Syntheses and Biological Activities of Rebeccamycin Analogues. Introduction of a Halogenoacetyl Substituent

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 1999 Mar 3

PMID 10052965

Citations 12

Authors

P Moreau

F Anizon

M Sancelme

M Prudhomme

C Bailly

D Severe

J F Riou

D Fabbro

T Meyer

A M Aubertin

Affiliations

Soon will be listed here.

Abstract

In the course of structure-activity relationships on rebeccamycin analogues, a series of compounds bearing a halogenoacetyl substituent were synthesized with the expectation of increasing the interaction with DNA, possibly via covalent reaction with the double helix. Two rebeccamycin analogues bearing an acetyl instead of a bromoacetyl substituent were prepared to gain an insight into the role of the halogen atom. The new compounds show very little effect on protein kinase C and no covalent reaction with DNA was detected. However, the drugs behave as typical topoisomerase I poisons, and they are significantly more toxic toward P388 leukemia cells than to P388/CPT5 cells resistant to camptothecin. The introduction of a bromo- or chloro-acetyl substituent does not affect the capacity of the drug to interfere with topoisomerase I either in vitro or in cells. One of the bromoacetyl derivatives, compound 8, is the most cytotoxic rebeccamycin derivative among the hundred of derivatives we have synthesized to date. In addition, we determined the antimicrobial activities against two Gram-positive bacteria, Bacillus cereus and Streptomyces chartreusis, and against the Gram-negative bacterium Escherichia coli. The effect of the drugs on Candida albicans yeast growth and their anti-HIV-1 activities were also measured.

Citing Articles

A Mechanism Study of Redox Reactions of the Ruthenium-oxo-polypyridyl Complex.

Chen B, Yan S, Zhu X Molecules. 2023; 28(11).

PMID: 37298875 PMC: 10254183. DOI: 10.3390/molecules28114401.

Hybrid-Enhanced Siamese Similarity Models in Ligand-Based Virtual Screen.

Altalib M, Salim N Biomolecules. 2022; 12(11).

PMID: 36421733 PMC: 9687796. DOI: 10.3390/biom12111719.

β-Cyclodextrin-Stabilized Biosynthesis Nanozyme for Dual Enzyme Mimicking and Fenton Reaction with a High Potential Anticancer Agent.

Ali S, Sikdar S, Basak S, Rajbanshi B, Mondal M, Roy D ACS Omega. 2022; 7(5):4457-4470.

PMID: 35155938 PMC: 8829946. DOI: 10.1021/acsomega.1c06322.

One-Pot Surface Modification of β-CuO NPs for Biocatalytic Performance against A-549 Lung Carcinoma Cell Lines through Docking Analysis.

Abbas G, Pandey G, Singh K, Gautam N ACS Omega. 2021; 6(44):29380-29393.

PMID: 34778611 PMC: 8581973. DOI: 10.1021/acsomega.1c02942.

Energy-Saving and Pollution-Reduction Potential Analysis for Diesel Engines Fueled with Fischer-Tropsch Fuel.

Shi J, Wang T, Yuwen H, Wang H, Ji G ACS Omega. 2021; 6(42):27620-27629.

PMID: 34722962 PMC: 8552238. DOI: 10.1021/acsomega.1c01748.