Нүүр зураг

Evolution of ivermectin resistance in the nematode model Caenorhabditis elegans: critical influence of population size and unexpected cross-resistance to emodepside

-д хадгалсан:
-д хэвлэсэн:bioRxiv (Dec 6, 2024)
Үндсэн зохиолч: Hellinga, Jacqueline
Бусад зохиолчид: Trubenova, Barbora, Wagner, Jessica, Regoes, Roland R, Krucken, Jurgen, Schulenburg, Hinrich, Georg Von Samson-Himmelstjerna
Хэвлэсэн:
Cold Spring Harbor Laboratory Press
Нөхцлүүд:
Ivermectin
Cross-resistance
Population genetics
Computer applications
Evolution
Nematodes
Mutation rates
Control programs
Albendazole
Anthelmintic agents
Genetic diversity
Levamisole
Caenorhabditis elegans
Онлайн хандалт:Citation/Abstract
Full Text - PDF
Full text outside of ProQuest
Шошгууд: Шошго нэмэх
Шошго байхгүй, Энэхүү баримтыг шошголох эхний хүн болох!
Хураангуй:The emergence and spread of anthelmintic resistance represent a major challenge for treating parasitic nematodes, threatening mass-drug control programs in humans and zoonotic species. Currently, experimental evidence to understand the influence of management (e.g., treatment intensity and frequency) and parasite-associated factors (e.g., genetic variation, population size and mutation rates) is lacking. To rectify this knowledge gap, we performed controlled evolution experiments with the model nematode Caenorhabditis elegans and further evaluated the evolution dynamics with a computational model. Large population size was critical for rapid ivermectin resistance evolution in vitro and in silico. Male nematodes were favored during resistance evolution, indicating a selective advantage of sexual recombination under drug pressure in vitro. Ivermectin resistance evolution led to the expected emergence of cross-resistance to the structurally related anthelmintic moxidectin but unexpectedly also to the structurally unrelated anthelmintic emodepside that has an entirely different mode of action. In contrast, albendazole, levamisole, and monepantel efficacy were not influenced by the evolution of Ivermectin resistance. We conclude that combining computational modeling with in vitro evolution experiments to test specific aspects of evolution directly represents a promising approach to guide the development of novel treatment strategies to anticipate and mitigate resistance evolution in parasitic nematodes.Competing Interest StatementThe authors have declared no competing interest.
ISSN:2692-8205
DOI:10.1101/2024.12.03.626540
Эх сурвалж:Biological Science Database