The Effect of Long-term Space Flights on Human Urine Proteins Functionally Related to Endothelium

It is known that long-term space flights lead to dysregulation of the cardiovascular system, and the endothelium is the most important functional element of such dysregulation. In order to find the signs of endothelial dysfunction in cosmonauts who have been in long-term space flights, we collected urine samples from 21 cosmonauts before the flight and on the first and seventh days after landing. The urine samples were investigated by chromatography–mass spectrometry analysis. Proteins were identified using the MaxQuant software and the SwissProt database. The software package Perseus was used for semi-quantitative analysis. The reconstruction of associative molecular networks was performed using the ANDSystem software. We identified 200 different proteins in urine samples of 21 Russian cosmonauts. The ANDSystem software made it possible to determine seven processes related to endothelium functioning. These processes had direct relations to 17 urine proteins, which were functionally associated with the endothelium. At the same time, eight proteins (such as serotransferrin, prostate-specific antigen, fibrinogen gamma chain, UFO tyrosine kinase receptor, aminopeptidase N, vascular cell adhesion molecule 1, osteopontin, and syndecan-4) were significantly changed ( p < 0.01) at different points of the recovery period (the first and seventh days). Thus, we performed the first study of the urine protein composition in cosmonauts for the evaluation of signs of endothelial dysfunction after space flight using proteomics methods.