Download This PaperSynthesis of Estrone Selenocyanate Compounds, Anti-Tumor Activity Evaluation and Structure-Activity Relationship Analysis
30 Pages Posted: 24 Sep 2022
Abstract
Introducing different functional groups into steroid can bring unexpected changes in biological activity of the steroid. Using estrone as a raw material, through the functional group conversion and modification of the 17-carbonyl, the structural fragments with selenocyano groups were instilled in the form of amide, ester, and oxime ester, respectively, and various 17-substituted estrone selenocyanate derivatives were synthesized. In addition, different 3-substituted estrone selenocyanate derivatives were synthesized by introducing different selenocyanoalkoxy fragments into the 3-position of estrone in the form of alkyl ether. Furthermore, the selenocyano-containing moieties were embedded into the 2-position of estrone by means of amide, affording diverse 2-selenocyanoamide-estrone derivatives. The antiproliferative activities of the target compounds were screened by selecting tumor cell lines related to the expression of human hormones. The results showed that the introduction of selenocyano group into estrone could endow estrone with significant biological activity of inhibiting the proliferation of tumor cells. Structure-activity relationship research showed that the cytotoxicity of 3-selenocyanoalkoxy-estrone was further increased with the extension of alkyl carbon-chain within 8 carbon chain lengths. In addition, the cytotoxicity of the products with selenocyano via the form of amide was stronger than that of ester or ether. Selenocyano moiety instilled at the 2-position of estrone in the form of amide was more cytotoxic than that of 17- or 3-position. Among them, compound 21a has better inhibitory activity on tested tumor cells than positive controls Abiraterone and 2-methoxyestradiol. Research showed that the compound 21c induced programmed apoptosis in Sk-Ov-3 cancer cells, and compound 17d inhibited significantly the growth of human cervical cancer zebrafish xenografts in vivo , offering useful insights into the synthesis of steroid antitumor drugs.
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Funding Information: Financial support of “The National Natural Science Foundation of China (No: 22161031)”, “the Guangxi Natural Science Foundation of China (No: 2018JJA120087, 2020GXNSFBA159005)” and High-level Innovation Team and distinguished scholar program in Guangxi colleges and Universities, Program of Guangxi Bagui Scholar.
Conflict of Interests: The authors declare no conflict of interest.
Keywords: Selenosteroids, Estrone, Selenocyanates, Steroidal selenocyanates, Antiproliferative activity
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