@article{99911, keywords = {medieval England, red squirrels, animal leprosy host, Ancient Mycobacterium leprae genome}, author = {Urban C and Blom AA and Avanzi C and Walker-Meikle K and Warren AK and White-Iribhogbe K and Turle R and Marter P and Dawson-Hobbis H and Roffey S and Inskip SA and Schuenemann VJ}, title = {Ancient Mycobacterium leprae genome reveals medieval English red squirrels as animal leprosy host}, abstract = {

Leprosy, one of the oldest recorded diseases in human history, remains prevalent in Asia, Africa, and South America, with over 200,000 cases every year. Although ancient DNA (aDNA) approaches on the major causative agent, Mycobacterium leprae, have elucidated the disease’s evolutionary history, the role of animal hosts and interspecies transmission in the past remains unexplored. Research has uncovered relationships between medieval strains isolated from archaeological human remains and modern animal hosts such as the red squirrel in England. However, the time frame, distribution, and direction of transmissions remains unknown. Here, we studied 25 human and 12 squirrel samples from two archaeological sites in Winchester, a medieval English city well known for its leprosarium and connections to the fur trade. We reconstructed four medieval M. leprae genomes, including one from a red squirrel, at a 2.2-fold average coverage. Our analysis revealed a phylogenetic placement of all strains on branch 3 as well as a close relationship between the squirrel strain and one newly reconstructed medieval human strain. In particular, the medieval squirrel strain is more closely related to some medieval human strains from Winchester than to modern red squirrel strains from England, indicating a yet-undetected circulation of M. leprae in non-human hosts in the Middle Ages. Our study represents the first One Health approach for M. leprae in archaeology, which is centered around a medieval animal host strain, and highlights the future capability of such approaches to understand the disease’s zoonotic past and current potential.

}, year = {2024}, journal = {Current Biology}, pages = {1-10}, publisher = {Elsevier BV}, issn = {0960-9822}, url = {https://www.cell.com/action/showPdf?pii=S0960-9822%2824%2900446-9}, doi = {10.1016/j.cub.2024.04.006}, language = {Eng}, }