Mesenchymal stromal (stem) cell therapy modulates miR-193b-5p expression to attenuate sepsis-induced acute lung injury

Although mesenchymal stromal (stem) cell (MSC) administration attenuates sepsis-induced lung injury in pre-clinical models, the mechanism(s) of action and host immune system contributions to its therapeutic effects remain elusive. We show that treatment with MSCs decreased expression of host-derived...

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Veröffentlicht in:	The European respiratory journal 2022-01, Vol.59 (1), p.2004216
Hauptverfasser:	Dos Santos, Claudia C, Amatullah, Hajera, Vaswani, Chirag M, Maron-Gutierrez, Tatiana, Kim, Michael, Mei, Shirley H J, Szaszi, Katalin, Monteiro, Ana Paula T, Varkouhi, Amir K, Herreroz, Raquel, Lorente, Jose Angel, Tsoporis, James N, Gupta, Sahil, Ektesabi, Amin, Kavantzas, Nikolaos, Salpeas, Vasileios, Marshall, John C, Rocco, Patricia R M, Marsden, Philip A, Weiss, Daniel J, Stewart, Duncan J, Hu, Pingzhao, Liles, W Conrad
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Sprache:	eng
Schlagworte:	Acute Lung Injury - therapy Animals Cell- and Tissue-Based Therapy Endothelial Cells Humans Mice MicroRNAs - genetics Sepsis - complications Sepsis - therapy
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creator	Dos Santos, Claudia C Amatullah, Hajera Vaswani, Chirag M Maron-Gutierrez, Tatiana Kim, Michael Mei, Shirley H J Szaszi, Katalin Monteiro, Ana Paula T Varkouhi, Amir K Herreroz, Raquel Lorente, Jose Angel Tsoporis, James N Gupta, Sahil Ektesabi, Amin Kavantzas, Nikolaos Salpeas, Vasileios Marshall, John C Rocco, Patricia R M Marsden, Philip A Weiss, Daniel J Stewart, Duncan J Hu, Pingzhao Liles, W Conrad
description	Although mesenchymal stromal (stem) cell (MSC) administration attenuates sepsis-induced lung injury in pre-clinical models, the mechanism(s) of action and host immune system contributions to its therapeutic effects remain elusive. We show that treatment with MSCs decreased expression of host-derived microRNA (miR)-193b-5p and increased expression of its target gene, the tight junctional protein occludin (Ocln), in lungs from septic mice. Mutating the Ocln 3' untranslated region miR-193b-5p binding sequence impaired binding to Ocln mRNA. Inhibition of miR-193b-5p in human primary pulmonary microvascular endothelial cells prevents tumour necrosis factor (TNF)-induced decrease in Ocln gene and protein expression and loss of barrier function. MSC-conditioned media mitigated TNF-induced miR-193b-5p upregulation and Ocln downregulation When administered , MSC-conditioned media recapitulated the effects of MSC administration on pulmonary miR-193b-5p and Ocln expression. MiR-193b-deficient mice were resistant to pulmonary inflammation and injury induced by lipopolysaccharide (LPS) instillation. Silencing of Ocln in miR-193b-deficient mice partially recovered the susceptibility to LPS-induced lung injury. inhibition of miR-193b-5p protected mice from endotoxin-induced lung injury. Finally, the clinical significance of these results was supported by the finding of increased miR-193b-5p expression levels in lung autopsy samples from acute respiratory distress syndrome patients who died with diffuse alveolar damage.
doi_str_mv	10.1183/13993003.04216-2020
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We show that treatment with MSCs decreased expression of host-derived microRNA (miR)-193b-5p and increased expression of its target gene, the tight junctional protein occludin (Ocln), in lungs from septic mice. Mutating the Ocln 3' untranslated region miR-193b-5p binding sequence impaired binding to Ocln mRNA. Inhibition of miR-193b-5p in human primary pulmonary microvascular endothelial cells prevents tumour necrosis factor (TNF)-induced decrease in Ocln gene and protein expression and loss of barrier function. MSC-conditioned media mitigated TNF-induced miR-193b-5p upregulation and Ocln downregulation When administered , MSC-conditioned media recapitulated the effects of MSC administration on pulmonary miR-193b-5p and Ocln expression. MiR-193b-deficient mice were resistant to pulmonary inflammation and injury induced by lipopolysaccharide (LPS) instillation. Silencing of Ocln in miR-193b-deficient mice partially recovered the susceptibility to LPS-induced lung injury. inhibition of miR-193b-5p protected mice from endotoxin-induced lung injury. Finally, the clinical significance of these results was supported by the finding of increased miR-193b-5p expression levels in lung autopsy samples from acute respiratory distress syndrome patients who died with diffuse alveolar damage.</description><identifier>ISSN: 0903-1936</identifier><identifier>EISSN: 1399-3003</identifier><identifier>DOI: 10.1183/13993003.04216-2020</identifier><identifier>PMID: 34112731</identifier><language>eng</language><publisher>England</publisher><subject>Acute Lung Injury - therapy ; Animals ; Cell- and Tissue-Based Therapy ; Endothelial Cells ; Humans ; Mice ; MicroRNAs - genetics ; Sepsis - complications ; Sepsis - therapy</subject><ispartof>The European respiratory journal, 2022-01, Vol.59 (1), p.2004216</ispartof><rights>Copyright ©The authors 2022. 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We show that treatment with MSCs decreased expression of host-derived microRNA (miR)-193b-5p and increased expression of its target gene, the tight junctional protein occludin (Ocln), in lungs from septic mice. Mutating the Ocln 3' untranslated region miR-193b-5p binding sequence impaired binding to Ocln mRNA. Inhibition of miR-193b-5p in human primary pulmonary microvascular endothelial cells prevents tumour necrosis factor (TNF)-induced decrease in Ocln gene and protein expression and loss of barrier function. MSC-conditioned media mitigated TNF-induced miR-193b-5p upregulation and Ocln downregulation When administered , MSC-conditioned media recapitulated the effects of MSC administration on pulmonary miR-193b-5p and Ocln expression. MiR-193b-deficient mice were resistant to pulmonary inflammation and injury induced by lipopolysaccharide (LPS) instillation. 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subjects	Acute Lung Injury - therapy Animals Cell- and Tissue-Based Therapy Endothelial Cells Humans Mice MicroRNAs - genetics Sepsis - complications Sepsis - therapy
title	Mesenchymal stromal (stem) cell therapy modulates miR-193b-5p expression to attenuate sepsis-induced acute lung injury
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