Cord blood platelet-rich plasma: proteomics analysis for ophthalmic applications.

Abstract

Our objective is to determine the protein and complements constituents of Cord blood Platelet-rich plasma (CB-PRP), based on the hypothesis that it contains beneficial components capable of arresting or potentially decelerating the advancement of atrophic age-related macular degeneration (dry-AMD), with the support of radiomics. Two distinct pools of CB-PRP were assessed, each pool obtained from a total of 15 umbilical cord-blood donors. One aliquot of each pool respectively was subjected to proteomic analysis in order to enhance the significance of our findings, by identifying proteins that are shared between the two sample pools and gaining insights into the pathways they are associated with. The bioinformatics analysis was developed using Reactome software. Three-hundred-seven (307) distinct proteins were found. Two hundred fifteen (215) of the elements mentioned above are shared by both pools. Seventy (70) elements are exclusive to pool S1, while pool S2 contains 22. We detected 109 representative and statistically significant pathways out of 549. We found proteins related to the immune system, signal transduction, vesicle-mediated transport, cell-cell communication, hemostasis, cellular responses to stimuli, cell cycle, and developmental biology. The analysis showed the presence of P15692-12, representing VEGF factor A, long form. With over 200 proteins, the CB-PRP can increase the immune response, including BCR, CD-22, FCGR, phospholipids, IL-10, FCGR-3A, and others. Discovering crucial trophic and complement-regulating variables is highly significant for potential applications in dry AMD. Our future research will examine the effects of intravitreal CB-PRP on dry-AMD eyes.