3646-50-2Relevant articles and documents
Microwave-assisted synthesis of taxol side-chain precursor from malonic acid
Ehsan,Khan,Ara
, p. 2929 - 2930 (2013)
Being a complex diterpenoid, the potent anticancer drug, taxol requires complicated multistep for its synthesis. Due to the chemical complexity of taxol, its commercial production by total synthesis is not likely to be economical. Another natural product, 10-deacetyl baccatin 111 is readily available in higher yield. Several methods have been reported for the synthesis of taxol by coupling baccatin 111 and the N-benzoyl-β-phenyl isoserine side chain. In this study, a simple precursor of side chain has been synthesized under microwave radiation by the condensation of benzaldehyde, ammonium acetate and malonic acid. The time required for the resulting β-amino acid was remarkably reduced from 6 h to 30 s only along with rapid, easy, simple and safe methodology. The structure elucidation of synthesized compound was done by its melting point, solubility, TLC techniques and spectral analyses.
Structure-Based Design and Development of Chemical Probes Targeting Putative MOR-CCR5 Heterodimers to Inhibit Opioid Exacerbated HIV-1 Infectivity
Huang, Boshi,Wang, Huiqun,Zheng, Yi,Li, Mengchu,Kang, Guifeng,Barreto-De-Souza, Victor,Nassehi, Nima,Knapp, Pamela E.,Selley, Dana E.,Hauser, Kurt F.,Zhang, Yan
, p. 7702 - 7723 (2021/06/28)
Crystal structures of ligand-bound G-protein-coupled receptors provide tangible templates for rationally designing molecular probes. Herein, we report the structure-based design, chemical synthesis, and biological investigations of bivalent ligands targeting putative mu opioid receptor C-C motif chemokine ligand 5 (MOR-CCR5) heterodimers. The bivalent ligand VZMC013 possessed nanomolar level binding affinities for both the MOR and CCR5, inhibited CCL5-stimulated calcium mobilization, and remarkably improved anti-HIV-1BaL activity over previously reported bivalent ligands. VZMC013 inhibited viral infection in TZM-bl cells coexpressing CCR5 and MOR to a greater degree than cells expressing CCR5 alone. Furthermore, VZMC013 blocked human immunodeficiency virus (HIV)-1 entry in peripheral blood mononuclear cells (PBMC) cells in a concentration-dependent manner and inhibited opioid-accelerated HIV-1 entry more effectively in phytohemagglutinin-stimulated PBMC cells than in the absence of opioids. A three-dimensional molecular model of VZMC013 binding to the MOR-CCR5 heterodimer complex is constructed to elucidate its mechanism of action. VZMC013 is a potent chemical probe targeting MOR-CCR5 heterodimers and may serve as a pharmacological agent to inhibit opioid-exacerbated HIV-1 entry.
Base-induced Sommelet–Hauser rearrangement of N-(α-(2-oxyethyl)branched)benzylic glycine ester-derived ammonium salts via a chelated intermediate
Baba, Souya,Hirano, Kazuki,Tayama, Eiji
supporting information, (2020/03/13)
The base-induced Sommelet–Hauser (S–H) rearrangement of N-(α-branched)benzylic glycine ester-derived ammonium salts 1 was investigated. When the α-branched substituent was a simple alkyl, such as a methyl or butyl, desired S–H rearrangement product 2 was obtained in low yield with formation of the [1,2] Stevens rearranged 4 and Hofmann eliminated products 5 and 6. However, when the α-branched substituent had a 2-oxy moiety, such as 2-acetoxyethyl or 2-benzoyloxyethyl, the yields of 2 were improved. These results could be explained by formation of chelated intermediate C that stabilizes the carbanionic ylide, and the subsequent initial dearomative [2,3] sigmatropic rearrangement would be accelerated. The existence of C was supported by mechanistic experiments. This enhancement effect is not very strong or effective; however, it will expand the synthetic usefulness of ammonium ylide rearrangements.