Quantitative proteomics and phosphoproteomics analyses identify sex-biased protein ontologies of S. japonicum

Schistosoma japonicum (S. japonicum) is one of the major causative agents of human schistosomiasis in Asia. Identification of differentially expressed proteins (DEPs) between male and female worms could reveal the critical signaling pathways that are involved in sexual maturation and egg production. In the study, quantitative proteome and phosphoproteome profiles were obtained from adult male and female worms of S. japoncum. A total of 2,710 unique proteins, including 2,055 proteins and 924 phosphorylated proteins were identified. Combined with the analysis of the RNA sequencing dataset, we found 252 (~12.5%) non-phos and 209 (11.7%) phosphorylated DEPs between males and females. Notably, only 1.2% of the non-phosphorylated DEPs exhibited corresponding mRNA-level changes. Next, several identified DEPs were further corroborated to be involved in sex-biased biological processes including vitellocyte development, oviposition, and mobility by RNA interference. Furthermore, we annotated 96 kinases of S. japonicum based on the obtained phosphorylated proteins, of which CMGC/MAPK, Atypical/RIO, are significantly activated in males, while CAMK/CAMKL, AGC/DMPK, and STE/STE7 in females. Finally, the potential drugs targeting these kinases were determined in silico, resulting in the identification of 28 S. japonicum kinases as potentially targetable by 30 FDA-approved drugs. Overall, our study provided a collection of evidence-based proteomic and phosphoproteomic resources of S. japonicum, and identified sex-biased proteins, phosphopeptides, and kinases in adult female and male worms, which could serve as potentially effective targets for developing novel interventions against schistosomiasis.