Research on the Impact and Mechanism for the Inhibition of Micrococcus Catalase Activity by Typical Tetracyclines.

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Ren L, Wang Q, Du Y, Xu P, Zong W

Research on the Impact and Mechanism for the Inhibition of Micrococcus Catalase Activity by Typical Tetracyclines.

Biomed Res Int. 2020 Oct 13;2020:5085369. doi: 10.1155/2020/5085369. eCollection 2020.

PubMed ID
33150175 [ View in PubMed
]
Abstract

As potential inhibitors target to biological enzymes, antibiotics may have certain impacts on the biochemical treatment process. With micrococcus catalase (CAT) served as the target molecule, the impact and inhibition mechanism for typical tetracyclines (TCs) were evaluated. Toxicity experiments showed that TCs had significant inhibition on CAT in the sequence of tetracycline>chlortetracycline>oxytetracycline>doxycycline. To clarify the inhibition mechanism between TCs and CAT which was explored with the assistance of fluorescence spectroscopy and MOE molecule simulation. According to fluorescence analysis, TCs quenched the fluorescence signal of CAT by the mode of static quenching. Combined with toxicity data, it could be presumed that TCs combined with the catalytic active center and thus inhibited CAT. Above presumption was further verified by the molecular simulation data. When TCs combined with the catalytic center of CAT, the compounds have increased combination areas and prominent energy change (compared with the compounds formed by TCs and noncatalytic center recommend by MOE software). IBM SPSS statistics showed that TC toxicity positively correlated with the hydrogen bonds such as O(13)-->Glu252, O(1)<--Arg195, and O(6)-->Asp249, but negatively correlated with the hydrogen bonds such as O(10)-->Pro363, O(10)-->Lys455, and O(12) --> Asn127. TC toxicity also positively correlated with the ion bonds ofN(4)-Glu252, but negatively correlated with the ion bonds of N(4)-Asp379. Hydrogen bonds and ion bonds for above key sites were closely related to the inhibition effect of TCs on CAT.

DrugBank Data that Cites this Article

Drug Targets
DrugTargetKindOrganismPharmacological ActionActions
ChlortetracyclineCatalaseProteinMicrococcus luteus
Unknown
Inhibitor
Details