Marcenac P., Shaw W. R., Kakani E. G., Mitchell S. N., South A., Werling K., Marrogi E., Abernathy D. G., Yerbanga R. S., Dabire R. K., Diabate A., Lefèvre Thierry, Catteruccia F. (2020). A mating-induced reproductive gene promotes Anopheles tolerance to Plasmodium falciparum infection. PLoS Pathogens, 16 (12), p. e1008908 [16 p.]. ISSN 1553-7366.
Titre du document
A mating-induced reproductive gene promotes Anopheles tolerance to Plasmodium falciparum infection
Année de publication
2020
Auteurs
Marcenac P., Shaw W. R., Kakani E. G., Mitchell S. N., South A., Werling K., Marrogi E., Abernathy D. G., Yerbanga R. S., Dabire R. K., Diabate A., Lefèvre Thierry, Catteruccia F.
Source
PLoS Pathogens, 2020,
16 (12), p. e1008908 [16 p.] ISSN 1553-7366
Author summary Plasmodium falciparum, the deadliest form of human malaria, is transmitted when female Anopheles mosquitoes bite people and take a blood meal in order to develop eggs. To date, it is still poorly understood whether Anopheles mosquitoes that get infected with P. falciparum suffer fitness costs. Here, we find that the number of eggs produced by Anopheles gambiae and Anopheles stephensi females is not affected by P. falciparum infection, and that the mating status of the mosquitoes does not impact the parasite. However, in field experiments infecting a related species, Anopheles coluzzii, with P. falciparum using blood from donors in Burkina Faso, we find that interfering with the expression of a gene normally triggered by the sexual transfer of the steroid hormone 20-hydroxyecdysone induces increasing costs to egg development as females become more infected with P. falciparum, with no impacts on the parasite. The results of our study suggest that pathways triggered by mating may help Anopheles prevent reproductive costs associated with P. falciparum infection, providing new insights into evolutionary strategies adopted by anophelines in the face of a longstanding association with Plasmodium parasites. Anopheles mosquitoes have transmitted Plasmodium parasites for millions of years, yet it remains unclear whether they suffer fitness costs to infection. Here we report that the fecundity of virgin and mated females of two important vectors-Anopheles gambiae and Anopheles stephensi-is not affected by infection with Plasmodium falciparum, demonstrating that these human malaria parasites do not inflict this reproductive cost on their natural mosquito hosts. Additionally, parasite development is not impacted by mating status. However, in field studies using different P. falciparum isolates in Anopheles coluzzii, we find that Mating-Induced Stimulator of Oogenesis (MISO), a female reproductive gene strongly induced after mating by the sexual transfer of the steroid hormone 20-hydroxyecdysone (20E), protects females from incurring fecundity costs to infection. MISO-silenced females produce fewer eggs as they become increasingly infected with P. falciparum, while parasite development is not impacted by this gene silencing. Interestingly, previous work had shown that sexual transfer of 20E has specifically evolved in Cellia species of the Anopheles genus, driving the co-adaptation of MISO. Our data therefore suggest that evolution of male-female sexual interactions may have promoted Anopheles tolerance to P. falciparum infection in the Cellia subgenus, which comprises the most important malaria vectors.
Plan de classement
Entomologie médicale / Parasitologie / Virologie [052]
Description Géographique
BURKINA FASO
Localisation
Fonds IRD [F B010080522]
Identifiant IRD
fdi:010080522
