17889-63-3Relevant articles and documents
Gene editing and synthetically accessible inhibitors reveal role for TPC2 in HCC cell proliferation and tumor growth
Bartel, Karin,Biel, Martin,Bracher, Franz,Chao, Yu-Kai,Chen, Cheng-Chang,Gegenfurtner, Florian A.,Geisslinger, Franz,Gerndt, Susanne,Gerwien, Aaron,Grimm, Christian,Nguyen, Ong Nam Phuong,Ortler, Carina,Schaefer, Michael,Urban, Nicole,Vollmar, Angelika M.,Zahler, Stefan,Zisis, Themistoklis,Müller, Christoph,Müller, Martin
, p. 1119 - 27,1131 (2021/08/19)
The role of two-pore channel 2 (TPC2), one of the few cation channels localized on endolysosomal membranes, in cancer remains poorly understood. Here, we report that TPC2 knockout reduces proliferation of cancer cells in vitro, affects their energy metabolism, and successfully abrogates tumor growth in vivo. Concurrently, we have developed simplified analogs of the alkaloid tetrandrine as potent TPC2 inhibitors by screening a library of synthesized benzyltetrahydroisoquinoline derivatives. Removal of dispensable substructures of the lead molecule tetrandrine increases antiproliferative properties against cancer cells and impairs proangiogenic signaling of endothelial cells to a greater extent than tetrandrine. Simultaneously, toxic effects on non-cancerous cells are reduced, allowing in vivo administration and revealing a TPC2 inhibitor with antitumor efficacy in mice. Hence, our study unveils TPC2 as valid target for cancer therapy and provides easily accessible tetrandrine analogs as a promising option for effective pharmacological interference.
Light-Driven Intramolecular C?N Cross-Coupling via a Long-Lived Photoactive Photoisomer Complex
Jing, Dong,Lu, Cong,Chen, Zhuo,Jin, Songyang,Xie, Lijuan,Meng, Ziyi,Su, Zhishan,Zheng, Ke
supporting information, p. 14666 - 14672 (2019/09/06)
Reported herein is a visible-light-driven intramolecular C?N cross-coupling reaction under mild reaction conditions (metal- and photocatalyst-free, at room temperature) via a long-lived photoactive photoisomer complex. This strategy was used to rapidly prepare the N-substituted polycyclic quinazolinone derivatives with a broad substrate scope (>50 examples) and further exploited to synthesize the natural products tryptanthrin, rutaecarpine, and their analogues. The success of gram-scale synthesis and solar-driven transformation, as well as promising tumor-suppressing biological activity, proves the potential of this strategy for practical applications. Mechanistic investigations, including control experiments, DFT calculations, UV-vis spectroscopy, EPR, and X-ray single-crystal structure of the key intermediate, provides insight into the mechanism.
One-pot α-amidosulfone-mediated variation of the pictet-Spengler tetrahydroisoquinoline synthesis, suitable for amide-type substrates
Arroyo, Francisco J.,López-Alvarado, Pilar,Ganesan,Menéndez, J. Carlos
supporting information, p. 5720 - 5727 (2014/11/07)
The development of Pictet-Spengler reactions from amide substrates is a challenging problem. We report here that the reaction between amide-type compounds (including carbamates, amides, ureas and diketopiperazines), aldehydes and p-toluenesulfinic acid constitutes an efficient method for the preparation of tetrahydroisoquinolines or pyrazino-[2,1-b]isoquinolines. Unlike previously known methods, this one-pot Pictet-Spengler protocol avoids the need for strong Lewis or Br?nsted acid catalysts.