induction of miR-210 and repression of the miR-210 targets ISCU1/2 down-regulated Fe-S levels. In mouse and human vascular and endothelial tissue affected by PH, miR-210 was elevated accompanied by decreased ISCU1/2 and Fe-S integrity. In mice, miR-210 repressed ISCU1/2 and promoted PH. Mice deficient in miR-210, via genetic/pharmacologic means or via an endothelial-specific manner, displayed increased ISCU1/2 and were resistant to Fe-S-dependent pathophenotypes and PH. Similar to hypoxia or miR-210 overexpression, ISCU1/2 knockdown also promoted PH. Finally, cardiopulmonary exercise testing of a woman with homozygous ISCU mutations revealed exercise-induced pulmonary vascular dysfunction. Thus, driven by acquired (hypoxia) or genetic causes, the miR-210-ISCU1/2 regulatory axis is a pathogenic lynchpin causing Fe-S deficiency and PH. These findings carry broad translational implications for defining the metabolic origins of PH and potentially other metabolic diseases sharing similar underpinnings. BlackWell Publishing Ltd 2015-06 2015-03-30 /pmc/articles/PMC4459813/ /pubmed/25825391 http://dx.doi.org/10.15252/emmm.201404511 Text en © 2015 The Authors. Published under the terms of the CC BY 4.0 license http://creativecommons.org/licenses/by/4.0/ This is an open access article under the terms of the Creative Commons Attribution 4.0 License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Research Articles White, Kevin Lu, Yu Annis, Sofia Hale, Andrew E Chau, B Nelson Dahlman, James E Hemann, Craig Opotowsky, Alexander R Vargas, Sara O Rosas, Ivan Perrella, Mark A Osorio, Juan C Haley, Kathleen J Graham, Brian B Kumar, Rahul Saggar, Rajan Saggar, Rajeev Wallace, W Dean Ross, David J Khan, Omar F Bader, Andrew Gochuico, Bernadette R Matar, Majed Polach, Kevin Johannessen, Nicolai M Prosser, Haydn M Anderson, Daniel G Langer, Robert Zweier, Jay L Bindoff, Laurence A Systrom, David Waxman, Aaron B Jin, Richard C Chan, Stephen Y Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title | Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title_full | Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title_fullStr | Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title_full_unstemmed | Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title_short | Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| title_sort | genetic and hypoxic alterations of the microrna-210-iscu1/2 axis promote iron–sulfur deficiency and pulmonary hypertension |
| topic | Research Articles |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4459813/ https://www.ncbi.nlm.nih.gov/pubmed/25825391 http://dx.doi.org/10.15252/emmm.201404511 |
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