Abstract
The intracellular bacteria now known as Wolbachia were first described in filarial worms in the 1970s, but the idea of Wolbachia being used as a macrofilaricidal target did not gain wide attention until the early 2000s, with research in filariae suggesting the requirement of worms for the endosymbiont. This new-found interest prompted the eventual organization of the Anti-Wolbachia Consortium (A-WOL) at the Liverpool School of Tropical Medicine, who, among others have been active in the field of antiwolbachial drug discovery to treat filarial infections. Clinical proof of concept studies using doxycycline demonstrated the utility of the antiwolbachial therapy, but efficacious treatments were of long duration and not safe for all infected. With the advance of robotics, automation, and high-speed computing, the search for superior antiwolbachials shifted away from smaller studies with a select number of antibiotics to high-throughput screening approaches, centered largely around cell-based phenotypic screens due to the rather limited knowledge about, and tools available to manipulate, this bacterium. A concomitant effort was put towards developing validation approaches and in vivo models supporting drug discovery efforts. In this review, we summarize the strategies behind and outcomes of recent large phenotypic screens published within the last 5 years, hit compound validation approaches and promising candidates with profiles superior to doxycycline, including ones positioned to advance into clinical trials for treatment of filarial worm infections.
Highlights
Filarial parasitic worm infections afflict millions of people worldwide
Filarial worms of greatest concern to global health include Onchocerca volvulus, the causative agent of onchocerciasis, and Wuchereria bancrofti, Brugia malayi and Brugia timori that are the causative agents of lymphatic filariasis
Worms that cause lymphatic filariasis are smaller than O. volvulus but like O. volvulus can live for long periods of time during which they continue to shed large numbers of microfilariae
Summary
Filarial parasitic worm infections afflict millions of people worldwide. These diseases are not commonly lethal, but the associated morbidities can cause significant physical, psychological and economic suffering for infected individuals, families, and communities. Lymphatic filariasis is endemic in an even greater geographic area, found in the tropics of Asia, Africa, the Pacific, and Americas, with 886 million people at risk of infection and 40 million with disfiguring and disabling physical symptoms. Rat mites (Ornithonyssus bacoti) cotton-rat filariasis adults in pleural cavity (less commonly in peritoneal cavity); mf in peripheral blood can cause wasting and affect survival; pathological changes in lungs, spleen and lymphatics; scattered myocarditis likely southeastern United States, Mexico, and Central America; used as a model to study filarial infection mosquitoes dirofilariasis/ dirofilariosis, aka. We detail the rationale, challenges, strategies and recent progress in developing novel antiwolbachial therapies
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
