173947-21-2Relevant articles and documents
Switching Lysophosphatidylserine G Protein-Coupled Receptor Agonists to Antagonists by Acylation of the Hydrophilic Serine Amine
Sayama, Misa,Uwamizu, Akiharu,Ikubo, Masaya,Chen, Luying,Yan, Ge,Otani, Yuko,Inoue, Asuka,Aoki, Junken,Ohwada, Tomohiko
, p. 10059 - 10101 (2021/07/28)
Three human G protein-coupled receptors (GPCRs)—GPR34/LPS1, P2Y10/LPS2, and GPR174/LPS3—are activated specifically by lysophosphatidylserine (LysoPS), an endogenous hydrolysis product of a cell membrane component, phosphatidylserine (PS). LysoPS consists of-serine, glycerol, and fatty acid moieties connected by phosphodiester and ester linkages. We previously generated potent and selective GPCR agonists by modification of the three modules and the ester linkage. Here, we show that a novel modification of the hydrophilic serine moiety, that is, N-acylations of the serine amine, converted a GPR174 agonist to potent GPR174 antagonists. Structural exploration of the amide functionality provided access to a range of activities from agonist to partial agonist to antagonist. The present study would provide a new strategy for the development of lysophospholipid receptor antagonists.
The facile production of N-methyl amino acids via oxazolidinones
Aurelio, Luigi,Brownlee, Robert T. C.,Hughes, Andrew B.,Sleebs, Brad E.
, p. 425 - 433 (2007/10/03)
A range of oxazolidinones derived from N-carbamoyl α-amino acids were prepared by an efficient method as key intermediates in the synthesis of N-methyl amino acids and peptides. The method was readily applied to most α-amino acids except those with basic side chains. The oxazolidinones were converted by reductive cleavage into N-methyl α-amino acids. CSIRO 2000.