2018
DOI: 10.1038/s41467-018-05893-z
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Non-competitive resource exploitation within mosquito shapes within-host malaria infectivity and virulence

Abstract: Malaria is a fatal human parasitic disease transmitted by a mosquito vector. Although the evolution of within-host malaria virulence has been the focus of many theoretical and empirical studies, the vector’s contribution to this process is not well understood. Here, we explore how within-vector resource exploitation would impact the evolution of within-host Plasmodium virulence. By combining within-vector dynamics and malaria epidemiology, we develop a mathematical model, which predicts that non-competitive pa… Show more

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Cited by 69 publications
(96 citation statements)
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“…While an additional feeding does not limit human malaria parasite numbers unlike their rodent malaria counterparts (Figures 1 and 3), when evaluating oocyst numbers we noticed stark differences in parasite growth between Plasmodium species in the surviving oocysts (Figure 4). P. falciparum oocysts are significantly larger when mosquitoes receive an additional blood- or protein-meal when compared to mosquitoes maintained on sucrose alone after the infectious bloodmeal (Figure 4A), arguing that human malaria parasites are able to utilize host resources to accelerate their growth as previously suggested (Costa et al, 2018; Werling et al, 2019). Differences in oocyst size between blood- or protein-meal were not significant (Figure 4A).…”
Section: Resultssupporting
confidence: 64%
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“…While an additional feeding does not limit human malaria parasite numbers unlike their rodent malaria counterparts (Figures 1 and 3), when evaluating oocyst numbers we noticed stark differences in parasite growth between Plasmodium species in the surviving oocysts (Figure 4). P. falciparum oocysts are significantly larger when mosquitoes receive an additional blood- or protein-meal when compared to mosquitoes maintained on sucrose alone after the infectious bloodmeal (Figure 4A), arguing that human malaria parasites are able to utilize host resources to accelerate their growth as previously suggested (Costa et al, 2018; Werling et al, 2019). Differences in oocyst size between blood- or protein-meal were not significant (Figure 4A).…”
Section: Resultssupporting
confidence: 64%
“…While no differences in P. berghei oocyst size were detected, P. falciparum oocysts significantly increased following additional feeding, suggesting that human malaria parasites utilize the added resources provided in a blood- or protein-meal to increase their growth. Previous work argues that the increase in lipid resources that accompany feeding are utilized by the developing oocyst for growth and sporozoite production (Costa et al, 2018; Werling et al, 2019). Moreover, an additional feeding increases the number of P. falciparum salivary gland sporozoites (Ponnudurai et al, 1989; Rosenberg and Rungsiwongse, 1991), arguing that this increased growth may enhance the potential for malaria transmission.…”
Section: Discussionmentioning
confidence: 99%
“…To date, mostly indirect evidence exists for a Plasmodium oocyst strategy to cope with nutritional stress. P. berghei oocyst size and sporozoite output are markedly reduced in Anopheles gambiae silenced for Lipophorin (Lp), the main lipid transporter of insects 4,16 , and as mentioned previously very high P. berghei infections result in reduced number of sporozoites in A. stephensi salivary glands 8 . These reports and unpublished observations we and others have made over the years led us to hypothesize that experimental infections may cause a nutritional stress to the developing oocyst, affecting sporogonic development and the measurable infection outcome.…”
Section: Main Textmentioning
confidence: 58%
“…The negative density-dependent effect on the oocyst is exacerbated in standard laboratory infections where infected mosquitoes are often not provided supplemental bloodmeals, leading to acute depletion of nutrient reserves 47,26 . In nature, a female mosquito acquires a bloodmeal every 2-3 days 27,28 , which helps it meet the high energy and nutrient demand for flight and reproduction.…”
Section: Discussionmentioning
confidence: 99%
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