First, we wanted to determine if Roxadustat (pseudohypoxia) mimics the cellular effects of hypoxia in CMs, such as increased glycolysis, decreased oxidative stress and induction of proliferation. We use inducible Pluripotent Stem Cells (iPSCs) as a resource for CMs. We established hypoxic cell culture, and we determine the optimal conditions for Roxadustat treatment. Several assays with Roxadustat were conducted to evaluate its effect on energy metabolism and proliferation. We have confirmed that Roxadustat promotes glycolytic metabolism, reduces oxidative stress, and increases the number of CMs in vitro.
The final goal of the project is to put a Roxadustat-loaded biomaterial onto an infarcted heart to promote regeneration. We evaluated if Roxadustat is compatible with fibrin, and if this biomaterial is capable of gradually releasing it. We established the optimal conditions for fibrin polymerization and the concentration of Roxadustat for its adequate conjugation to the biomaterial. By assays with iPSC-CM cultures, we determined that fibrin is non-toxic, it is biodegradable, and can gradually release Roxadustat.
Finally, we studied the effects of Roxadustat on cardiac regeneration in zebrafish, a heart regeneration model. Experiments in zebrafish involved apical resection of the heart, followed by intraperitoneal injection of Roxadustat to evaluate regeneration. We conducted two different experiments: 1) evaluation of CM proliferation and 2) evaluation of cardiac regeneration. We did not observe differences in the number of CMs between the control and Roxadustat groups. These data correlated with the results observed in experiment 2), where we did not see increased regeneration in the treated group. Overall, these results show that under the evaluated conditions, Roxadustat treatment does not promote CMs proliferation and cardiac regeneration in zebrafish. Considering that zebrafish have the intrinsic ability to regenerate their heart after myocardial damage, we cannot rule out an effect of Roxadustat on cardiac regeneration in mammalian models of MI. Indeed, experiments on rats with MI will be carried out in the new ongoing project.
These results were presented at national and international scientific dissemination events, e.g. the international congress "Elucidating Principles of Development with Stem Cells" organized by the International Society for Stem Cell Research, in Vienna, seminars organized by the Program for Advancing the Clinical Translation of Regenerative Medicine of Catalonia, P-CMR[C], and "Fellows’ Seminar" organized by IDIBELL for the scientific and non-scientific community.