Historical Intensity of Natural Selection for Resistance to Tuberculosis

Historical Intensity of Natural Selection for Resistance to Tuberculosis

Marc Lipsitch^a and Alexandra O. Sousa^b,c
^a Departments of Epidemiology, Harvard School of Public Health, Boston, Massachusetts 02115
^b Departments of Immunology and Infectious Diseases, Harvard School of Public Health, Boston, Massachusetts 02115
^c Laboratory of Infection Biology, The Rockefeller University, New York, New York 10021

Corresponding author: Marc Lipsitch, Harvard School of Public Health, 677 Huntington Ave., Boston, MA 02115., mlipsitc{at}hsph.harvard.edu (E-mail)

Communicating editor: M. W. FELDMAN

Infections have long been thought to exert natural selectionon humans. Infectious disease resistance is frequently invokedas a mechanism shaping human genetic diversity, but such hypotheseshave rarely been quantitatively evaluated with direct measuresof disease-related mortality. Enhancement of genetically determinedresistance to tuberculosis by natural selection has been proposedas a factor explaining the decline of tuberculosis in Europeand North America in the period 1830–1950 (before theadvent of antimicrobial chemotherapy) and the apparently reducedsusceptibility of Europeans and their descendants to tuberculosisinfection and/or disease. We used Swedish vital statistics from1891 to 1900 to estimate that individuals who escaped mortalityfrom pulmonary tuberculosis (PTB) during the European tuberculosisepidemic would have enjoyed a fitness advantage of 7–15%per generation compared to individuals who were susceptibleto PTB mortality; individuals with 50% protection would havehad a selection coefficient of 4–7%/generation. Selectionduring the peak of the European TB epidemic could have substantiallyreduced the frequency of already rare alleles conferring increasedsusceptibility to PTB mortality, but only if the phenotypiceffects of these alleles were very large. However, if resistantalleles were rare at the beginning of this period, 300 yearswould not have been long enough for such selection to increasetheir frequency to epidemiologically significant levels. Reductionsin the frequency of rare susceptibility alleles could have playedat most a small part in the decline of the epidemic in the centurypreceding 1950. Natural selection by PTB deaths during the EuropeanTB epidemic alone cannot account for the presently low levelof TB disease observed among Europeans and their descendantsjust prior to the appearance of antibiotic treatment.

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