Grants and Contracts Details
Description
Cocaine abuse is a major public health problem that directly or indirectly affects most communities and
families. There is still no FDA-approved medication specific for treatment of cocaine dependence or overdose.
Disastrous medical and social consequences of cocaine abuse have made the development of an anti-cocaine
medication a high priority. Accelerating cocaine metabolism that produces biologically inactive metabolites via
a route similar to the principal cocaine-metabolizing pathway—cocaine hydrolysis catalyzed by human
butyrylcholinesterase (BChE) in plasma—is recognized as the most efficient treatment strategy for cocaine
overdose and addiction. Since the catalytic efficiency (kcat/KM) of wild-type BChE against the naturally occurring
(-)-cocaine is low (kcat = 4.1 min-1 and KM = 4.5 ìM), we have recently designed and discovered a set of BChE
mutants, known as cocaine hydrolases (CocHs), with at least 1,000-fold improved catalytic efficiency against (-
)-cocaine compared to wild-type BChE. Preclinical and clinical data for the first one of our previously
discovered CocHs has demonstrated the promise of enzyme therapy approach to the treatment of cocaine
dependence. Our more recently designed and discovered novel CocH entity, denoted as CocH5-Fc(M6), which
has not only further improved catalytic efficiency against cocaine, but also a considerably prolonged biological
half-life. It has been demonstrated that a single dose of CocH5-Fc(M6) can be used to completely block
cocaine-induced physiological, behavioral, and reinforcing effects for a long period of time in animal models. In
addition, a stable CHO cell line capable of efficiently expressing CocH5-Fc(M6) and the corresponding master
cell bank (MCB) have been developed along with establishment of the robust upstream and downstream
protein production processes, ready for large-scale CocH5-Fc(M6) protein production. Built on the encouraging
progress of our rational design, discovery, and development of the highly efficient, long-acting CocH entity
CocH5-Fc(M6), the proposed new project is focused on further development of CocH5-Fc(M6) as a novel
therapeutic candidate for cocaine dependence treatment, including large-scale production of the CocH5-
Fc(M6) protein material using the developed MCB and established robust upstream and downstream protein
production processes, investigational new drug (IND)-enabling studies, and first-in-human (FIH) clinical
trials. The obtained clinical data about the safety, pharmacokinetics, and ex vivo pharmacodynamics of
CocH5-Fc(M6) in humans will enable us to rationally design the most appropriate dosage regimen for future
further clinical trials to determine the clinical efficacy of CocH5-Fc(M6) in cocaine-dependent patients. Thus,
this investigation will move a promising candidate of the highly desired enzyme therapy closer toward FDA
approval for cocaine dependence treatment.
Status | Finished |
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Effective start/end date | 8/15/20 → 4/30/21 |
Funding
- National Institute on Drug Abuse: $3,521,165.00
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