Structure-Activity Relationship of Peptide-Conjugated Chloramphenicol for Inhibiting

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2019 Nov 1

PMID 31670952

Citations 4

Authors

Jiaqing Wang

Adrianna Shy

Difei Wu

Deani L Cooper

Jiashu Xu

Hongjian He

Wenjun Zhan

Shenghuan Sun

Susan T Lovett

Bing Xu

Affiliations

Soon will be listed here.

Abstract

Intravenous administration of a prodrug, chloramphenicol succinate (CLsu), is ineffective. Recently, we have shown that conjugation of diglycine of CLsu (CLsuGG) not only increases the antibiotic efficacy against but also reduces adverse drug effects against bone marrow stromal cells. Here, we report the synthesis of structural analogues of CLsuGG and their activities against . These analogues reveal several trends: (i) except the water-insoluble analogues, the attachment of peptides to CLsu enhances the efficacy of the prodrugs; (ii) negative charges, high steric hindrance in the side chains, or a rigid diester decreases the activities of prodrugs in comparison to CLsuGG; (iii) dipeptides apparently increase the efficacy of the prodrugs most effectively; and so forth. This work suggests that conjugating peptides to CLsu effectively modulates the properties of prodrugs. The structure-activity relationship of these new conjugates may provide useful insights for expanding the pool of antibiotics.

Citing Articles

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Autohydrolysis of Diglycine-Activated Succinic Esters Boosts Cellular Uptake.

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Recent Trends in Synthesis of Chloramphenicol New Derivatives.

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