Kinetic characterization of an efficient cocaine hydrolase against toxic metabolites of cocaine

Max Zhan, Shurong Hou, Linyue Shang, Xiabin Chen, Chang Guo Zhan, Fang Zheng

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

In the presence of alcohol, cocaine metabolism produces a number of metabolites, including three toxic ones (cocaethylene, norcocaine, and norcocaethylene) which are all more toxic than cocaine itself, with the toxicity in the order of cocaine < cocaethylene < norcocaine < norcocaethylene. In this study, we performed kinetic analysis on our previously reported cocaine hydrolase (E30-6) for its catalytic activities accelerating the hydrolysis of the three toxic metabolites in comparison with cocaine. Based on the obtained kinetic data, the in vitro catalytic efficiencies of the enzyme against these substrates are in the order of cocaine > cocaethylene > norcocaine > norcocaethylene. It has been demonstrated that E30-6 can efficiently accelerate the hydrolysis of not only cocaine itself, but also all three toxic metabolites in vitro and in vivo. E30-6 is the most efficient enzyme for each of these toxic substrates (cocaine, cocaethylene, norcocaine, and norcocaethylene) among all the reported enzymes as far as we know at this point. These findings suggest that E30-6 is capable of efficiently treating cocaine toxicity even when alcohol and cocaine are used concurrently.

Original languageEnglish
Pages (from-to)3650-3659
Number of pages10
JournalOrganic and Biomolecular Chemistry
Volume21
Issue number17
DOIs
StatePublished - Apr 11 2023

Bibliographical note

Publisher Copyright:
© 2023 The Royal Society of Chemistry.

Funding

This work was supported by the National Institutes of Health (NIH) grants U01 DA051079, UH2/UH3 DA041115, U18 DA052319, R01 DA035552, R01 DA032910, and R01 DA013930 and NIH fellowship (3R01 DA032910-02S1 to Max Zhan).

FundersFunder number
National Institutes of Health (NIH)R01 DA035552, R01 DA013930, U01 DA051079, 3R01 DA032910-02S1, UH2/UH3 DA041115, U18 DA052319

    ASJC Scopus subject areas

    • Biochemistry
    • Physical and Theoretical Chemistry
    • Organic Chemistry

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