Renal Progenitor Cells Have Higher Genetic Stability and Lower Oxidative Stress than Mesenchymal Stem Cells during In Vitro Expansion

الملخص EN

In vitro senescence of multipotent cells has been commonly associated with DNA damage induced by oxidative stress.

These changes may vary according to the sources of production and the studied lineages, which raises questions about the effect of growing time on genetic stability.

This study is aimed at evaluating the evolution of genetic stability, viability, and oxidative stress of bone marrow mesenchymal stem cells (MSCBMsu) and renal progenitor cells of the renal cortex (RPCsu) of swine (Sus scrofa domesticus) in culture passages.

P2, P5, and P9 were used for MSCBMsu and P1, P2, and P3 for RPCsu obtained by thawing.

The experimental groups were submitted to MTT, apoptosis and necrosis assays, comet test, and reactive substance measurements of thiobarbituric acid (TBARS), nitrite, reduced glutathione (GSH), and catalase.

The MTT test curve showed a mean viability of 1.14±0.62 and 1.12±0.54, respectively, for MSCBMsu and RPCsu.

The percentages of MSCBMsu and RPCsu were presented, respectively, for apoptosis, an irregular and descending behavior, and necrosis, ascending and irregular.

The DNA damage index showed higher intensity among the MSCBMsu in the P5 and P9 passages (p<0.05).

In the TBARS evaluation, there was variation among the lines of RPCsu and MSCBMsu, presenting the last most significant variations (p<0.05).

In the nitrite values, we identified only among the lines, in the passages P1 and P2, with the highest averages displayed by the MSCBMsu lineage (p<0.05).

The measurement of antioxidant system activity showed high standards, identifying differences only for GSH values, in the RPCsu lineage, in P3 (p<0.05).

This study suggests that the maintenance of cell culture in the long term induces lower regulation of oxidative stress, and RPCsu presents higher genetic stability and lower oxidative stress than MSCBMsu during in vitro expansion.