At a glance:
For some forms of tuberculosis, the chances that an exposed person will get infected depend on whether the individual and the bacteria share a hometown, according to a new study comparing how different strains move through mixed populations in cosmopolitan cities.
Results of the research, led by Harvard Medical School scientists and published Aug. 1 in Nature Microbiology, provide the first hard evidence of long-standing observations that have led scientists to suspect that pathogen, place, and human host collide in a distinctive interplay that influences infection risk and fuels differences in susceptibility to infection.
The findings may also help inform new prevention and treatment approaches for tuberculosis, a wily pathogen that, each year, sickens more than 10 million people and causes more than a million deaths worldwide, according to the World Health Organization.
Where widespread Haarlem strains are prevalent
In these nations, at least 10 percent of the strains in a multinational database of tuberculosis genotypes were from the globally distributed Haarlem sublineage of Lineage 4, a group of TB varieties known as the Euro-American lineage that is prevalent around the world.
The analysis showed that close household contacts of people diagnosed with a strain of TB from a geographically restricted lineage had a 14 percent lower rate of infection and a 45 percent lower rate of developing active TB disease compared with those exposed to a strain belonging to a widespread lineage.
The study also showed that strains with narrow geographic ranges are much more likely to infect people with roots in the bacteria’s native geographic region than people from outside the region.
The researchers found that the odds of infection dropped by 38 percent when a contact is exposed to a restricted pathogen from a geographic region that doesn’t match the person’s background, compared with when a person is exposed to a geographically restricted microbe from a region that does match their home country. This was true for people who had lived in the region themselves and for people whose two parents could each trace their heritage to the region.
This pathogen-host affinity points to a shared evolution between humans and microbes with certain biological features rendering both more compatible and fueling the risk for infection, the researchers said.
“The size of the effect is surprisingly large,” said Maha Farhat, the Gilbert S. Omenn, MD ’65, PhD Associate Professor of Biomedical Informatics in the Blavatnik Institute at HMS. “That’s a good indicator that the impact on public health is substantial.”
Why differences matter
Thanks to the growing use of genetic sequencing, researchers have observed not all circulating strains are created equal. Some lineages are widespread and responsible for much of the TB around the world, while others are prevalent only in a few restricted areas. Given that the complex nature of TB transmission in high-incidence settings where people often have multiple exposures to different lineages, researchers have not been able to compare strains under similar conditions and have been left to speculate about possible explanations for the differences between strains.
Many factors increase the risk of contracting tuberculosis from a close contact. One of the best predictors of whether a person will infect their close contacts is bacterial load, measured by a test called sputum smear microscopy, which shows how many bacteria a person carries in their respiratory system.
However the new study showed that for geographically restricted strains, whether a person has ancestors who lived where the strain is common was an even bigger predictor of infection risk than bacterial load in the sputum. In the cases analyzed in the study, this risk of common ancestry even outweighed the risk stemming from having diabetes and other chronic diseases previously shown to render people more susceptible to infection.
The findings add to a growing body of evidence of the importance of paying attention to the wide variation between different lineages of tuberculosis and to the details of how different lineages of tuberculosis interact with different host populations.
Previous studies have shown that some genetic groups of TB are more prone to developing drug resistance and that TB vaccines appear to work better in some places than others. There is also evidence that some treatment regimens might be better suited to some strains of TB than others.
“These findings emphasize how important it is to understand what makes different strains of TB behave so differently from one another, and why some strains have such a close affinity for specific, related groups of people,” said Matthias Groeschel, research fellow in biomedical informatics in Farhat’s lab at HMS; resident physician at Charité, a university hospital in Berlin; and the study’s first author.
In addition to the analysis of clinical, genomic, and public health data, the researchers also tested the ability of different strains of TB to infect human macrophages, a type of immune cell that TB hijacks to cause infection and disease. The researchers grew cells from donors from different regions. Once again, cell lines from people with ancestry that matched the native habitat of a restricted strain of tuberculosis bacteria were more susceptible to the germs than cells from people from outside the area, mirroring the results of their epidemiologic study.
Until now, most experiments of the interaction between human immune cells and TB have not compared how TB interacts with cells of hosts from different populations or places, the researchers said.
While this experiment was not designed to capture insights about the mechanism underlying the affinity between human and TB populations sharing geographic backgrounds, it highlights the importance of using multiple strains of TB and cells from diverse populations to inform treatment and prevention. It also points to the need for more basic research to understand the genomic and structural differences in how bacterial and host cells interface, the researchers said.
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