Abstract
Based on the strategy of the “tail approach”, 15 novel saccharide-modified sulfonamides were designed and synthesised. The novel compounds were evaluated as inhibitors of three human carbonic anhydrase (CA) isoforms, namely cytoplasmic CA II, transmembrane CA IX, and XII. Most of these compounds showed good activity against CAs and high topological polar surface area (TPSA) values, which had a positive effect on the selective inhibition of transmembrane isoforms CA IX and XII. In the in vitro activity studies, compounds 16a, 16b, and 16e reduced the viability of HT-29 and MDA-MB-231 cells with a high expression of CA IX under hypoxia. The inhibitory activity of compound 16e on the human osteosarcoma cell line MG-63 with a high expression of CA IX and XII was better than that of AZM. Moreover, high concentrations of compounds 16a and 16b reversed the acidification of the tumour microenvironment. In addition, compound 16a had a certain inhibitory effect on the migration of MDA-MB-231 cells. All the above results indicate that the saccharide-modified sulfonamide has further research value for the development of CA IX inhibitors.
Highlights
Hypoxia and acidification are salient features of many tumour tissues [1]
Saccharide-modified compounds 16a–o and key intermediates 14a–h were evaluated for their enzymatic activity against tumour-associated isoforms carbonic anhydrase (CA) IX and XII and the common off-target isoform CA II
Afterwards, the series of compounds were tested at the cellular level to investigate their effects on the cell viabilities of the MDAMB-231, HT-29, and MG-63 cell lines
Summary
Hypoxia and acidification are salient features of many tumour tissues [1]. Such a microenvironment is of great significance to tumour cell survival, proliferation, invasion, and the development of drug resistance [1,2,3]. Several recent studies have shown that CA XII is an attractive and potential target for tumour treatment and diagnostic intervention, especially for hypoxic tumours that are resistant to traditional radiotherapy and chemotherapy [9,10,11]. Both CA IX and CA XII play an important role in maintaining the acidic microenvironment of tumours in a variety of tumour tissues and have been proven to be vital to tumour growth and survival [12,13]
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