Differential rates of Mycobacterium tuberculosis transmission associate with host-pathogen sympatry.

Differential rates of Mycobacterium tuberculosis transmission associate with host-pathogen sympatry.

Publication date: Aug 01, 2024

Several human-adapted Mycobacterium tuberculosis complex (Mtbc) lineages exhibit a restricted geographical distribution globally. These lineages are hypothesized to transmit more effectively among sympatric hosts, that is, those that share the same geographical area, though this is yet to be confirmed while controlling for exposure, social networks and disease risk after exposure. Using pathogen genomic and contact tracing data from 2,279 tuberculosis cases linked to 12,749 contacts from three low-incidence cities, we show that geographically restricted Mtbc lineages were less transmissible than lineages that have a widespread global distribution. Allopatric host-pathogen exposure, in which the restricted pathogen and host are from non-overlapping areas, had a 38% decrease in the odds of infection among contacts compared with sympatric exposures. We measure tenfold lower uptake of geographically restricted lineage 6 strains compared with widespread lineage 4 strains in allopatric macrophage infections. We conclude that Mtbc strain-human long-term coexistence has resulted in differential transmissibility of Mtbc lineages and that this differs by human population.

Concepts Keywords
Allopatric Allopatric
Mycobacterium Contacts
Tenfold Differential
Tuberculosis Exposure
Geographical
Host
Human
Lineages
Mtbc
Mycobacterium
Pathogen
Restricted
Sympatric
Tuberculosis
Widespread

Semantics

Type Source Name
disease MESH tuberculosis
pathway KEGG Tuberculosis
disease MESH infection

Original Article

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