Proteogenomic Analysis and Discovery of Immune Antigens in Mycobacterium vaccae

Jianhua Zheng,Lihong Chen,Liguo Liu,Haifeng Li,Bo Liu,Dandan Zheng,Tao Liu,Jie Dong,Lilian Sun,Yafang Zhu,Jian Yang,Xiaobing Zhang,Qi Jin

doi:10.1074/mcp.m116.065813

Abstract

Tuberculosis (TB) is one of the leading causes of death worldwide, especially in developing countries. Neonatal BCG vaccination occurs in various regions, but the level of protection varies in different populations. Recently, Mycobacterium vaccae is found to be an immunomodulating therapeutic agent that could confer a significant level of protection against TB. It is the only vaccine in a phase III trial from WHO to assess its efficacy and safety in preventing TB disease in people with latent TB infection. However, the mechanism of immunotherapy of M. vaccae remains poorly understood. In this study, the full genome of M. vaccae was obtained by next-generation sequencing technology, and a proteogenomic approach was successfully applied to further perform genome annotation using high resolution and high accuracy MS data. A total of 3,387 proteins (22,508 unique peptides) were identified, and 581 proteins annotated as hypothetical proteins in the genome database were confirmed. Furthermore, 38 novel protein products not annotated at the genome level were detected and validated. Additionally, the translational start sites of 445 proteins were confirmed, and 98 proteins were validated through extension of their translational start sites based on N terminus-derived peptides. The physicochemical characteristics of the identified proteins were determined. Thirty-five immunogenic proteins of M. vaccae were identified by immunoproteomic analysis, and 20 of them were selected to be expressed and validated by Western blot for immunoreactivity to serum from patients infected with M. tuberculosis The results revealed that eight of them showed strong specific reactive signals on the immunoblots. Furthermore, cellular immune response was further examined and one protein displayed a higher cellular immune level in pulmonary TB patients. Twelve identified immunogenic proteins have orthologous in H37Rv and BCG. This is the first study to obtain the full genome and annotation of M. vaccae using a proteogenomic approach, and some immunogenic proteins that were validated by immunoproteomic analysis could contribute to the understanding of the mechanism of M. vaccae immunotherapy.

Highlights

Twelve identified immunogenic proteins have orthologous in H37Rv and bacillus Calmette and Guerin (BCG)
M. vaccae could confer a significant level of protection against TB among human immunodeficiency virus (HIV)-infected individuals who were vaccinated with BCG during their childhood [6]
The results revealed that eight of them showed strong specific reactive signals on the immunoblots of TBϩ serum, and one protein displayed a high cellular immune level in pulmonary TB patients

Summary

Introduction

Twelve identified immunogenic proteins have orthologous in H37Rv and BCG. This is the first study to obtain the full genome and annotation of M. vaccae using a proteogenomic approach, and some immunogenic proteins that were validated by immunoproteomic analysis could contribute to the understanding of the mechanism of M. vaccae immunotherapy. M. vaccae could confer a significant level of protection against TB among HIV-infected individuals who were vaccinated with BCG during their childhood [6]. This vaccine was licensed by the China Food and Drug Administration as an immunotherapeutic agent to help shorten TB treatment for patients with drug-susceptible TB [2]. MS-based proteomic information has been applied to refine genome annotation, which has been termed proteogenomics This approach can discover previously unidentified genes, and correct and validate the predicted genes in various organisms [10]. It has been demonstrated that this approach is likely to become a part of most genome annotation workflows in the future

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Conclusion