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Analysis of Genomic DNA from Medieval Plague Victims Suggests Long-Term Effect of Yersinia pestis on Human Immunity Genes

Pathogens and associated outbreaks of infectious disease exert selective pressure on human populations, and any changes in allele frequencies that result may be especially evident for genes involved in immunity. In this regard, the 1346-1353 Yersinia pestis-caused Black Death pandemic, with continue...

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Detalles Bibliográficos
Autores principales: Immel, Alexander, Key, Felix M, Szolek, András, Barquera, Rodrigo, Robinson, Madeline K, Harrison, Genelle F, Palmer, William H, Spyrou, Maria A, Susat, Julian, Krause-Kyora, Ben, Bos, Kirsten I, Forrest, Stephen, Hernández-Zaragoza, Diana I, Sauter, Jürgen, Solloch, Ute, Schmidt, Alexander H, Schuenemann, Verena J, Reiter, Ella, Kairies, Madita S, Weiß, Rainer, Arnold, Susanne, Wahl, Joachim, Hollenbach, Jill A, Kohlbacher, Oliver, Herbig, Alexander, Norman, Paul J, Krause, Johannes
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8476174/
https://www.ncbi.nlm.nih.gov/pubmed/34002224
http://dx.doi.org/10.1093/molbev/msab147
Descripción
Sumario:Pathogens and associated outbreaks of infectious disease exert selective pressure on human populations, and any changes in allele frequencies that result may be especially evident for genes involved in immunity. In this regard, the 1346-1353 Yersinia pestis-caused Black Death pandemic, with continued plague outbreaks spanning several hundred years, is one of the most devastating recorded in human history. To investigate the potential impact of Y. pestis on human immunity genes, we extracted DNA from 36 plague victims buried in a mass grave in Ellwangen, Germany in the 16th century. We targeted 488 immune-related genes, including HLA, using a novel in-solution hybridization capture approach. In comparison with 50 modern native inhabitants of Ellwangen, we find differences in allele frequencies for variants of the innate immunity proteins Ficolin-2 and NLRP14 at sites involved in determining specificity. We also observed that HLA-DRB1*13 is more than twice as frequent in the modern population, whereas HLA-B alleles encoding an isoleucine at position 80 (I-80+), HLA C*06:02 and HLA-DPB1 alleles encoding histidine at position 9 are half as frequent in the modern population. Simulations show that natural selection has likely driven these allele frequency changes. Thus, our data suggest that allele frequencies of HLA genes involved in innate and adaptive immunity responsible for extracellular and intracellular responses to pathogenic bacteria, such as Y. pestis, could have been affected by the historical epidemics that occurred in Europe.