Stem cell marker TRA-1-60 is expressed in foetal and adult kidney and upregulated in tubulo-interstitial disease
Stem cell marker TRA-1-60 is expressed in foetal and adult kidney and upregulated in tubulo-interstitial disease
The kidney has an intrinsic ability to repair itself when injured. Epithelial cells of distal tubules may participate in regeneration. Stem cell marker, TRA-1-60 is linked to pluripotency in human embryonic stem cells and is lost upon differentiation. TRA-1-60 expression was mapped and quantified in serial sections of human foetal, adult and diseased kidneys. In 8- to 10-week human foetal kidney, the epitope was abundantly expressed on ureteric bud and structures derived therefrom including collecting duct epithelium. In adult kidney inner medulla/papilla, comparisons with reactivity to epithelial membrane antigen, aquaporin-2 and Tamm–Horsfall protein, confirmed extensive expression of TRA-1-60 in cells lining collecting ducts and thin limb of the loop of Henle, which may be significant since the papillae were proposed to harbour slow cycling cells involved in kidney homeostasis and repair. In the outer medulla and cortex there was rare, sporadic expression in tubular cells of the collecting ducts and nephron, with positive cells confined to the thin limb and thick ascending limb and distal convoluted tubules. Remarkably, in cortex displaying tubulo-interstitial injury, there was a dramatic increase in number of TRA-1-60 expressing individual cells and in small groups of cells in distal tubules. Dual staining showed that TRA-1-60 positive cells co-expressed Pax-2 and Ki-67, markers of tubular regeneration. Given the localization in foetal kidney and the distribution patterns in adults, it is tempting to speculate that TRA-1-60 may identify a population of cells contributing to repair of distal tubules in adult kidney.
kidney, tubulo-interstitial, tra-1-60, stem cell, foetal, regeneration
355-369
Fesenko, Irina
faa964d0-ed40-47c9-bc9c-930b8010aab7
Franklin, Danielle
fd5c2cac-93af-4fbe-998a-d1079c32ec71
Garnett, Paul
1650bf62-64c4-49a1-a94a-14488d614aa5
Bass, Paul
1254f1dd-0239-4ebf-9ec1-50fed354e1a6
Campbell, Sara
79c6d7a5-8b90-4e89-83b1-519a529b5eeb
Hardyman, Michelle
61295a93-f2f4-44ef-971f-df5081641e51
Wilson, David
1500fca1-7082-4271-95f4-691f1d1252a2
Hanley, Neil
f6a0fed5-6fea-4712-9c9d-0b0a5bf89b18
Collins, Jane
be0e66f1-3036-47fa-9d7e-914c48710ba4
October 2010
Fesenko, Irina
faa964d0-ed40-47c9-bc9c-930b8010aab7
Franklin, Danielle
fd5c2cac-93af-4fbe-998a-d1079c32ec71
Garnett, Paul
1650bf62-64c4-49a1-a94a-14488d614aa5
Bass, Paul
1254f1dd-0239-4ebf-9ec1-50fed354e1a6
Campbell, Sara
79c6d7a5-8b90-4e89-83b1-519a529b5eeb
Hardyman, Michelle
61295a93-f2f4-44ef-971f-df5081641e51
Wilson, David
1500fca1-7082-4271-95f4-691f1d1252a2
Hanley, Neil
f6a0fed5-6fea-4712-9c9d-0b0a5bf89b18
Collins, Jane
be0e66f1-3036-47fa-9d7e-914c48710ba4
Fesenko, Irina, Franklin, Danielle, Garnett, Paul, Bass, Paul, Campbell, Sara, Hardyman, Michelle, Wilson, David, Hanley, Neil and Collins, Jane
(2010)
Stem cell marker TRA-1-60 is expressed in foetal and adult kidney and upregulated in tubulo-interstitial disease.
Histochemistry and Cell Biology, 134 (4), .
(doi:10.1007/s00418-010-0741-7).
(PMID:20853169)
Abstract
The kidney has an intrinsic ability to repair itself when injured. Epithelial cells of distal tubules may participate in regeneration. Stem cell marker, TRA-1-60 is linked to pluripotency in human embryonic stem cells and is lost upon differentiation. TRA-1-60 expression was mapped and quantified in serial sections of human foetal, adult and diseased kidneys. In 8- to 10-week human foetal kidney, the epitope was abundantly expressed on ureteric bud and structures derived therefrom including collecting duct epithelium. In adult kidney inner medulla/papilla, comparisons with reactivity to epithelial membrane antigen, aquaporin-2 and Tamm–Horsfall protein, confirmed extensive expression of TRA-1-60 in cells lining collecting ducts and thin limb of the loop of Henle, which may be significant since the papillae were proposed to harbour slow cycling cells involved in kidney homeostasis and repair. In the outer medulla and cortex there was rare, sporadic expression in tubular cells of the collecting ducts and nephron, with positive cells confined to the thin limb and thick ascending limb and distal convoluted tubules. Remarkably, in cortex displaying tubulo-interstitial injury, there was a dramatic increase in number of TRA-1-60 expressing individual cells and in small groups of cells in distal tubules. Dual staining showed that TRA-1-60 positive cells co-expressed Pax-2 and Ki-67, markers of tubular regeneration. Given the localization in foetal kidney and the distribution patterns in adults, it is tempting to speculate that TRA-1-60 may identify a population of cells contributing to repair of distal tubules in adult kidney.
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Accepted/In Press date: 19 September 2010
Published date: October 2010
Keywords:
kidney, tubulo-interstitial, tra-1-60, stem cell, foetal, regeneration
Identifiers
Local EPrints ID: 164875
URI: http://eprints.soton.ac.uk/id/eprint/164875
ISSN: 0948-6143
PURE UUID: 1971cd5c-2cb5-4243-9d66-6dd3ca3bdd12
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Date deposited: 05 Oct 2010 11:44
Last modified: 14 Mar 2024 02:09
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Author:
Irina Fesenko
Author:
Danielle Franklin
Author:
Paul Garnett
Author:
Paul Bass
Author:
Sara Campbell
Author:
Michelle Hardyman
Author:
Neil Hanley
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