Peru has the second highest incidence of tuberculosis (TB) disease in the Americas [1]. Despite causing the largest number of deaths worldwide due to any single agent infectious disease, no study has yet examined the influence of the pathogen genome on TB pathology as defined by the extent of radiological involvement on the chest radiograph. Therefore, our first Aim is to combine population level genome sequencing data with radiological data and linked clinical and demographic metadata to determine using novel multivariate genome wide association (GWAS) techniques the bacterial genomic biomarkers of TB pathology More than 80% of TB disease arises following a transmission event that occurs outside the home [2]. Understanding where, when and how frequently transmission events occur in the community is therefore critical in order to intervene and prevent spread of the disease. Identifying transmission sites, intervening and thereby preventing transmission is critical to diminishing the spread of primary drug resistance [3]. Therefore, our second Aim is to use population level whole genome sequencing together with real time GPS monitoring and the latest in spatial ecology mapping analysis to uncover new sites of TB transmission relative to matched controls Acquired drug resistance also contributes significantly to the global burden of drug resistance [4]. How TB strain genotype influences the acquisition of drug resistance remains disputed and insufficiently understood [5?11]. Identifying which genetic background is most associated with the acquisition of drug resistance to specific drugs would enable patients with drug susceptible TB to receive a personalized treatment regimen that minimizes the development of drug resistance on that genetic background. Therefore, our third aim is to use a unique set of >9000 bacterial strains collected in Peru at the population level over 20 years to phylogenetically infer which genetic background is associated with drug resistance acquisition; then confirm these findings in the laboratory and on a similar Moldovan dataset collection of >3000 strains. Preliminary studies have identified a TB bacterial genetic background that is highly associated with drug resistance [12]. We have also identified new community sites where significant TB transmission occurs [13] as well as identifying putative bacterial genetic polymorphisms independently associated with pathology in drug resistant TB. Our proposed study could help to diminish TB transmission in the region, identify new biomarkers of pathology, uncover new sites of TB transmission, and identify the bacterial genetic associations with drug resistance acquisition.

Public Health Relevance

Tuberculosis (TB) causes the largest number of deaths worldwide due to any single agent infectious disease. We propose a study that could help to diminish TB transmission in the region, identify new biomarkers of extent of disease, uncover new sites of TB transmission, and identify the bacterial genes associated with drug resistance.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
1R01AI146338-01A1
Application #
9971780
Study Section
Infectious Diseases, Reproductive Health, Asthma and Pulmonary Conditions Study Section (IRAP)
Program Officer
Lacourciere, Karen A
Project Start
2020-04-15
Project End
2025-03-31
Budget Start
2020-04-15
Budget End
2021-03-31
Support Year
1
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Public Health & Prev Medicine
Type
Schools of Public Health
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205