CCR5 polymorphism and plague resistance in natural populations of the black rat in Madagascar

Madagascar remains one of the world's largest plague foci. The black rat, Rattus rattus, is the main reservoir of plague in rural areas. This species is highly susceptible to plague in plague-free areas (low-altitude regions), whereas rats from the plague focus areas (central highlands) have ev...

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Bibliographic Details
Main Authors: Tollenaere, C., Rahalison, L., Ranjalahy, M., Rahelinirina, S., Duplantier, Jean-Marc, Brouat, Carine
Format: Text
Language:English
Published: 2008
Subjects:
Infectious disease resistance
Yersinia pestis
Chemokine receptor
Candidate gene
Immunogenetics
Rattus rattus
Online Access:http://www.documentation.ird.fr/hor/fdi:010044159
Description
Summary:Madagascar remains one of the world's largest plague foci. The black rat, Rattus rattus, is the main reservoir of plague in rural areas. This species is highly susceptible to plague in plague-free areas (low-altitude regions), whereas rats from the plague focus areas (central highlands) have evolved a disease-resistance polymorphism. We used the candidate gene CCR5 to investigate the genetic basis of plague resistance in R. rattus. We found a unique non-synonymous substitution (H184R) in a functionally important region of the gene. We then compared (i) CCR5 genotypes of dying and surviving plague-challenged rats and (ii) CCR5 allelic frequencies in plague focus and plague-free populations. Our results suggested a higher prevalence of the substitution in resistant animals compared to susceptible individuals, and a tendency for higher frequencies in plague focus areas compared to plague-free areas. Therefore, the CCR5 polymorphism may be involved in Malagasy black rat plague resistance. CCR5 and other undetermined plague resistance markers may provide useful biological information about host evolution and disease dynamics.

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