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Potential of emodepside for vector-borne disease control
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Journal Article
Potential of emodepside for vector-borne disease control
2025
Overview
Background
Emodepside is an anthelmintic used in veterinary medicine that is currently under investigation in human clinical trials for the treatment of soil-transmitted helminths and possibly
Onchocerca volvulus
. Emodepside targets the calcium-activated voltage-gated potassium slowpoke 1 (SLO-1) channels of presynaptic nerves of pharynx and body wall muscle cells of nematodes leading to paralysis, reduced locomotion and egg laying, starvation, and death. Emodepside also has activity against
Drosophila melanogaster
SLO-1 channels. Orthologous SLO-1 genes are present in
Anopheles gambiae
and
Aedes aegypti
, suggesting that emodepside may have activity against mosquitoes.
Methods
Both
Anopheles dirus
and
Ae. aegypti
were blood-fed emodepside across a range of concentrations (1–10,000 nM) and mosquito survival was monitored for 10 days. Co-feeding experiments were also performed with
An. dirus
blood fed ivermectin at the concentrations that kills 25% (LC
25
) and 50% (LC
50
) of mosquitoes with and without emodepside at clinical peak concentration in humans (C
max
) and five times the C
max
, and mosquito survival was monitored for 10 days.
Results
Emodepside had weak mosquito-lethal effects in
An. dirus
but none observed in
Ae. aegypti
at the concentrations evaluated. The
An. dirus
emodepside LC
50
was 4,623 [4,159–5,066] ng/ml which is > 100-fold greater than the peak concentrations seen in human. The ivermectin and emodepside co-feed experiment with
An. dirus
did not indicate any altered effect of ivermectin on mosquito survival when emodepside co-fed at human C
max
or five times that of the human C
max
.
Conclusions
Emodepside was not lethal to
An. dirus
at human-relevant concentrations and had no effect on
Ae. aegypti
survival. Thus, mass distribution of emodepside does not appear to be a potential tool for vector-borne disease control. Emodepside induced mortality in
An. dirus
does suggest that the SLO-1 channel could be a potential target for novel vector control and may warrant further investigation.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Analysis
/ Animals
/ Biomedical and Life Sciences
/ Blood
/ Calcium
/ Calcium channels (voltage-gated)
/ Depsipeptides - pharmacology
/ Female
/ Humans
/ Humidity
/ Malaria
/ Methods
/ Mosquito
/ Mosquito Vectors - drug effects
/ Nerves
/ Pharynx
/ Plasma
/ Potassium channels (voltage-gated)
/ Survival
