Journal
JOURNAL OF THE AMERICAN SOCIETY OF NEPHROLOGY
Volume 22, Issue 12, Pages 2256-2265Publisher
AMER SOC NEPHROLOGY
DOI: 10.1681/ASN.2011050447
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Funding
- Genzyme Renal Innovations Program
- National Kidney Foundation
- National Institutes of Health [DK088923, DK066305, DK084056]
- China Research Council
- Harvard Stem Cell Institute
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After acute kidney injury, mice with short telomeres develop increased damage with reduced proliferative capacity, which suggests an important role for telomere length in kidney repair. The enzyme telomerase reverse transcriptase (mTert) regulates telomere length; embryonic stem cells and certain adult stem cells express mTert, but whether cells in the adult kidney express mTert and whether these cells play a role in renal repair are unknown. Here, we found that telomerase protein and mRNA were highly enriched in renal papilla, a proposed niche of kidney stem cells. Using mTert-GFP reporter mice, we detected mTert in a subset of papillary epithelial cells comprising the collecting duct predominantly but also the loop of Hen le. Approximately 5% of mTert-GFP(+) cells were label retaining, a characteristic of stem cells. mTert mRNA levels increased in renal papilla after ischemia-reperfusion injury, but genetically labeled mTert-expressing papillary cells neither divided nor migrated out of the renal papilla during kidney repair. In summary, these data suggest that cells expressing telomerase reverse transcriptase are not a progenitor-cell population, and they do not play a direct role in kidney repair.
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