Abstract
BackgroundThe ongoing global malaria eradication campaign requires development of potent, safe, and cost-effective drugs lacking cross-resistance with existing chemotherapies. One critical step in drug development is selecting a suitable clinical candidate from late leads. The process used to select the clinical candidate SJ733 from two potent dihydroisoquinolone (DHIQ) late leads, SJ733 and SJ311, based on their physicochemical, pharmacokinetic (PK), and toxicity profiles is described.MethodsThe compounds were tested to define their physicochemical properties including kinetic and thermodynamic solubility, partition coefficient, permeability, ionization constant, and binding to plasma proteins. Metabolic stability was assessed in both microsomes and hepatocytes derived from mice, rats, dogs, and humans. Cytochrome P450 inhibition was assessed using recombinant human cytochrome enzymes. The pharmacokinetic profiles of single intravenous or oral doses were investigated in mice, rats, and dogs.ResultsAlthough both compounds displayed similar physicochemical properties, SJ733 was more permeable but metabolically less stable than SJ311 in vitro. Single dose PK studies of SJ733 in mice, rats, and dogs demonstrated appreciable oral bioavailability (60–100%), whereas SJ311 had lower oral bioavailability (mice 23%, rats 40%) and higher renal clearance (10–30 fold higher than SJ733 in rats and dogs), suggesting less favorable exposure in humans. SJ311 also displayed a narrower range of dose-proportional exposure, with plasma exposure flattening at doses above 200 mg/kg.ConclusionSJ733 was chosen as the candidate based on a more favorable dose proportionality of exposure and stronger expectation of the ability to justify a strong therapeutic index to regulators.
Highlights
The ongoing global malaria eradication campaign requires development of potent, safe, and costeffective drugs lacking cross-resistance with existing chemotherapies
Chen et al Malar J (2021) 20:107 currently be overcome with longer treatment schedules and/or higher doses [6], this situation raises the potential to return to an era when there are no antimalarials for which resistance does not exist
The number of compounds currently in the pipeline that at least partially satisfy this Target Candidate Profiles (TCPs) has increased in the last decade [8], a drug with strong potential for single dose cure is still lacking in late stage clinical trials
Summary
The ongoing global malaria eradication campaign requires development of potent, safe, and costeffective drugs lacking cross-resistance with existing chemotherapies. One critical step in drug development is selecting a suitable clinical candidate from late leads. The global eradication campaign has led to mortality falling by roughly 30% since 2010 (from 585,000 deaths to 400,000), Chen et al Malar J (2021) 20:107 currently be overcome with longer treatment schedules and/or higher doses [6], this situation raises the potential to return to an era when there are no antimalarials for which resistance does not exist. The number of compounds currently in the pipeline that at least partially satisfy this TCP has increased in the last decade [8], a drug with strong potential for single dose cure is still lacking in late stage clinical trials. The expectation that new drugs will be combination medicines and the possibility of failure during clinical development demand that the discovery of candidates be an ongoing endeavour
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