350-96-9Relevant articles and documents
Novel hybrid conjugates with dual estrogen receptor α degradation and histone deacetylase inhibitory activities for breast cancer therapy
Zhao, Chenxi,Tang, Chu,Li, Changhao,Ning, Wentao,Hu, Zhiye,Xin, Lilan,Zhou, Hai-Bing,Huang, Jian
, (2021/05/10)
Hormone therapy targeting estrogen receptors is widely used clinically for the treatment of breast cancer, such as tamoxifen, but most of them are partial agonists, which can cause serious side effects after long-term use. The use of selective estrogen receptor down-regulators (SERDs) may be an effective alternative to breast cancer therapy by directly degrading ERα protein to shut down ERα signaling. However, the solely clinically used SERD fulvestrant, is low orally bioavailable and requires intravenous injection, which severely limits its clinical application. On the other hand, double- or multi-target conjugates, which are able to synergize antitumor activity by different pathways, thus may enhance therapeutic effect in comparison with single targeted therapy. In this study, we designed and synthesized a series of novel dual-functional conjugates targeting both ERα degradation and histone deacetylase inhibiton by combining a privileged SERD skeleton 7-oxabicyclo[2.2.1]heptane sulfonamide (OBHSA) with a histone deacetylase inhibitor side chain. We found that substituents on both the sulfonamide nitrogen and phenyl group of OBHSA unit had significant effect on biological activities. Among them, conjugate 16i with N-methyl and naphthyl groups exhibited potent antiproliferative activity against MCF-7 cells, and excellent ERα degradation activity and HDACs inhibitory ability. A further molecular docking study indicated the interaction patterns of these conjugates with ERα, which may provide guidance to design novel SERDs or PROTAC-like SERDs for breast cancer therapy.
Exploring the PROTAC degron candidates: OBHSA with different side chains as novel selective estrogen receptor degraders (SERDs)
Li, Yuanyuan,Zhang, Silong,Zhang, Jing,Hu, Zhiye,Xiao, Yuan,Huang, Jian,Dong, Chune,Huang, Shengtang,Zhou, Hai-Bing
, p. 48 - 61 (2019/04/04)
As the mutant estrogen receptor (ER) continues to be characterized, breast cancer is becoming increasingly difficult to cure when treated with hormone therapy. In this regard, a strategy to selectively and effectively degrade the ER might be an effective alternative to endocrine therapy for breast cancer. In a previous study, we identified a novel series of 7-oxabicyclo[2.2.1]heptene sulfonamide (OBHSA) compounds as full ER antagonists while lacking the prototypical ligand side chain that has been widely used to induce antagonism of ERα. Further crystal structure studies and phenotypic assays revealed that these compounds are selective estrogen receptor degraders (SERDs) with a new mechanism of action. However, from a drug discovery point of view, there still is room to improve the potency of these OBHSA compounds. In this study, we have developed new classes of SERDs that contain the OBHSA core structure and different side chains, e.g., basic side chains, long alkyl acid side chains, and glycerol ether side chains, to simply mimic the degrons of proteolysis targeting chimera (PROTAC) and then investigated the structure-activity relationships of these PROTAC-like hybrid compounds. These novel SERDs could effectively inhibit MCF-7 cell proliferation and demonstrated good ERα degradation efficacy. Among the SERDs, compounds 17d, 17e and 17g containing a basic side chain with a N-trifluoroethyl substituent and a para methoxyl group at the phenyl group of the sulfonamide turned out to be the best candidates for ER degraders. A further docking study of these compounds with ERα elucidates their structure-activity relationships, which provides guidance to design new PROTAC degrons targeting ER for breast cancer therapy. Lastly, easy modification of these PROTAC-like SERDs enables further fine-tuning of their pharmacokinetic properties, including oral availability.
Synthetic method of trifluoroacetanilide derivative
-
Paragraph 0015-0017, (2017/09/01)
The invention belongs to the technical field of organic synthetic intermediate, and more specifically relates to a method used for catalytic synthesis of a trifluoroacetanilide derivative under catalytic effect of copper. The method comprises following steps: 1, dimethyl sulfoxide, an aniline derivative, ethyl trifluoropyruvate, and cuprous chloride are delivered into a pressure-resistant reaction tube, the pressure-resistant reaction tube is sealed with a plug, and reaction is carried out for 12h in oil bath at 80 DEG C with magnetic stirring; 2, after reaction, extraction is carried out with ether, obtained organic phase substances are mixed, and reduced pressure distillation is carried out so as to remove most of the solvents, and an obtained mixed solution is subjected to column chromatography separation purification with an eluent composed of petroleum ether and ethyl acetate at a volume ratio of 2:1-10:1 so as to obtain a finished product. The trifluoroacetanilide derivative can be widely used in the fields such as organic synthesis, medicine industry, and pesticide industry; cost is low; operation is simple; the substances are widely available; yield is high; and application prospect is promising.