Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations

Chronic kidney disease (CKD), a global health concern, is highly prevalent among adults. Presently, there are limited therapeutic options to restore kidney function. This study aimed to investigate the therapeutic potential of breast milk mesenchymal stem cells (Br-MSCs) and their derived exosomes i...

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Autores principales: Khamis, Tarek, Alsemeh, Amira Ebrahim, Alanazi, Asma, Eltaweel, Asmaa Monir, Abdel-Ghany, Heba M., Hendawy, Doaa M., Abdelkhalek, Adel, Said, Mahmoud A., Awad, Heba H., Ibrahim, Basma Hamed, Mekawy, Dina Mohamed, Pascu, Corina, Florin, Crista, Arisha, Ahmed Hamed
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10458733/
https://www.ncbi.nlm.nih.gov/pubmed/37631363
http://dx.doi.org/10.3390/pharmaceutics15082149
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author Khamis, Tarek
Alsemeh, Amira Ebrahim
Alanazi, Asma
Eltaweel, Asmaa Monir
Abdel-Ghany, Heba M.
Hendawy, Doaa M.
Abdelkhalek, Adel
Said, Mahmoud A.
Awad, Heba H.
Ibrahim, Basma Hamed
Mekawy, Dina Mohamed
Pascu, Corina
Florin, Crista
Arisha, Ahmed Hamed
author_facet Khamis, Tarek
Alsemeh, Amira Ebrahim
Alanazi, Asma
Eltaweel, Asmaa Monir
Abdel-Ghany, Heba M.
Hendawy, Doaa M.
Abdelkhalek, Adel
Said, Mahmoud A.
Awad, Heba H.
Ibrahim, Basma Hamed
Mekawy, Dina Mohamed
Pascu, Corina
Florin, Crista
Arisha, Ahmed Hamed
author_sort Khamis, Tarek
collection PubMed
description Chronic kidney disease (CKD), a global health concern, is highly prevalent among adults. Presently, there are limited therapeutic options to restore kidney function. This study aimed to investigate the therapeutic potential of breast milk mesenchymal stem cells (Br-MSCs) and their derived exosomes in CKD. Eighty adult male Sprague Dawley rats were randomly assigned to one of six groups, including control, nephropathy, nephropathy + conditioned media (CM), nephropathy + Br-MSCs, nephropathy + Br-MSCs derived exosomes (Br-MSCs-EXOs), and nephropathy + Br-MSCs + Br-MSCs-EXOs. Before administration, Br-MSCs and Br-MSCs-EXOs were isolated, identified, and labeled with PKH-26. SOX2, Nanog, and OCT3/4 expression levels in Br-MSCs and miR-29b, miR-181, and Let-7b in both Br-MSCs and Br-MSCs-EXOs were assayed. Twelve weeks after transplantation, renal function tests, oxidative stress, expression of the long non-coding RNA SNHG-7, autophagy, fibrosis, and expression of profibrotic miR-34a and antifibrotic miR-29b, miR-181, and Let-7b were measured in renal tissues. Immunohistochemical analysis for renal Beclin-1, LC3-II, and P62, Masson trichome staining, and histopathological examination of kidney tissues were also performed. The results showed that Br-MSCs expressed SOX2, Nanog, and OCT3/4, while both Br-MSCs and Br-MSCs-EXOs expressed antifibrotic miR-181, miR-29b, and Let-7b, with higher expression levels in exosomes than in Br-MSCs. Interestingly, the administration of Br-MSCs + EXOs, EXOs, and Br-MSCs improved renal function tests, reduced renal oxidative stress, upregulated the renal expression of SNHG-7, AMPK, ULK-1, Beclin-1, LC3, miR-29b, miR-181, Let-7b, and Smad-7, downregulated the renal expression of miR-34a, AKT, mTOR, P62, TGF-β, Smad-3, and Coli-1, and ameliorated renal pathology. Thus, Br-MSCs and/or their derived exosomes appear to reduce adenine-induced renal damage by secreting antifibrotic microRNAs and potentiate renal autophagy by modulating SNHG-7 expression.
