Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart

Type 2 diabetes (T2D) impairs hypoxia-inducible factor (HIF)1α activation, a master transcription factor that drives cellular adaptation to hypoxia. Reduced activation of HIF1α contributes to the impaired post-ischemic remodeling observed following myocardial infarction in T2D. Molidustat is an HIF...

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Autores principales: Sousa Fialho, Maria da Luz, Purnama, Ujang, Dennis, Kaitlyn M.J.H., Montes Aparicio, Claudia N., Castro-Guarda, Marcos, Massourides, Emmanuelle, Tyler, Damian J., Carr, Carolyn A., Heather, Lisa C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Diabetes Association 2021
Materias:
Metabolism
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8564414/
https://www.ncbi.nlm.nih.gov/pubmed/34526367
http://dx.doi.org/10.2337/db21-0398
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author Sousa Fialho, Maria da Luz
Purnama, Ujang
Dennis, Kaitlyn M.J.H.
Montes Aparicio, Claudia N.
Castro-Guarda, Marcos
Massourides, Emmanuelle
Tyler, Damian J.
Carr, Carolyn A.
Heather, Lisa C.
author_facet Sousa Fialho, Maria da Luz
Purnama, Ujang
Dennis, Kaitlyn M.J.H.
Montes Aparicio, Claudia N.
Castro-Guarda, Marcos
Massourides, Emmanuelle
Tyler, Damian J.
Carr, Carolyn A.
Heather, Lisa C.
author_sort Sousa Fialho, Maria da Luz
collection PubMed
description Type 2 diabetes (T2D) impairs hypoxia-inducible factor (HIF)1α activation, a master transcription factor that drives cellular adaptation to hypoxia. Reduced activation of HIF1α contributes to the impaired post-ischemic remodeling observed following myocardial infarction in T2D. Molidustat is an HIF stabilizer currently undergoing clinical trials for the treatment of renal anemia associated with chronic kidney disease; however, it may provide a route to pharmacologically activate HIF1α in the T2D heart. In human cardiomyocytes, molidustat stabilized HIF1α and downstream HIF target genes, promoting anaerobic glucose metabolism. In hypoxia, insulin resistance blunted HIF1α activation and downstream signaling, but this was reversed by molidustat. In T2D rats, oral treatment with molidustat rescued the cardiac metabolic dysfunction caused by T2D, promoting glucose metabolism and mitochondrial function, while suppressing fatty acid oxidation and lipid accumulation. This resulted in beneficial effects on post-ischemic cardiac function, with the impaired contractile recovery in T2D heart reversed by molidustat treatment. In conclusion, pharmacological HIF1α stabilization can overcome the blunted hypoxic response induced by insulin resistance. In vivo this corrected the abnormal metabolic phenotype and impaired post-ischemic recovery of the diabetic heart. Therefore, molidustat may be an effective compound to further explore the clinical translatability of HIF1α activation in the diabetic heart.
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spelling pubmed-85644142021-11-15 Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart Sousa Fialho, Maria da Luz Purnama, Ujang Dennis, Kaitlyn M.J.H. Montes Aparicio, Claudia N. Castro-Guarda, Marcos Massourides, Emmanuelle Tyler, Damian J. Carr, Carolyn A. Heather, Lisa C. Diabetes Metabolism Type 2 diabetes (T2D) impairs hypoxia-inducible factor (HIF)1α activation, a master transcription factor that drives cellular adaptation to hypoxia. Reduced activation of HIF1α contributes to the impaired post-ischemic remodeling observed following myocardial infarction in T2D. Molidustat is an HIF stabilizer currently undergoing clinical trials for the treatment of renal anemia associated with chronic kidney disease; however, it may provide a route to pharmacologically activate HIF1α in the T2D heart. In human cardiomyocytes, molidustat stabilized HIF1α and downstream HIF target genes, promoting anaerobic glucose metabolism. In hypoxia, insulin resistance blunted HIF1α activation and downstream signaling, but this was reversed by molidustat. In T2D rats, oral treatment with molidustat rescued the cardiac metabolic dysfunction caused by T2D, promoting glucose metabolism and mitochondrial function, while suppressing fatty acid oxidation and lipid accumulation. This resulted in beneficial effects on post-ischemic cardiac function, with the impaired contractile recovery in T2D heart reversed by molidustat treatment. In conclusion, pharmacological HIF1α stabilization can overcome the blunted hypoxic response induced by insulin resistance. In vivo this corrected the abnormal metabolic phenotype and impaired post-ischemic recovery of the diabetic heart. Therefore, molidustat may be an effective compound to further explore the clinical translatability of HIF1α activation in the diabetic heart. American Diabetes Association 2021-11 2021-09-15 /pmc/articles/PMC8564414/ /pubmed/34526367 http://dx.doi.org/10.2337/db21-0398 Text en © 2021 by the American Diabetes Association https://www.diabetesjournals.org/content/licenseReaders may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered. More information is available at https://www.diabetesjournals.org/content/license.
spellingShingle Metabolism
Sousa Fialho, Maria da Luz
Purnama, Ujang
Dennis, Kaitlyn M.J.H.
Montes Aparicio, Claudia N.
Castro-Guarda, Marcos
Massourides, Emmanuelle
Tyler, Damian J.
Carr, Carolyn A.
Heather, Lisa C.
Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title_full Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title_fullStr Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title_full_unstemmed Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title_short Activation of HIF1α Rescues the Hypoxic Response and Reverses Metabolic Dysfunction in the Diabetic Heart
title_sort activation of hif1α rescues the hypoxic response and reverses metabolic dysfunction in the diabetic heart
topic Metabolism
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8564414/
https://www.ncbi.nlm.nih.gov/pubmed/34526367
http://dx.doi.org/10.2337/db21-0398
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