175892-44-1Relevant articles and documents
Chiral combinatorial preparation and biological evaluation of unique ceramides for inhibition of sphingomyelin synthase
Koolath, Sajeer,Monde, Kenji,Murai, Yuta,Suga, Yoshiko
supporting information, (2020/02/04)
Enantiomers or diastereomers of chiral bioactive compounds often exhibit different biological and toxicological properties. Here, we report the efficient synthesis of four stereoisomers of sphingosine and derivatization of unique chiral ceramides through a combinatorial chemistry by solid-phase activated resin ester. In addition, to test the effectivity of stereochemistry of ceramide, we demonstrated a cell-based assay of sphingomyelin synthase inhibition in the presence ofchiral unique ceramides, which suggested that libraries of this sort will be a rich source of biologically active synthetic molecules.
Exploring Leishmania major Inositol Phosphorylceramide Synthase (LmjIPCS): Insights into the ceramide binding domain
Mina, John G.,Mosely, Jackie A.,Ali, Hayder Z.,Denny, Paul W.,Steel, Patrick G.
supporting information; experimental part, p. 1823 - 1830 (2011/04/26)
The synthesis of set of ceramide analogues exploring hydrophobicity in the acyl chains and the degree and nature of hydroxylation is described. These have been assayed against the parasitic protozoan enzyme LmjIPCS. These studies showed that whilst the C-3 hydroxyl group was not essential for turnover it provided enhanced affinity. Reflecting the membrane bound nature of the enzyme a long (C13) hydrocarbon ceramide tail was necessary for both high affinity and turnover. Whilst the N-acyl chain also contributed to affinity, analogues lacking the amide linkage functioned as competitive inhibitors in both enzyme and cell-based assays. A model that accounts for this observation is proposed.
Synthesis of sphingomyelin and ceramide 1-phosphate from ceramide without protection of the allylic hydroxyl group
Byun,Erukulla,Bittman
, p. 6495 - 6498 (2007/10/02)
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