First evaluation and detection of ivermectin resistance in gastrointestinal nematodes of sheep and goats in South Darfur, Sudan

Helminth infections, a significant global health concern, are effectively treated with anthelmintic drugs. However, the rise of anthelmintic-resistant strains in livestock threatens both animal and human health. Understanding the factors influencing anthelmintic resistance is crucial to mitigate the threat posed by these parasites. Due to difficulties in studying parasitic worms in the laboratory, the non-parasitic nematode Caenorhabditis elegans is used as a model organism to investigate anthelmintic resistance evolution. However, the suitability of this free-living nematode as a model for parasitic worms is also debatable due to its unique androdioecious reproductive mode, which enables hermaphrodites to reproduce by selfing or mating with males. While selfing offers reproductive assurance and efficient selection, it can reduce genetic diversity and lead to harmful mutations. Conversely, outcrossing with males introduces new genetic variation, aiding adaptation but potentially slowing the spread of beneficial mutations. The androdioecious reproductive system is rare among nematodes, raising questions about the generalizability of findings from C. elegans to other species with different mating systems. In this study, we aim to evaluate the suitability of C. elegans as a model organism for investigating the evolution of antihelmintic resistance in parasitic nematodes. We developed a polygenic model incorporating various reproductive modes and drug resistance to better understand the complex interplay between reproductive mode and resistance evolution. Combining a population genetic perspective on anthelmintic resistance evolution with pharmacodynamic modelling, we investigated the effects of reproductive strategy and other aspects, such as dominance, mutational effects, the number of loci, and population size, in determining the dynamics and outcome of evolutionary processes. We found that androdioecious populations exhibited rapid initial adaptation, typical for hermaphrodites, alongside the ability to endure high drug concentrations, which was observed in dioecious populations. Androdioecious populations also exhibited the highest diversity and shortest time to fixation of the beneficial allele. These results suggest that androdioecious populations can harness the advantages of both selfing and outcrossing, optimizing their reproductive strategy in response to drug selection. Both population size and the specific genetic architecture of resistance influence the ideal balance between these reproductive modes.

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First evaluation and detection of ivermectin resistance in gastrointestinal nematodes of sheep and goats in South Darfur, Sudan

Cited by 5 publications

References 59 publications

Efficacy of fenbendazole against gastrointestinal nematodes in naturally infected goats in Maputo Province, Mozambique using in vivo, in vitro and molecular assessment

Efficacy of fenbendazole against gastrointestinal nematodes in naturally infected goats in Maputo Province, Mozambique using in vivo, in vitro and molecular assessment

Effects of immune response on different nano-adjuvants combined with H11 antigen of Haemonchus contortus

Investigating the consequences of the mating system for drug resistance evolution inC. elegans

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