Showing total 3 results

1. Estimating the effects of temperature on transmission of the human malaria parasite, Plasmodium falciparum.

Author

Suh, Eunho, Stopard, Isaac J., Lambert, Ben, Waite, Jessica L., Dennington, Nina L., Churcher, Thomas S., and Thomas, Matthew B.

Subjects

PLASMODIUM, PLASMODIUM falciparum, TEMPERATURE effect, GLOBAL warming, ANOPHELES gambiae, MALARIA

Abstract

Despite concern that climate change could increase the human risk to malaria in certain areas, the temperature dependency of malaria transmission is poorly characterized. Here, we use a mechanistic model fitted to experimental data to describe how Plasmodium falciparum infection of the African malaria vector, Anopheles gambiae, is modulated by temperature, including its influences on parasite establishment, conversion efficiency through parasite developmental stages, parasite development rate, and overall vector competence. We use these data, together with estimates of the survival of infected blood-fed mosquitoes, to explore the theoretical influence of temperature on transmission in four locations in Kenya, considering recent conditions and future climate change. Results provide insights into factors limiting transmission in cooler environments and indicate that increases in malaria transmission due to climate warming in areas like the Kenyan Highlands, might be less than previously predicted. Malaria transmission is affected by temperature but this relationship is not well characterised. Here, the authors experimentally determine the effect of temperature on parasite development in the mosquito and model how it impacts malaria transmission in Kenya under current and future climate scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

2. A microsporidian impairs Plasmodium falciparum transmission in Anopheles arabiensis mosquitoes.

Author

Herren, Jeremy K., Mbaisi, Lilian, Mararo, Enock, Makhulu, Edward E., Mobegi, Victor A., Butungi, Hellen, Mancini, Maria Vittoria, Oundo, Joseph W., Teal, Evan T., Pinaud, Silvain, Lawniczak, Mara K. N., Jabara, Jordan, Nattoh, Godfrey, and Sinkins, Steven P.

Subjects

ANOPHELES arabiensis, AEDES aegypti, PLASMODIUM falciparum, MOSQUITOES, ANOPHELES gambiae, MICROSPORIDIA, SPOROZOITES

Abstract

A possible malaria control approach involves the dissemination in mosquitoes of inherited symbiotic microbes to block Plasmodium transmission. However, in the Anopheles gambiae complex, the primary African vectors of malaria, there are limited reports of inherited symbionts that impair transmission. We show that a vertically transmitted microsporidian symbiont (Microsporidia MB) in the An. gambiae complex can impair Plasmodium transmission. Microsporidia MB is present at moderate prevalence in geographically dispersed populations of An. arabiensis in Kenya, localized to the mosquito midgut and ovaries, and is not associated with significant reductions in adult host fecundity or survival. Field-collected Microsporidia MB infected An. arabiensis tested negative for P. falciparum gametocytes and, on experimental infection with P. falciparum, sporozoites aren't detected in Microsporidia MB infected mosquitoes. As a microbe that impairs Plasmodium transmission that is non-virulent and vertically transmitted, Microsporidia MB could be investigated as a strategy to limit malaria transmission. Mircobial symbionts of mosquitoes can affect transmission of human pathogens. Here, Herren et al. identify a microsporidian symbiont in Anopheles gambiae that impairs transmission without affecting mosquito fecundity or survival. [ABSTRACT FROM AUTHOR]

Published

2020

3. Examining the human infectious reservoir for Plasmodium falciparum malaria in areas of differing transmission intensity.

Author

Gonçalves, Bronner P., Kapulu, Melissa C., Sawa, Patrick, Guelbéogo, Wamdaogo M., Tiono, Alfred B., Grignard, Lynn, Stone, Will, Hellewell, Joel, Lanke, Kjerstin, Bastiaens, Guido J. H., Bradley, John, Nébié, Issa, Ngoi, Joyce M., Oriango, Robin, Mkabili, Dora, Nyaurah, Maureen, Midega, Janet, Wirth, Dyann F., Marsh, Kevin, and Churcher, Thomas S.

Subjects

MALARIA, PLASMODIUM falciparum, GENETIC vectors, RESERVOIRS, MOSQUITOES

Abstract

A detailed understanding of the human infectious reservoir is essential for improving malaria transmission-reducing interventions. Here we report a multi-regional assessment of population-wide malaria transmission potential based on 1209 mosquito feeding assays in endemic areas of Burkina Faso and Kenya. Across both sites, we identified 39 infectious individuals. In high endemicity settings, infectious individuals were identifiable by research-grade microscopy (92.6%; 25/27), whilst one of three infectious individuals in the lowest endemicity setting was detected by molecular techniques alone. The percentages of infected mosquitoes in the different surveys ranged from 0.05 (4/7716) to 1.6% (121/7749), and correlate positively with transmission intensity. We also estimated exposure to malaria vectors through genetic matching of blood from 1094 wild-caught bloodfed mosquitoes with that of humans resident in the same houses. Although adults transmitted fewer parasites to mosquitoes than children, they received more mosquito bites, thus balancing their contribution to the infectious reservoir. [ABSTRACT FROM AUTHOR]

Published

2017