Marie-Annick Mouriès scite author profile

New antiparasitic drugs are urgently needed to treat and control diseases such as malaria, leishmaniasis, sleeping sickness and filariasis, which affect millions of people each year. However, because the majority of those infected live in countries in which the prospects of any financial return on investment are too low to support market-driven drug discovery and development, alternative approaches are needed. In this article, challenges and opportunities for antiparasitic drug discovery are considered, highlighting some of the progress that has been made in recent years, partly through scientific advances, but also by more effective partnership between the public and private sectors.

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Schistosomes: challenges in compound screening

Ramirez

Bickle

Yousif

et al. 2007

Expert Opinion on Drug Discovery

145

170

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Major progress in studying the biology of schistosomes had been achieved since the late 1960s with the successful laboratory cultivation of the parasite's life cycle stages in the vertebrate (in vivo animal models) and snail hosts. This was followed by establishment of in vitro culture techniques for cultivation of the different life cycle stages to understand the mechanisms regulating the parasite's growth, development, transformation, pathogenicity and survival, with prospects to develop and identify relevant candidate diagnostic, immunological and chemotherapeutic targets. Chemotherapeutic measures have been the mainstay in the control of schistosomiasis. The use of praziquantel, a relatively safe and orally administered drug, in targeted or mass treatment programmes had significantly reduced the prevalence of schistosomiasis in disease-endemic countries. However, with only one drug of choice for treatment, parasite resistance remains a major concern. Thus, new drug discovery against schistosomes cannot be overemphasised. Undoubtedly, this will require an integrated system that includes not only rational chemical synthesis and lead optimisation, but also appropriate drug screening strategies. This paper reviews the present state of in vitro and in vivo drug screening strategies against schistosomes. It also highlights the best practices for compound screening in the TDR-designated compound screening centres and details some of the challenges involved in in vitro and in vivo compound screening.

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Challenges in drug discovery for novel antifilarials

Townson

Ramirez

Fakorede

et al. 2007

Expert Opinion on Drug Discovery

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Control programmes are at present focused on the elimination of onchocerciasis and lymphatic filariasis as public health problems in countries where they are endemic. The availability of effective drugs used in combination (diethylcarbamazine, albendazole and ivermectin) has paved the way for the implementation of Mass Drug Administration (MDA) campaigns. Considerable progress in the implementation of MDA programmes had led to significant reductions in transmission and morbidity. However, new drugs are needed to overcome the threat of resistance to existing microfilaricides as well as to identify new macrofilaricides. This paper discusses the existing screening tools available for antifilarial drug discovery and efforts towards optimising their use through the Helminth Drug Initiative.

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In vitro and in vivo chromosomal aberrations induced by megazol

Nesslany

Mouriès

et al. 2004

Mutation Research/Genetic Toxicology and Environmental Mutagene

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