56077-28-2Relevant articles and documents
High Chemo-/Stereoselectivity for Synthesis of Polysubstituted Monofluorinated Pyrimidyl Enol Ether Derivatives
Kang, Lei,Wang, Fang,Zhang, Jinlong,Yang, Huameng,Xia, Chungu,Qian, Jinlong,Jiang, Gaoxi
supporting information, p. 1669 - 1674 (2021/03/08)
A novel intramolecular Smiles rearrangement of α-fluoro-β-keto-pyrimidylsulfones (usually used as a carbon nucleophile) was developed, providing a versatile avenue for synthesis of tri/tetra-substituted monofluorinated pyrimidyl enol ethers. Among these, diverse (Z)-monofluorovinylsulfones and sulfinates were efficiently assembled by adding extra electrophile and fine-tuning reaction conditions. The process is triggered by a keto-enol tautomerism from enol oxyanion to pyrimidine 2-carbon, completely different from the classical carbon nucleophilic addition reaction approach.
Structure–activity relationships (SARs) of α- ketothioamides as inhibitors of phosphoglycerate dehydrogenase (PHGDH)
Spillier, Quentin,Ravez, Séverine,Unterlass, Judith,Corbet, Cyril,Degavre, Charline,Feron, Olivier,Frédérick, Rapha?l
, (2020/02/11)
For many years now, targeting deregulation within cancer cells’ metabolism has appeared as a promising strategy for the development of more specific and efficient cancer treatments. Recently, numerous reports highlighted the crucial role of the serine synthetic pathway, and particularly of the phosphoglycerate dehydrogenase (PHGDH), the first enzyme of the pathway, to sustain cancer progression. Yet, because of very weak potencies usually in cell-based settings, the inhibitors reported so far failed to lay ground on the potential of this approach. In this paper, we report a structure–activity relationship study of a series of α-ketothioamides that we have recently identified. Interestingly, this study led to a deeper understanding of the structure–activity relationship (SAR) in this series and to the identification of new PHGDH inhibitors. The activity of the more potent compounds was confirmed by cellular thermal shift assays and in cell-based experiments. We hope that this research will eventually provide a new entry point, based on this promising chemical scaffold, for the development of therapeutic agents targeting PHGDH.
Iterative synthesis of alkenes by insertion of lithiated epoxides into boronic esters
Bojaryn, Kevin,Fritsch, Stefan,Hirschhaüser, Christoph
supporting information, p. 2218 - 2222 (2019/04/10)
The insertion of lithiated epoxides into boronic esters followed by thermal syn-elimination provides a stereospecific entry to alkenes. This process avoids transition metals and is amenable to iteration to provide higher substitution patterns.