Laboratory evaluation of molecular xenomonitoring using mosquito and tsetse fly excreta/feces to amplify Plasmodium, Brugia, and Trypanosoma DNA

Author:

Pilotte NilsORCID,Cook Darren A.N.,Pryce JosephORCID,Zulch Michael F.ORCID,Minetti Corrado,Reimer Lisa J.ORCID,Williams Steven A.

Abstract

Background: Results from an increasing number of studies suggest that mosquito excreta/feces (E/F) testing has considerable potential to serve as a supplement for traditional molecular xenomonitoring techniques. However, as the catalogue of possible use-cases for this methodology expands, and the list of amenable pathogens grows, a number of fundamental methods-based questions remain. Answering these questions is critical to maximizing the utility of this approach and to facilitating its successful implementation as an effective tool for molecular xenomonitoring.Methods: Utilizing E/F produced by mosquitoes or tsetse flies experimentally exposed toBrugia malayi,Plasmodium falciparum, orTrypanosoma brucei brucei, factors such as limits of detection, throughput of testing, adaptability to use with competent and incompetent vector species, and effects of additional blood feedings post parasite-exposure were evaluated.  Two platforms for the detection of pathogen signal (quantitative real-time PCR and digital PCR (dPCR)) were also compared, with strengths and weaknesses examined for each.      Results: Experimental results indicated that high throughput testing is possible when evaluating mosquito E/F for the presence of eitherB. malayiorP. falciparumfrom both competent and incompetent vector mosquito species.  Furthermore, following exposure to pathogen, providing mosquitoes with a second, uninfected bloodmeal did not expand the temporal window for E/F collection during which pathogen detection was possible.  However, this collection window did appear longer in E/F collected from tsetse flies following exposure toT. b. brucei.  Testing also suggested that dPCR may facilitate detection through its increased sensitivity.  Unfortunately, logistical obstacles will likely make the large-scale use of dPCR impractical for this purpose.Conclusions: By examining many E/F testing variables, expansion of this technology to a field-ready platform has become increasingly feasible.  However, translation of this methodology from the lab to the field will first require field-based pilot studies aimed at assessing the efficacy of E/F screening.

Funder

Medical Research Council

Bill and Melinda Gates Foundation

Publisher

F1000 Research Ltd

Subject

Public Health, Environmental and Occupational Health,Health Policy,Immunology and Microbiology (miscellaneous),Biochemistry, Genetics and Molecular Biology (miscellaneous),Medicine (miscellaneous)

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