TY - JOUR
T1 - CRIMALDDI: platform technologies and novel anti-malarial drug targets
AU - Vial, Henri
AU - Taramelli, Donatella
AU - Boulton, Ian C
AU - Ward, Steve A
AU - Doerig, Christian Daniel
AU - Chibale, Kelly
PY - 2013
Y1 - 2013
N2 - The Coordination, Rationalization, and Integration of antiMALarial drug Discovery Development Initiatives (CRIMALDDI) Consortium, funded by the EU Framework Seven Programme, has attempted, through a series of interactive and facilitated workshops, to develop priorities for research to expedite the discovery of new antimalarials. This paper outlines the recommendations for the development of enabling technologies and the identification of novel targets. Screening systems must be robust, validated, reproducible, and represent human malaria. They also need to be cost-effective. While such systems exist to screen for activity against blood stage Plasmodium falciparum, they are lacking for other Plasmodium spp. and other stages of the parasite?s life cycle. Priority needs to be given to developing high-throughput screens that can identify activity against the liver and sexual stages. This in turn requires other
enabling technologies to be developed to allow the study of these stages and to allow for the culture of liver cells and the parasite at all stages of its life cycle. As these enabling technologies become available, they will allow novel drug targets to be studied. Currently antimalarials are mostly targeting the asexual blood stage of the parasite?s life cycle. There are many other attractive targets that need to be investigated. The liver stages and the sexual stages will become more important as malaria control moves towards malaria elimination. Sexual development is a process offering multiple targets, even though the mechanisms of differentiation are still not fully understood. However, designing a drug whose effect is not curative but would be used in asymptomatic patients is difficult given current safety thresholds. Compounds active against the liver schizont would have a prophylactic effect and Plasmodium vivax elimination requires effectors against the dormant liver hypnozoites. It may be that drugs to be used in elimination campaigns will also need to have utility in the control phase. Compounds with activity against blood stages need to be screened for activity against other stages. Natural products should also be a valuable source of new compounds. They often occupy non-Lipinski chemical space and so may reveal valuable new chemotypes.
AB - The Coordination, Rationalization, and Integration of antiMALarial drug Discovery Development Initiatives (CRIMALDDI) Consortium, funded by the EU Framework Seven Programme, has attempted, through a series of interactive and facilitated workshops, to develop priorities for research to expedite the discovery of new antimalarials. This paper outlines the recommendations for the development of enabling technologies and the identification of novel targets. Screening systems must be robust, validated, reproducible, and represent human malaria. They also need to be cost-effective. While such systems exist to screen for activity against blood stage Plasmodium falciparum, they are lacking for other Plasmodium spp. and other stages of the parasite?s life cycle. Priority needs to be given to developing high-throughput screens that can identify activity against the liver and sexual stages. This in turn requires other
enabling technologies to be developed to allow the study of these stages and to allow for the culture of liver cells and the parasite at all stages of its life cycle. As these enabling technologies become available, they will allow novel drug targets to be studied. Currently antimalarials are mostly targeting the asexual blood stage of the parasite?s life cycle. There are many other attractive targets that need to be investigated. The liver stages and the sexual stages will become more important as malaria control moves towards malaria elimination. Sexual development is a process offering multiple targets, even though the mechanisms of differentiation are still not fully understood. However, designing a drug whose effect is not curative but would be used in asymptomatic patients is difficult given current safety thresholds. Compounds active against the liver schizont would have a prophylactic effect and Plasmodium vivax elimination requires effectors against the dormant liver hypnozoites. It may be that drugs to be used in elimination campaigns will also need to have utility in the control phase. Compounds with activity against blood stages need to be screened for activity against other stages. Natural products should also be a valuable source of new compounds. They often occupy non-Lipinski chemical space and so may reveal valuable new chemotypes.
UR - http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3827883/pdf/1475-2875-12-396.pdf
U2 - 10.1186/1475-2875-12-396
DO - 10.1186/1475-2875-12-396
M3 - Article
SN - 1475-2875
VL - 12
SP - 1
EP - 11
JO - Malaria Journal
JF - Malaria Journal
IS - 1 (Art. No.: 396)
ER -