Most efficient cocaine hydrolase designed by virtual screening of transition states
by
Zheng F, Yang W, Ko MC, Liu J, Cho H,
Gao D, Tong M, Tai HH, Woods JH, Zhan CG.
Department of Pharmaceutical Sciences, College of Pharmacy,
University of Kentucky, 725 Rose Street, Lexington,
Kentucky 40536, USA.
J Am Chem Soc. 2008 Sep 10;130(36):12148-55.


ABSTRACT

Cocaine is recognized as the most reinforcing of all drugs of abuse. There is no anticocaine medication available. The disastrous medical and social consequences of cocaine addiction have made the development of an anticocaine medication a high priority. It has been recognized that an ideal anticocaine medication is one that accelerates cocaine metabolism producing biologically inactive metabolites via a route similar to the primary cocaine-metabolizing pathway, i.e., cocaine hydrolysis catalyzed by plasma enzyme butyrylcholinesterase (BChE). However, wild-type BChE has a low catalytic efficiency against the abused cocaine. Design of a high-activity enzyme mutant is extremely challenging, particularly when the chemical reaction process is rate-determining for the enzymatic reaction. Here we report the design and discovery of a high-activity mutant of human BChE by using a novel, systematic computational design approach based on transition-state simulations and activation energy calculations. The novel computational design approach has led to discovery of the most efficient cocaine hydrolase, i.e., a human BChE mutant with an approximately 2000-fold improved catalytic efficiency, promising for therapeutic treatment of cocaine overdose and addiction as an exogenous enzyme in human. The encouraging discovery resulted from the computational design not only provides a promising anticocaine medication but also demonstrates that the novel, generally applicable computational design approach is promising for rational enzyme redesign and drug discovery.


BChE
Depression
Acupuncture
Crack and crime
Dopaminergic flies?
Dopaminergic agents
The coke-craving brain
Monoamines, cocaine and rats
Freebasing flies go hyperkinetic
The bacterial junkie: Rhodococcus sp. strain MB1
Dopamine transporter (VMAT2) protein loss and depression

01 02 03 04 05 06 07 08 09 10 11 12
13 14 15 16 17 18 19 20 21 22 23 24


Refs
and further reading

HOME
HedWeb
cannabis-marijuana.com
Future Opioids
BLTC Research
Superhappiness?
Utopian Surgery?
Wirehead Hedonism
Paradise-Engineering
The Abolitionist Project
The Hedonistic Imperative
MDMA: Utopian Pharmacology
When Is It Best to Take Crack Cocaine?

swan image
The Good Drug Guide
The Responsible Parent's Guide To
Healthy Mood Boosters For All The Family