Ricerc@Sapienza

The direct impact of microgravity exposure on male germ cells, as well as on their malignant counterparts, has not been largely studied. In previous works, we reported our findings on a cell line derived from a human seminoma lesion (TCam-2 cell line) showing that acute exposure to simulated microgravity altered microtubule orientation, induced autophagy, and modified cell metabolism stimulating ROS production. Moreover, we demonstrated that the antioxidant administration prevented both TCam-2 microgravity-induced microtubule disorientation and autophagy induction.

Single myofiber isolation protocols allow to obtain an in vitro system in which the physical association between the myofiber and its stem cells, the satellite cells, is adequately preserved. This technique is an indispensable tool by which the muscle regeneration process can be recapitulated and studied in each specific phase, from satellite cell activation to proliferation, from differentiation to fusion.

The goal of supporting and directing tissue regeneration requires the design of new, advanced materials, with features like biocompatibility, biodegradability and adequate mechanical properties. Our work was focused on developing a new injectable biomimetic composite material, based on a peptidic hydrogel and calcium phosphates with the aim of mimicking the chemical composition of natural bone tissue. Arg-Gly-Asp-grafted chitosan was used to promote cell adhesion.

Biocompatible and degradable poly(alpha-hydroxy acids) are among the more widely used materials in scaffolds for tissue engineering, although they often need surface modification to improve their interaction with the cells. In the present research Poly(L-lactide) 3D scaffold were prepared by salt-leaching method, with a porosity of 80 % and interconnected pores. In order to increase the hydrophilicity of the PLLA scaffolds surface, taurine was grafted through aminolysis reaction.

Endothelial cell (EC) dysfunction has been reported in cystic fibrosis (CF) patients. Thus, the availability of CF EC is
paramount to uncover mechanisms of endothelial dysfunction in CF. Using collagenase digestion, we isolated cells from
small fragments of pulmonary artery dissected from non-CF lobes or explanted CF lungs. These cells were a
heterogeneous mixture, containing variable percentages of EC. To obtain virtually pure pulmonary artery endothelial cells