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spelling pubmed-104587332023-08-27 Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations Khamis, Tarek Alsemeh, Amira Ebrahim Alanazi, Asma Eltaweel, Asmaa Monir Abdel-Ghany, Heba M. Hendawy, Doaa M. Abdelkhalek, Adel Said, Mahmoud A. Awad, Heba H. Ibrahim, Basma Hamed Mekawy, Dina Mohamed Pascu, Corina Florin, Crista Arisha, Ahmed Hamed Pharmaceutics Article Chronic kidney disease (CKD), a global health concern, is highly prevalent among adults. Presently, there are limited therapeutic options to restore kidney function. This study aimed to investigate the therapeutic potential of breast milk mesenchymal stem cells (Br-MSCs) and their derived exosomes in CKD. Eighty adult male Sprague Dawley rats were randomly assigned to one of six groups, including control, nephropathy, nephropathy + conditioned media (CM), nephropathy + Br-MSCs, nephropathy + Br-MSCs derived exosomes (Br-MSCs-EXOs), and nephropathy + Br-MSCs + Br-MSCs-EXOs. Before administration, Br-MSCs and Br-MSCs-EXOs were isolated, identified, and labeled with PKH-26. SOX2, Nanog, and OCT3/4 expression levels in Br-MSCs and miR-29b, miR-181, and Let-7b in both Br-MSCs and Br-MSCs-EXOs were assayed. Twelve weeks after transplantation, renal function tests, oxidative stress, expression of the long non-coding RNA SNHG-7, autophagy, fibrosis, and expression of profibrotic miR-34a and antifibrotic miR-29b, miR-181, and Let-7b were measured in renal tissues. Immunohistochemical analysis for renal Beclin-1, LC3-II, and P62, Masson trichome staining, and histopathological examination of kidney tissues were also performed. The results showed that Br-MSCs expressed SOX2, Nanog, and OCT3/4, while both Br-MSCs and Br-MSCs-EXOs expressed antifibrotic miR-181, miR-29b, and Let-7b, with higher expression levels in exosomes than in Br-MSCs. Interestingly, the administration of Br-MSCs + EXOs, EXOs, and Br-MSCs improved renal function tests, reduced renal oxidative stress, upregulated the renal expression of SNHG-7, AMPK, ULK-1, Beclin-1, LC3, miR-29b, miR-181, Let-7b, and Smad-7, downregulated the renal expression of miR-34a, AKT, mTOR, P62, TGF-β, Smad-3, and Coli-1, and ameliorated renal pathology. Thus, Br-MSCs and/or their derived exosomes appear to reduce adenine-induced renal damage by secreting antifibrotic microRNAs and potentiate renal autophagy by modulating SNHG-7 expression. MDPI 2023-08-16 /pmc/articles/PMC10458733/ /pubmed/37631363 http://dx.doi.org/10.3390/pharmaceutics15082149 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Khamis, Tarek
Alsemeh, Amira Ebrahim
Alanazi, Asma
Eltaweel, Asmaa Monir
Abdel-Ghany, Heba M.
Hendawy, Doaa M.
Abdelkhalek, Adel
Said, Mahmoud A.
Awad, Heba H.
Ibrahim, Basma Hamed
Mekawy, Dina Mohamed
Pascu, Corina
Florin, Crista
Arisha, Ahmed Hamed
Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title_full Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title_fullStr Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title_full_unstemmed Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title_short Breast Milk Mesenchymal Stem Cells and/or Derived Exosomes Mitigated Adenine-Induced Nephropathy via Modulating Renal Autophagy and Fibrotic Signaling Pathways and Their Epigenetic Regulations
title_sort breast milk mesenchymal stem cells and/or derived exosomes mitigated adenine-induced nephropathy via modulating renal autophagy and fibrotic signaling pathways and their epigenetic regulations
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10458733/
https://www.ncbi.nlm.nih.gov/pubmed/37631363
http://dx.doi.org/10.3390/pharmaceutics15082149
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