Improvement of Aqueous Solubility of Lapatinib-Derived Analogues: Identification of a Quinolinimine Lead for Human African Trypanosomiasis Drug Development

Autor: Dana M. Klug, Richard J. Sciotti, Baljinder Singh, Seema Bag, Kojo Mensa-Wilmot, Jeremiah D. Momper, Hitesh B. Jalani, Ana Rodriguez, Melissa J. Buskes, Kelly A. Bachovchin, Katherine M. Schneider, Michael P. Pollastri, Scott Tanghe, Lori Ferrins, Amrita Sharma, Naimee Mehta
Rok vydání: 2019
Předmět:
Drug Evaluation
Preclinical
01 natural sciences
Mice
Drug Discovery
African trypanosomiasis
Solubility
0303 health sciences
biology
Chemistry
Blood Proteins
Pharmacology and Pharmaceutical Sciences
Trypanocidal Agents
Preclinical
Infectious Diseases
Drug development
Liver
5.1 Pharmaceuticals
Microsomes
Liver
Molecular Medicine
Thermodynamics
Development of treatments and therapeutic interventions
medicine.drug
Half-Life
Medicinal & Biomolecular Chemistry
Trypanosoma brucei brucei
Trypanosoma brucei
Lapatinib
Article
03 medical and health sciences
Structure-Activity Relationship
Medicinal and Biomolecular Chemistry
Rare Diseases
Trypanosomiasis
Microsomes
parasitic diseases
medicine
Potency
Structure–activity relationship
Animals
Humans
030304 developmental biology
EC50
Animal
African
Organic Chemistry
Water
biology.organism_classification
medicine.disease
Combinatorial chemistry
0104 chemical sciences
Rats
Vector-Borne Diseases
Disease Models
Animal
010404 medicinal & biomolecular chemistry
Trypanosomiasis
African
Orphan Drug
Good Health and Well Being
Drug Design
Disease Models
Hepatocytes
Quinazolines
Drug Evaluation
Zdroj: Journal of medicinal chemistry, vol 62, iss 2
Popis: Lapatinib, an approved epidermal growth factor receptor inhibitor, was explored as a starting point for the synthesis of new hits against Trypanosoma brucei, the causative agent of human African trypanosomiasis (HAT). Previous work culminated in 1 (NEU-1953), which was part of a series typically associated with poor aqueous solubility. In this report, we present various medicinal chemistry strategies that were used to increase the aqueous solubility and improve the physicochemical profile without sacrificing antitrypanosomal potency. To rank trypanocidal hits, a new assay (summarized in a cytocidal effective concentration (CEC50)) was established, as part of the lead selection process. Increasing the sp3 carbon content of 1 resulted in 10e (0.19 μM EC50 against T. brucei and 990 μM aqueous solubility). Further chemical exploration of 10e yielded 22a, a trypanocidal quinolinimine (EC50: 0.013 μM; aqueous solubility: 880 μM; and CEC50: 0.18 μM). Compound 22a reduced parasitemia 109 fold in trypanosome-infected mice; it is an advanced lead for HAT drug development.
Databáze: OpenAIRE
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