Issue 21, 2023

Development of a synthesis strategy for sulfamethoxazole derivatives and their coupling with hydrogel microparticles

Abstract

Sulfonamides were the first synthetic antibiotics broadly applied in veterinary and human medicine. Their increased use over the last few decades and limited technology to degrade them after entering the sewage system have led to their accumulation in the environment. A new hydrogel microparticle based biosensing application for sulfonamides is developed to overcome existing labour-intensive, and expensive detection methods to analyse and quantify their environmental distribution. This biosensing assay is based on the soft colloidal probe principle and requires microparticle functionalization strategies with target molecules. In this study, we developed a step-wise synthesis approach for sulfamethoxazole (SMX) derivatives in high yield, with SMX being one of the most ubiquitous sulfonamide antibiotics. After de novo synthesis of the SMX derivative, two coupling schemes to poly(ethylene glycol) (PEG) hydrogel microparticles bearing maleimide and thiol groups were investigated. In one approach, we coupled a cysteamine linker to a carboxyl group at the SMX derivative allowing for subsequent binding via the thiol-functionality to the maleimide groups of the microparticles in a mild, high-yielding thiol-ene “click” reaction. In a second approach, an additional 1,11-bis(maleimido)-3,6,9-trioxaundecane linker was coupled to the cysteamine to target the hydrolytically more stable thiol-groups of the microparticles. Successful PEG microparticle functionalization with the SMX derivatives was proven by IR spectroscopy and fluorescence microscopy. SMX-functionalized microparticles will be used in future applications for sulfonamide detection as well as for pull-down assays and screenings for new sulfomethoxazole binding targets.

Graphical abstract: Development of a synthesis strategy for sulfamethoxazole derivatives and their coupling with hydrogel microparticles

Supplementary files

Article information

Article type
Paper
Submitted
07 Feb 2023
Accepted
23 Apr 2023
First published
24 Apr 2023
This article is Open Access
Creative Commons BY-NC license

J. Mater. Chem. B, 2023,11, 4695-4702

Development of a synthesis strategy for sulfamethoxazole derivatives and their coupling with hydrogel microparticles

V. Riedl, M. Portius, L. Heiser, P. Riedl, T. Jakob, R. Gehring, T. Berg and T. Pompe, J. Mater. Chem. B, 2023, 11, 4695 DOI: 10.1039/D3TB00246B

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