Human butyrylcholinesterase (BChE; EC 3.1.1.8) is codified by the BCHE gene (3q26.1-q26.2) in which 65 variants have been identified. BChE is a scavenger of organophosphorus and carbamate compounds and hydrolyzes succinylcholine, mivacurium and cocaine. The present study describes 12 naturally occurring BCHE mutations including five new mutations (K12R, G15G, V294M, G333C and R470W) identified in 366 blood donors from Southern Brazil. Exons 2 and 4 of the BCHE gene were examined by PCR-SSCA and samples with unexpected electrophoretic patterns were sequenced. The respective nucleotide substitution that characterizes each of the four new nonsynonymous mutations was introduced into BCHE cDNA by site directed mutagenesis and transfected into human embryonic kidney 293T cells and/or Chinese hamster ovary cells. The catalyzed hydrolysis of butyrylthiocholine (BTC) by BChE was measured by the Ellman method. Enzyme kinetic parameters obtained after the expression of the respective recombinant BChE evaluated the effects of the four nonsynonymous mutations. Thirty-four out of 366 individuals carried a BChE mutation in exon 2. The K variant mutation, A539T in exon 4, was present in one out of three persons. Gene expression showed that only one of the newly identified mutations (G333C) altered BChE activity, leading to a decrease of about 80% in relation to the wild-type enzyme.
In mice, cocaine is detoxified to inactive products by butyrylcholinesterase (BChE) and carboxylesterase. In human beings, cocaine detoxification is primarily by BChE. The focus of this investigation was to elucidate the importance of BChE in reducing pathophysiological effects following cocaine exposure. Previous studies examining the effects of cocaine on BChE deficient animals relied on chemical inhibition of BChE with tetraisopropyl pyrophosphoramide (iso-OMPA). The creation of the BChE knockout mouse has provided a model for studying pathological effects of cocaine in mice free of chemical confounders. We hypothesized that mice with low or no BChE activity would have reduced cocaine metabolism, leading to hepatotoxicity and cardiomyopathy. A high-resolution in vivo imaging system recorded cardiac and respiratory function following treatment with a carboxylesterase inhibitor and a high dose of cocaine (100 mg/kg, intraperitoneally). The BChE − / − mice demonstrated depressed respiration through 12 hr after dosing and abnormal respiratory patterns consisting of a pause at full inspiration (apneusis), whereas BChE+/+ mice had recovered normal respiration rates by 30 min. after dosing and exhibited no apneusis. Liver and cardiac histology sections were analysed following a 20 mg/kg intraperitoneally dose of cocaine administered daily for 7 days. BChE-/-mice treated for 7 days with the chronic low dose showed significant hepatotoxicity and cardiac perivascular fibrosis compared to BChE+/+ mice. The observed functional changes following acute high-dose and chronic low-dose cocaine in BChE − / − and +/ − mice warrants further investigation into the possibility of increased cocaine toxicity in human beings with BChE deficiency.
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