PLoS ONE (Jan 2014)

Mesenchymal stem cells from rats with chronic kidney disease exhibit premature senescence and loss of regenerative potential.

  • Barbara Mara Klinkhammer,
  • Rafael Kramann,
  • Monika Mallau,
  • Anna Makowska,
  • Claudia Renate van Roeyen,
  • Song Rong,
  • Eva Bettina Buecher,
  • Peter Boor,
  • Katarina Kovacova,
  • Stephanie Zok,
  • Bernd Denecke,
  • Esther Stuettgen,
  • Simon Otten,
  • Juergen Floege,
  • Uta Kunter

DOI
https://doi.org/10.1371/journal.pone.0092115
Journal volume & issue
Vol. 9, no. 3
p. e92115

Abstract

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Mesenchymal stem cell (MSC) transplantation has the potential for organ repair. Nevertheless, some factors might lessen the regenerative potential of MSCs, e.g. donor age or systemic disease. It is thus important to carefully assess the patient's suitability for autologous MSC transplantation. Here we investigated the effects of chronic kidney disease (CKD) on MSC function. We isolated bone marrow MSCs from remnant kidney rats (RK) with CKD (CKD-RK-MSC) and found signs of premature senescence: spontaneous adipogenesis, reduced proliferation capacity, active senescence-associated-β-galactosidase, accumulation of actin and a modulated secretion profile. The functionality of CKD-RK-MSCs in vivo was tested in rats with acute anti-Thy1.1-nephritis, where healthy MSCs have been shown to be beneficial. Rats received healthy MSCs, CKD-RK-MSC or medium by injection into the left renal artery. Kidneys receiving healthy MSCs exhibited accelerated healing of glomerular lesions, whereas CKD-RK-MSC or medium exerted no benefit. The negative influence of advanced CKD/uremia on MSCs was confirmed in a second model of CKD, adenine nephropathy (AD). MSCs from rats with adenine nephropathy (CKD-AD-MSC) also exhibited cellular modifications and functional deficits in vivo. We conclude that CKD leads to a sustained loss of in vitro and in vivo functionality in MSCs, possibly due to premature cellular senescence. Considering autologous MSC therapy in human renal disease, studies identifying uremia-associated mechanisms that account for altered MSC function are urgently needed.