Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature

Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature

Abstract The renal mesenchyme contains heterogeneous cells, including interstitial fibroblasts and pericytes, with key roles in wound healing. Although healing is impaired in aged kidneys, the effect of age and injury on the mesenchyme remains poorly understood. We characterized renal mesenchymal ce...

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Main Authors: Isaac W. Shaw, Eoin D. O'Sullivan, Angela O. Pisco, Gary Borthwick, Kevin M. Gallagher, Bruno Péault, Jeremy Hughes, David A. Ferenbach
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:Stem Cells Translational Medicine
Subjects:
aging
fibrosis
ischemia
kidney
mesenchyme
pericyte
Online Access:https://doi.org/10.1002/sctm.20-0392
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spelling doaj-42a9b397f5f6498cbf0976b58102e4252021-07-16T17:56:05ZengWileyStem Cells Translational Medicine2157-65642157-65802021-08-011081232124810.1002/sctm.20-0392Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculatureIsaac W. Shaw0Eoin D. O'Sullivan1Angela O. Pisco2Gary Borthwick3Kevin M. Gallagher4Bruno Péault5Jeremy Hughes6David A. Ferenbach7Centre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKCentre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKChan Zuckerberg Biohub San Francisco California USACentre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKCentre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKCentre for Regenerative Medicine University of Edinburgh Edinburgh UKCentre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKCentre for Inflammation Research Queen's Medical Research Institute, University of Edinburgh Edinburgh UKAbstract The renal mesenchyme contains heterogeneous cells, including interstitial fibroblasts and pericytes, with key roles in wound healing. Although healing is impaired in aged kidneys, the effect of age and injury on the mesenchyme remains poorly understood. We characterized renal mesenchymal cell heterogeneity in young vs old animals and after ischemia‐reperfusion‐injury (IRI) using multiplex immunolabeling and single cell transcriptomics. Expression patterns of perivascular cell markers (α‐SMA, CD146, NG2, PDGFR‐α, and PDGFR‐β) correlated with their interstitial location. PDGFR‐α and PDGFR‐β co‐expression labeled renal myofibroblasts more efficiently than the current standard marker α‐SMA, and CD146 was a superior murine renal pericyte marker. Three renal mesenchymal subtypes; pericytes, fibroblasts, and myofibroblasts, were recapitulated with data from two independently performed single cell transcriptomic analyzes of murine kidneys, the first dataset an aging cohort and the second dataset injured kidneys following IRI. Mesenchymal cells segregated into subtypes with distinct patterns of expression with aging and following injury. Baseline uninjured old kidneys resembled post‐ischemic young kidneys, with this phenotype further exaggerated following IRI. These studies demonstrate that age modulates renal perivascular/interstitial cell marker expression and transcriptome at baseline and in response to injury and provide tools for the histological and transcriptomic analysis of renal mesenchymal cells, paving the way for more accurate classification of renal mesenchymal cell heterogeneity and identification of age‐specific pathways and targets.https://doi.org/10.1002/sctm.20-0392agingfibrosisischemiakidneymesenchymepericyte
collection DOAJ
language English
format Article
sources DOAJ
author Isaac W. Shaw
Eoin D. O'Sullivan
Angela O. Pisco
Gary Borthwick
Kevin M. Gallagher
Bruno Péault
Jeremy Hughes
David A. Ferenbach
spellingShingle Isaac W. Shaw
Eoin D. O'Sullivan
Angela O. Pisco
Gary Borthwick
Kevin M. Gallagher
Bruno Péault
Jeremy Hughes
David A. Ferenbach
Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
Stem Cells Translational Medicine
aging
fibrosis
ischemia
kidney
mesenchyme
pericyte
author_facet Isaac W. Shaw
Eoin D. O'Sullivan
Angela O. Pisco
Gary Borthwick
Kevin M. Gallagher
Bruno Péault
Jeremy Hughes
David A. Ferenbach
author_sort Isaac W. Shaw
title Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
title_short Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
title_full Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
title_fullStr Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
title_full_unstemmed Aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
title_sort aging modulates the effects of ischemic injury upon mesenchymal cells within the renal interstitium and microvasculature
publisher Wiley
series Stem Cells Translational Medicine
issn 2157-6564
2157-6580
publishDate 2021-08-01
description Abstract The renal mesenchyme contains heterogeneous cells, including interstitial fibroblasts and pericytes, with key roles in wound healing. Although healing is impaired in aged kidneys, the effect of age and injury on the mesenchyme remains poorly understood. We characterized renal mesenchymal cell heterogeneity in young vs old animals and after ischemia‐reperfusion‐injury (IRI) using multiplex immunolabeling and single cell transcriptomics. Expression patterns of perivascular cell markers (α‐SMA, CD146, NG2, PDGFR‐α, and PDGFR‐β) correlated with their interstitial location. PDGFR‐α and PDGFR‐β co‐expression labeled renal myofibroblasts more efficiently than the current standard marker α‐SMA, and CD146 was a superior murine renal pericyte marker. Three renal mesenchymal subtypes; pericytes, fibroblasts, and myofibroblasts, were recapitulated with data from two independently performed single cell transcriptomic analyzes of murine kidneys, the first dataset an aging cohort and the second dataset injured kidneys following IRI. Mesenchymal cells segregated into subtypes with distinct patterns of expression with aging and following injury. Baseline uninjured old kidneys resembled post‐ischemic young kidneys, with this phenotype further exaggerated following IRI. These studies demonstrate that age modulates renal perivascular/interstitial cell marker expression and transcriptome at baseline and in response to injury and provide tools for the histological and transcriptomic analysis of renal mesenchymal cells, paving the way for more accurate classification of renal mesenchymal cell heterogeneity and identification of age‐specific pathways and targets.
topic aging
fibrosis
ischemia
kidney
mesenchyme
pericyte
url https://doi.org/10.1002/sctm.20-0392
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