Development of non-sedating antischistosomal benzodiazepines

Author:

Mian Md Yeunus,Sharmin Dishary,Mondal Prithu,Belayet Jawad Bin,Hossain M Mahmun,McCusker Paul,Ryan Kaetlyn T.,Fedorov Alexander Y,Green Heather A,Ericksen Spencer S.,Zamanian MostafaORCID,Tiruveedhula V. V. N. Phani Babu,Cook James M.,Chan John D.ORCID

Abstract

AbstractThe neglected tropical disease schistosomiasis infects over 200 million people worldwide and is treated with just one broad spectrum antiparasitic drug (praziquantel). Alternative drugs are needed in the event of emerging praziquantel resistance or treatment failure. One promising lead that has shown efficacy in animal models and a human clinical trial is the benzodiazepine meclonazepam, discovered by Roche in the 1970’s. Meclonazepam was not brought to market because of dose-limiting sedative side effects. However, the human target of meclonazepam that causes sedation (GABAARs) are not orthologous to the parasite targets that cause worm death. Therefore, we were interested in whether the structure of meclonazepam could be modified to produce antiparasitic benzodiazepines that do not cause host sedation. We synthesized 18 meclonazepam derivatives with modifications at different positions on the benzodiazepine ring system and tested them forin vitroantiparasitic activity. This identified five compounds that progressed toin vivoscreening in a murine model, two of which cured parasite infections with comparable potency to meclonazepam. When these two compounds were administered to mice that were run on the rotarod test, both were less sedating than meclonazepam. These findings demonstrate the proof of concept that meclonazepam analogs can be designed with an improved therapeutic index, and point to the C3 position of the benzodiazepine ring system as a logical site for further structure-activity exploration to further optimize this chemical series.

Publisher

Cold Spring Harbor Laboratory

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