Efficient Synthesis of Acylated, Dialkyl α-Hydroxy-Benzylphosphonates and Their Anticancer Activity

Overview

Journal Molecules

Publisher MDPI

Specialty Biology

Date 2022 Apr 12

PMID 35408466

Authors

Petra R Varga

Alexandra Belovics

Peter Bagi

Szilard Toth

Gergely Szakacs

Szilvia Bosze

Rita Szabo

Laszlo Drahos

Gyorgy Keglevich

Affiliations

Soon will be listed here.

Abstract

An efficient method applying acyl chlorides as reagents was developed for the acylation of the hindered hydroxy group of dialkyl α-hydroxy-benzylphosphonates. The procedure did not require any catalyst. A few acylations were also performed with the -enantiomer of dimethyl α-hydroxy-benzylphosphonate, and the optical purity was retained. A part of the acyloxyphosphonates was tested against eight tumor cell lines of different tissue origin at c = 50 μM concentration. The compounds elicited moderate cytostatic effect against breast, skin, prostate, colon, and lung carcinomas; a melanoma cell line; and against Kaposi's sarcoma cell lines. Then, dose-dependent cytotoxicity was assayed, and benzoylation of the α-hydroxy group was identified as a moiety that increases anticancer cytotoxicity across all cell lines. Surprisingly, a few analogues were more toxic to multidrug resistant cancer cell lines, thus evading P-glycoprotein mediated drug extrusion.

Citing Articles

Synthesis of Mesylated and Tosylated α-Hydroxy-Benzylphosphonates; Their Reactivity and Cytostatic Activity.

Szalai Z, Debrei M, Abranyi-Balogh P, Bosze S, Olahne Szabo R, Karaghiosoff K ACS Omega. 2024; 9(28):31043-31055.

PMID: 39035900 PMC: 11256086. DOI: 10.1021/acsomega.4c04382.

Cytotoxic Activity of α-Aminophosphonic Derivatives Coming from the Tandem Kabachnik-Fields Reaction and Acylation.

Varga P, Olahne Szabo R, Dorman G, Bosze S, Keglevich G Pharmaceuticals (Basel). 2023; 16(4).

PMID: 37111263 PMC: 10144033. DOI: 10.3390/ph16040506.

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