Entomology Section, Centre for Global Health Research, Kenya Medical Research Institute, Kisumu, Kenya.
Department of Medical Laboratory Sciences, Masinde Muliro University of Science and Technology, Kakamega, Kenya.
Sci Rep. 2022 May 23;12(1):8646. doi: 10.1038/s41598-022-12753-w.
Widespread insecticide resistance in African malaria vectors raises concerns over the potential to compromise malaria vector control interventions. Understanding the evolution of resistance mechanisms, and whether the selective disadvantages are large enough to be useful in resistance management or designing suitable control strategies is crucial. This study assessed whether insecticide resistance to pyrethroids has an effect on the gonotrophic cycle and reproductive potential of malaria vector Anopheles gambiae. Comparative tests were performed with pyrethroid-resistant and susceptible colonies of Anopheles gambiae colonized from the same geographical area, and the reference Kisumu strain was used as a control. Adult females aged 3 days old were given a blood meal and kept separately for individual egg-laying. The number of days taken to lay eggs post-blood-feeding was recorded to determine the length of the gonotrophic cycle. To measure adult longevity and reproduction potential, newly emerged males and females of equal numbers were aspirated into a cage and females allowed to blood feed daily. The number of eggs laid and the surviving mosquitoes were recorded daily to determine fecundity, net reproduction rate, intrinsic growth rate and adult longevity. Overall, the resistant females had a significantly longer (1.8 days) gonotrophic cycle than susceptible females (F = 9. 836, P < 0.01). The proportion of resistant females that laid eggs was lower 31.30% (94/300) compared to 54% (162/300) in the susceptible colony and 65.7% (197/300) in the Kisumu strain. The mean number of eggs laid per female was significantly lower in the resistant colony (88.02 ± 20) compared to the susceptible colony (104.9 ± .28.8) and the Kisumu strain (97.6 ± 34.8). The adult longevity was significantly higher for resistant (39.7 ± 1.6 days) compared to susceptible (29.9 ± 1.7 days) and the Kisumu strain was (29.6 ± 1.1 days) (F = 45.05, P < 0.0001). Resistant colony exhibited a lower fecundity (4.3 eggs/females/day) and net reproductive rate (2.6 offsprings/female/generation) compared to the susceptible colony (8.6 eggs/female/day; 4.7 offsprings/female/generation respectively) and Kisumu strain (9.7 eggs/female/day; 4.1 offsprings/female/generation respectively). The study suggests high fitness cost on reproductive parameters of pyrethroid-resistant mosquitoes particularly on the duration of gonotrophic cycle, fecundity and net reproductive rate. These fitness costs are likely associated with maintaining both target site and metabolic mechanisms of resistance to pyrethroids. Despite these costs, resistant mosquitoes had longer longevity. These results give insights to understanding the fitness cost of insecticide resistance and thus are critical when predicting the epidemiological impact of insecticide resistance.
非洲疟疾媒介中广泛存在的杀虫剂抗性引起了人们对可能破坏疟疾媒介控制干预的担忧。了解抗性机制的演变,以及选择劣势是否足够大,以便在抗性管理或设计合适的控制策略中发挥作用,这是至关重要的。本研究评估了拟除虫菊酯类杀虫剂抗性是否会对疟疾媒介按蚊的生殖周期和生殖潜力产生影响。对来自同一地理区域的抗药性和敏感按蚊进行了比较测试,并将基苏木参考株用作对照。3 日龄的成年雌性接受一次血餐,并分别单独产卵。记录从血餐到产卵的天数,以确定生殖周期的长短。为了测量成虫的寿命和繁殖潜力,将数量相等的新出现的雄性和雌性吸入一个笼子中,并允许雌性每天吸血。每天记录产卵数和存活的蚊子,以确定繁殖力、净生殖率、内在增长率和成虫寿命。总的来说,抗性雌性的生殖周期明显长于敏感雌性(1.8 天)(F=9.836,P<0.01)。与敏感群体(54%(162/300)相比,抗性雌性产卵的比例较低,为 31.30%(94/300),基苏木株为 65.7%(197/300)。抗性群体中每只雌性产卵的平均数量明显低于敏感群体(88.02±20)和基苏木株(97.6±34.8)。抗性(39.7±1.6 天)比敏感(29.9±1.7 天)和基苏木株(29.6±1.1 天)的成虫寿命显著提高(F=45.05,P<0.0001)。抗性群体的繁殖力(4.3 只/雌性/天)和净生殖率(2.6 只后代/雌性/代)均低于敏感群体(8.6 只/雌性/天;4.7 只后代/雌性/代)和基苏木株(9.7 只/雌性/天;4.1 只后代/雌性/代)。研究表明,拟除虫菊酯类杀虫剂抗性蚊子的生殖参数具有较高的适合度代价,特别是在生殖周期持续时间、繁殖力和净生殖率方面。这些适合度代价可能与维持拟除虫菊酯类杀虫剂的靶标和代谢抗性机制有关。尽管存在这些代价,但抗性蚊子的寿命更长。这些结果为理解杀虫剂抗性的适合度代价提供了深入的了解,因此在预测杀虫剂抗性的流行病学影响时至关重要。
