05 are consider to be

significantly different Conclusion

05 are consider to be

significantly different. Conclusion The effect of silencing multiple mosquito genes in the highly compatible P. yoelii (17XNL)-An. stephensi (Nijmegen Sda500)system was very similar to that observed when P. falciparum (3D7) was used to infect An. gambiae (G3), its natural vector; suggesting that P. yoelii-An. stephensi is a representative animal model to study P. falciparum interactions with compatible vectors. Furthermore, P. yoelii-infected females can be kept at 24°C, a temperature that is more physiological for mosquitoes and closer to that used for P. falciparum CHIR 99021 infections (26°C). Using less compatible parasite-mosquito combinations, such as the P. berghei-An. gambiae or P. yoelii-An. gambiae strains described in this study, may be particularly useful to identify and characterize

immune pathways in the mosquito that could potentially limit human malaria transmission. Once a potential pathway is defined, it is possible to investigate if certain parasite strains avoid activating them, or if the effector genes are inefficient. It may also be possible to use alternative strategies (such as chemicals or Bortezomib nmr fungal infections) to activate these potential antiplasmodial responses and test their effectiveness in limiting malaria transmission in natural vector-parasite combinations. There is a broad spectrum of compatibility between different strains of Plasmodium and particular mosquito strains; for example, An. gambiae (G3) is

highly compatible with P. falciparum (3D7) parasites, but has low compatibility with P. yoelii 17XNL. A given strain of Plasmodium can also be more compatible with certain mosquitoes. For example, P. yoelii 17XNL is much more compatible with An. stephensi (Nijmegen Sda500 strain) than with An. gambiae (G3). TEP1 silencing in An. gambiae (Keele strain) mosquitoes enhances infection with P. falciparum (NK54 strain), doubling the median number of oocysts [22]. Silencing TEP1 in An. gambiae has a more dramatic effect (4–5 fold increase) on P. berghei infection [1]. Furthermore, silencing TEP1 in An. gambiae (G3 strain) does not enhance infection with P. falciparum (NF54 strain), indicating that there are differences in compatibility between acetylcholine particular strains of An. gambiae and P. falciparum (M. Povelones and A. Molina-Cruz, unpublished). Over activation of the Rel2 pathway by silencing Caspar, a critical suppressor of this cascade, drastically reduces P. falciparum (NK54 strain) infection in An. gambiae (Keele strain), An. albimanus (Santa Tecla strain) and An. stephensi mosquitoes [22]. Double silencing experiments in An. gambiae (Keele strain) females, in which Caspar and TEP1 (or other effectors of the Rel2 pathway) were co-silenced, rescues the effect of Caspar, indicating that TEP1 is an important effector of this response.

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