Simulated hypogravity stimulates cell spreading and wound healing in cultured human vascular endothelial cells.

It is well known that endothelial cells (EC) are highly sensitive to mechanical influences such as hemodynamic conditions or pulsatile stretch. However, it is still unknown, how endothelium responds to the changed gravity. The results of some studies suggest that cellular elements of vascular wall and, particularly, endothelium, may directly participate in development of physiological responces to microgravity. On our suggestion, this is extremely attractive since vascular endothelium is one of the main regulators of vascular tone (via its interaction with vascular smooth muscle cells) and, consequently, can play not last role in maintaining of normal cardiovascular system operation in microgravity. On the other hand, the endothelium itself may be regarded as a widely dispersed organ of approximately 1.5 kg in weight (in the adult human organism). Finally, endothelium is not just a passive barrier between vascular wall and circulating blood but synthesizes, metabolizes, and releases a substances which act on adjacent cell systems or distant cell structures. The main aims of this study were: 1) the development of experimental model, allowing to study functional parameters of human endothelial cells in hypogravity conditions in vitro; 2) the verification of endothelial sensitivity to gravitational micro-environment.