Cell type-independent profiling of interactions between intracellular pathogens and the human phosphoproteome

Abstract

AbstractInteractions between proteins from intracellular pathogens and host proteins in an infected cell are often mediated by post-translational modifications encoded in the host proteome. Identifying protein modifications, such as phosphorylation, that dictate these interactions remains a defining challenge in unraveling the molecular mechanisms of pathogenesis. We have developed a platform in engineered bacteria that displays over 110,000 phosphorylated human proteins coupled to a fluorescent reporter system capable of identifying the host-pathogen interactome of phosphoproteins (H-PIP). This resource broadly enables cell-type independent interrogation and discovery of proteins from intracellular pathogens capable of binding phosphorylated human proteins. As an example of the H-PIP platform, we generated a unique, high-resolution SARS-CoV-2 interaction network which expanded our knowledge of viral protein function and identified understudied areas of host pathology.