Protein-protein interaction network analysis on the whiteleg shrimp Penaeus vannamei and Vibrio parahaemolyticus host-pathogen relationship reveals possible proteins and pathways involved during infection

Whiteleg shrimp, Penaeus vannamei, is the prime candidate in shrimp aquaculture that significantly contributes to the economic growth of the global aquaculture sector. However, P. vannamei culture is constantly plagued with pathogenic infection of Vibrio spp., including Vibrio parahaemolyticus, which impairs shrimp production and consequently results in significant financial losses. Despite this persistent problem, the relationship between P. vannamei and V. parahaemolyticus remains unclear. The discovery of protein-protein interactions (PPIs) be-tween host and pathogen might improve the understanding of bacterial infection in shrimp since most patho-genic bacteria infect hosts through multiple mechanisms. Hence, this study aims to identify the candidate effector proteins of V. parahaemolyticus and their targeted host proteins and potential pathways involved in its infection using a host-pathogen PPI approach. The P. vannamei - V. parahaemolyticus PPI (PVPPI) network was constructed using in silico methods, followed by clustering and pathway enrichment analyses. The constructed PVPPI network consisted of 448871 interactions between 4427 P. vannamei and 18119 V. parahaemolyticus proteins. Clustering analysis identified several effector proteins, i.e., secretion systems proteins, and their targeted proteins, including cell signalling proteins. The bacterial secretion system, mTOR signalling, and endocytosis were among the enriched pathways that might be involved during V. parahaemolyticus infection in P. vannamei. This study reports the first host-pathogen PPI network between P. vannamei and V. parahaemolyticus, where several hosts and pathogen proteins with potential pathways are highlighted. These findings offer new insights into the interaction between V. parahaemolyticus and P. vannamei, a vital aspect that could serve as a baseline for future disease prevention and treatment in the shrimp aquaculture industry.