How ANOpheles Females sEEk maLe?

Informations

Funding country

France

Acronym

Anofeel

URL

-

Start date

10/1/2015

End date

-

Budget

370,000 EUR

Fundings

Abstract

Malaria is an infectious disease caused by parasites that are transmitted between people by female mosquitoes, killing 600,000 to 1.2 million people each year. In addition to its lethal aspect, malaria is an impediment to the social and economic development of endemic countries. In Africa, Plasmodium falciparum, the most deadly species of malaria parasites, is responsible for 90% of infections and is transmitted by mosquitoes mainly belonging to the Anopheles gambiae complex. Among them, Anopheles gambiae s.s., An. coluzzii and An. arabiensis are the most widespread vectors throughout sub-Saharan Africa. Current malaria prevention is mainly based on the use of long lasting insecticidal nets (LLIN) and indoor residual sprayings of insecticide (IRS) which target female mosquitoes that enter habitations at night to take a blood meal on its human host. During the past decade, these methods have significantly reduced mortality and prevalence of malaria over large areas of sub-Saharan Africa. Unfortunately, recent data indicate an increase in transmission rates in several countries, highlighting the limitation of both LLIN and IRS efficiency. A main hypothesis regarding this resurgence in malaria is that long-term use of residual insecticides is driving an increase in the prevalence of insecticide resistance mechanisms and changes in mosquito behavior that cause them to avoid contacting insecticide either by blood-feeding predominantly outdoors or in the early evening before people are protected by their treated bed nets. Moreover among the Anopheles species able to transmit malaria parasites, some are exophilic, preferring to bite humans outdoors, thereby evading control measures based on indoor residual insecticides. Thus, vector biodiversity and the high adaptive potential of Anopheles species, make more complex the epidemiological landscape and make the long-term control of these vectors difficult. Current efforts to prevent and control life-threatening mosquito-borne diseases require new and innovative vector control tools. Because their blood feeding habit is a key behavior in the malaria transmission process, and because it was thought that mosquitoes could be controlled with insecticides, other basic life history traits, behavior and ecology remain deeply unexplored despite their importance to mosquito biology and parasite transmission. Although mating has been one of the most overlooked behaviors, the development of male release strategies to control mosquito populations, such as the sterile insect technique and genetically modified male mosquitoes, highlights the necessity of producing competitive males and has increased the level of interest in male mating behavior in recent years. However, female mating behavior has been greatly neglected, potentially limiting the effectiveness of male release methods, and the range of tools available for new control and monitoring strategies. Basic knowledge of insect mating behavior and a clear understanding of the mechanisms of mate preference was incidental to the development of efficient agricultural pest control. Such knowledge is currently lacking for most arthropod vector species. Here, we propose to fill some of these gaps by addressing for the first time processes involved in female mating behavior in the African malaria mosquito, Anopheles gambiae. It is known that males form swarms in which females come to find a mate but the way females are attracted to swarms is unknown. Through a multidisciplinary approach, stimuli used by females to locate and recognize male swarms at long range will be identified. Chemical, visual and acoustic signaling will be investigated. Results will help improve vector population suppression/replacement strategies and may prompt the development of new bio-inspired traps for vector surveillance and control.