microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis

Idiopathic pulmonary fibrosis (IPF) is a progressive and ultimately fatal disease. Recent findings have shown a marked metabolic reprogramming associated with changes in mitochondrial homeostasis and autophagy during pulmonary fibrosis. The microRNA-33 (miR-33) family of microRNAs (miRNAs) encoded w...

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Autores principales: Ahangari, Farida, Price, Nathan L., Malik, Shipra, Chioccioli, Maurizio, Bärnthaler, Thomas, Adams, Taylor S., Kim, Jooyoung, Pradeep, Sai Pallavi, Ding, Shuizi, Cosmos, Carlos, Rose, Kadi-Ann S., McDonough, John E., Aurelien, Nachelle R., Ibarra, Gabriel, Omote, Norihito, Schupp, Jonas C., DeIuliis, Giuseppe, Villalba Nunez, Julian A., Sharma, Lokesh, Ryu, Changwan, Dela Cruz, Charles S., Liu, Xinran, Prasse, Antje, Rosas, Ivan, Bahal, Raman, Fernández-Hernando, Carlos, Kaminski, Naftali
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9977502/
https://www.ncbi.nlm.nih.gov/pubmed/36626225
http://dx.doi.org/10.1172/jci.insight.158100
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author Ahangari, Farida
Price, Nathan L.
Malik, Shipra
Chioccioli, Maurizio
Bärnthaler, Thomas
Adams, Taylor S.
Kim, Jooyoung
Pradeep, Sai Pallavi
Ding, Shuizi
Cosmos, Carlos
Rose, Kadi-Ann S.
McDonough, John E.
Aurelien, Nachelle R.
Ibarra, Gabriel
Omote, Norihito
Schupp, Jonas C.
DeIuliis, Giuseppe
Villalba Nunez, Julian A.
Sharma, Lokesh
Ryu, Changwan
Dela Cruz, Charles S.
Liu, Xinran
Prasse, Antje
Rosas, Ivan
Bahal, Raman
Fernández-Hernando, Carlos
Kaminski, Naftali
author_facet Ahangari, Farida
Price, Nathan L.
Malik, Shipra
Chioccioli, Maurizio
Bärnthaler, Thomas
Adams, Taylor S.
Kim, Jooyoung
Pradeep, Sai Pallavi
Ding, Shuizi
Cosmos, Carlos
Rose, Kadi-Ann S.
McDonough, John E.
Aurelien, Nachelle R.
Ibarra, Gabriel
Omote, Norihito
Schupp, Jonas C.
DeIuliis, Giuseppe
Villalba Nunez, Julian A.
Sharma, Lokesh
Ryu, Changwan
Dela Cruz, Charles S.
Liu, Xinran
Prasse, Antje
Rosas, Ivan
Bahal, Raman
Fernández-Hernando, Carlos
Kaminski, Naftali
author_sort Ahangari, Farida
collection PubMed
description Idiopathic pulmonary fibrosis (IPF) is a progressive and ultimately fatal disease. Recent findings have shown a marked metabolic reprogramming associated with changes in mitochondrial homeostasis and autophagy during pulmonary fibrosis. The microRNA-33 (miR-33) family of microRNAs (miRNAs) encoded within the introns of sterol regulatory element binding protein (SREBP) genes are master regulators of sterol and fatty acid (FA) metabolism. miR-33 controls macrophage immunometabolic response and enhances mitochondrial biogenesis, FA oxidation, and cholesterol efflux. Here, we show that miR-33 levels are increased in bronchoalveolar lavage (BAL) cells isolated from patients with IPF compared with healthy controls. We demonstrate that specific genetic ablation of miR-33 in macrophages protects against bleomycin-induced pulmonary fibrosis. The absence of miR-33 in macrophages improves mitochondrial homeostasis and increases autophagy while decreasing inflammatory response after bleomycin injury. Notably, pharmacological inhibition of miR-33 in macrophages via administration of anti–miR-33 peptide nucleic acids (PNA-33) attenuates fibrosis in different in vivo and ex vivo mice and human models of pulmonary fibrosis. These studies elucidate a major role of miR-33 in macrophages in the regulation of pulmonary fibrosis and uncover a potentially novel therapeutic approach to treat this disease.
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spelling pubmed-99775022023-03-02 microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis Ahangari, Farida Price, Nathan L. Malik, Shipra Chioccioli, Maurizio Bärnthaler, Thomas Adams, Taylor S. Kim, Jooyoung Pradeep, Sai Pallavi Ding, Shuizi Cosmos, Carlos Rose, Kadi-Ann S. McDonough, John E. Aurelien, Nachelle R. Ibarra, Gabriel Omote, Norihito Schupp, Jonas C. DeIuliis, Giuseppe Villalba Nunez, Julian A. Sharma, Lokesh Ryu, Changwan Dela Cruz, Charles S. Liu, Xinran Prasse, Antje Rosas, Ivan Bahal, Raman Fernández-Hernando, Carlos Kaminski, Naftali JCI Insight Research Article Idiopathic pulmonary fibrosis (IPF) is a progressive and ultimately fatal disease. Recent findings have shown a marked metabolic reprogramming associated with changes in mitochondrial homeostasis and autophagy during pulmonary fibrosis. The microRNA-33 (miR-33) family of microRNAs (miRNAs) encoded within the introns of sterol regulatory element binding protein (SREBP) genes are master regulators of sterol and fatty acid (FA) metabolism. miR-33 controls macrophage immunometabolic response and enhances mitochondrial biogenesis, FA oxidation, and cholesterol efflux. Here, we show that miR-33 levels are increased in bronchoalveolar lavage (BAL) cells isolated from patients with IPF compared with healthy controls. We demonstrate that specific genetic ablation of miR-33 in macrophages protects against bleomycin-induced pulmonary fibrosis. The absence of miR-33 in macrophages improves mitochondrial homeostasis and increases autophagy while decreasing inflammatory response after bleomycin injury. Notably, pharmacological inhibition of miR-33 in macrophages via administration of anti–miR-33 peptide nucleic acids (PNA-33) attenuates fibrosis in different in vivo and ex vivo mice and human models of pulmonary fibrosis. These studies elucidate a major role of miR-33 in macrophages in the regulation of pulmonary fibrosis and uncover a potentially novel therapeutic approach to treat this disease. American Society for Clinical Investigation 2023-02-22 /pmc/articles/PMC9977502/ /pubmed/36626225 http://dx.doi.org/10.1172/jci.insight.158100 Text en © 2023 Ahangari, et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Ahangari, Farida
Price, Nathan L.
Malik, Shipra
Chioccioli, Maurizio
Bärnthaler, Thomas
Adams, Taylor S.
Kim, Jooyoung
Pradeep, Sai Pallavi
Ding, Shuizi
Cosmos, Carlos
Rose, Kadi-Ann S.
McDonough, John E.
Aurelien, Nachelle R.
Ibarra, Gabriel
Omote, Norihito
Schupp, Jonas C.
DeIuliis, Giuseppe
Villalba Nunez, Julian A.
Sharma, Lokesh
Ryu, Changwan
Dela Cruz, Charles S.
Liu, Xinran
Prasse, Antje
Rosas, Ivan
Bahal, Raman
Fernández-Hernando, Carlos
Kaminski, Naftali
microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title_full microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title_fullStr microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title_full_unstemmed microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title_short microRNA-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
title_sort microrna-33 deficiency in macrophages enhances autophagy, improves mitochondrial homeostasis, and protects against lung fibrosis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9977502/
https://www.ncbi.nlm.nih.gov/pubmed/36626225
http://dx.doi.org/10.1172/jci.insight.158100
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