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Preparation of Phosphonic Acid Analogues of Proline and Proline Analogues and Their Biological Evaluation as ?1-Pyrroline-5-carboxylate Reductase Inhibitors.

ABSTRACT: Racemic 1-hydroxy-3-butenyl-, 3-chloro-1-hydroxypropyl-, and 3-bromo-1-hydroxypropylphosphonate and the corresponding (S)-enantiomers obtained by lipase-catalyzed resolution of the respective racemic chloroacetates were subjected to functional group manipulations. These comprised ozonolysis, Mitsunobu reactions with hydrazoic acid and N-hydroxyphthalimide, alkylation of hydrazine derivative, removal of phthaloyl group followed by intramolecular substitution, and global deprotection to deliver the racemates and (R)-enantiomers (ee 92-99% by chiral high-performance liquid chromatography) of pyrrolidin-2-yl-, oxazolidin-3-yl-, oxazolidin-5-yl-, pyrazolidin-3-yl-, and 1,2-oxazinan-3-ylphosphonic acids. These phosphonic acids were evaluated as analogues of proline and proline analogues for the ability to inhibit ?-glutamyl kinase, ?1-pyrroline-5-carboxylate synthetase, and ?1-pyrroline-5-carboxylate reductase. Only the latter enzyme was inhibited by two of them at concentrations exceeding 1 mM.

SUBMITTER: Qian R 

PROVIDER: S-EPMC6641291 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Preparation of Phosphonic Acid Analogues of Proline and Proline Analogues and Their Biological Evaluation as δ<sup>1</sup>-Pyrroline-5-carboxylate Reductase Inhibitors.

Qian Renzhe R   Kalina Thomas T   Horak Jeannie J   Giberti Samuele S   Forlani Giuseppe G   Hammerschmidt Friedrich F  

ACS omega 20180424 4

Racemic 1-hydroxy-3-butenyl-, 3-chloro-1-hydroxypropyl-, and 3-bromo-1-hydroxypropylphosphonate and the corresponding (<i>S</i>)-enantiomers obtained by lipase-catalyzed resolution of the respective racemic chloroacetates were subjected to functional group manipulations. These comprised ozonolysis, Mitsunobu reactions with hydrazoic acid and <i>N</i>-hydroxyphthalimide, alkylation of hydrazine derivative, removal of phthaloyl group followed by intramolecular substitution, and global deprotection  ...[more]

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