par Sacheli, Rosalie;Knapp, Jenny;Pholien, Caroline;Egrek, Sabrina;Léonard, Philippe ;Giot, Jean-Baptiste;Delaere, Bénédicte;Bletard, Noëlla;Gofflot, Stephanie;Nollevaux, Marie Cécile;Meunier, Paul;Lovinfosse, Pierre;Pirotte, Benoit;Truyens, Carine ;Millon, Laurence;Detry, Olivier;Hayette, Marie-Pierre
Référence Infection, genetics and evolution, 116, 105531
Publication Publié, 2023-12
Référence Infection, genetics and evolution, 116, 105531
Publication Publié, 2023-12
Article révisé par les pairs
Résumé : | The genetic diversity of Echinococcus multilocularis (E. multilocularis) specimens isolated from patients with alveolar echinococcosis (AE), is a major field of investigation to correlate with sources of infection, clinical manifestations and prognosis of the disease. Molecular markers able to distinguish samples are commonly used worldwide, including the EmsB microsatellite. Here, we report the use of the EmsB microsatellite polymorphism data mining for the retrospective typing of Belgian specimens of E. multilocularis infecting humans. A total of 18 samples from 16 AE patients treated between 2006 and 2021 were analyzed through the EmsB polymorphism. Classification of specimens was performed through a dendrogram construction in order to compare the similarity among Belgian samples, some human referenced specimens on the EWET database (EmsB Website for the Echinococcus Typing) and previously published EmsB profiles from red foxes circulating in/near Belgium. According to a comparison with human European specimens previously genotyped in profiles, the 18 Belgian ones were classified into three EmsB profiles. Four specimens could not be assigned to an already known profile but some are near to EWET referenced samples. This study also highlights that some specimens share the same EmsB profile with profiles characterized in red foxes from north Belgium, the Netherlands, Luxembourg and French department near to the Belgian border. Furthermore, Belgian specimens present a genetic diversity and include one profile that don't share similarities with the ones referenced in the EWET database. However, at this geographical scale, there is no clear correlation between EmsB profiles and geographical location. Further studies including additional clinical samples and isolates from foxes and rodents of south Belgium are necessary to better understand the spatial and temporal circumstances of human infections but also a potential correlation between EmsB profiles and parasite virulence. |