Uncovering New Pathogen-Host Protein-Protein Interactions by Pairwise Structure Similarity.

Lei Liu,Zheng-Guo He,Tao Cui,Weihui Li,Qiaoyun Huang,Byung-Jun Yoon

doi:10.1371/journal.pone.0147612

Lei Liu, Zheng-Guo He + Show 4 more

Open Access

https://doi.org/10.1371/journal.pone.0147612

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Journal: PloS one	Publication Date: Jan 22, 2016
Citations: 13	License type: CC BY 4.0

Affiliation: Huazhong Agricultural University

Abstract

Pathogens usually evade and manipulate host-immune pathways through pathogen–host protein–protein interactions (PPIs) to avoid being killed by the host immune system. Therefore, uncovering pathogen–host PPIs is critical for determining the mechanisms underlying pathogen infection and survival. In this study, we developed a computational method, which we named pairwise structure similarity (PSS)-PPI, to predict pathogen–host PPIs. First, a high-quality and non-redundant structure–structure interaction (SSI) template library was constructed by exhaustively exploring heteromeric protein complex structures in the PDB database. New interactions were then predicted by searching for PSS with complex structures in the SSI template library. A quantitative score named the PSS score, which integrated structure similarity and residue–residue contact-coverage information, was used to describe the overall similarity of each predicted interaction with the corresponding SSI template. Notably, PSS-PPI yielded experimentally confirmed pathogen–host PPIs of human immunodeficiency virus type 1 (HIV-1) with performance close to that of in vitro high-throughput screening approaches. Finally, a pathogen–host PPI network of human pathogen Mycobacterium tuberculosis, the causative agent of tuberculosis, was constructed using PSS-PPI and refined using filtration steps based on cellular localization information. Analysis of the resulting network indicated that secreted proteins of the STPK, ESX-1, and PE/PPE family in M. tuberculosis targeted human proteins involved in immune response and phagocytosis. M. tuberculosis also targeted host factors known to regulate HIV replication. Taken together, our findings provide insights into the survival mechanisms of M. tuberculosis in human hosts, as well as co-infection of tuberculosis and HIV. With the rapid pace of three-dimensional protein structure discovery, the SSI template library we constructed and the PSS-PPI method we devised can be used to uncover new pathogen–host PPIs in the future.

Highlights

Upon infection by pathogens, various host immune response pathways such as toll-like receptors signaling, NF-κB signaling, phagocytes, and cell-apoptosis pathways are activated
We found that M. tuberculosis targeted 53 human proteins involved in regulating Human Immunodeficiency Virus (HIV) replication (Fig 6C)
We demonstrate that pairwise structure similarity (PSS)-protein–protein interactions (PPIs) can effectively discover pathogen–host PPIs with performance close to that of high-throughput screening

Summary

Introduction

Various host immune response pathways such as toll-like receptors signaling, NF-κB signaling, phagocytes, and cell-apoptosis pathways are activated. These pathways work collectively to recognize, take up, and kill invading pathogens. Pathogens have evolved diverse strategies for survival and replication under hostile host environments [1,2,3]. The Legionella effector RavZ inhibits host autophagy through irreversible Atg deconjugation [4]. The VirA protein of Shigella flexneri targets host Rab for inactivation and contributes to Shigella escape from autophagy [5]. Discovery and analysis of pathogen–host PPIs can enable the determination of pathogen survival mechanisms in hosts

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