121104-96-9Relevant articles and documents
Esters of castanospermine in the treatment of cerebral malaria
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, (2008/06/13)
Red blood cells which are infected with the parasite P. falciparum cause the cells to become sticky and less deformable. This results in a build-up of cells on the vascular wall and creates occlusions to blood flow which are thought to cause the cerebral, renal and liver complications of P. falciparum infections. Certain esters of castanospermine prevent or reduce the adhesion of falciparum infected blood cells to the vascular endothelial wall and are a useful adjunct in the treatment of malaria.
Synthesis of potent anti-HIV agents: esters of castanospermine
Liu,Hoekstra,King
, p. 2829 - 2832 (2007/10/02)
The syntheses of 6-O- and 7-O-acyl-derivatives of the indolizidine alkaloid castanospermine, are described. These compounds are potent inhibitors of the human immunodeficiency virus (HIV) and are potential anti-AIDS agents.
Enzyme-catalyzed regioselective acylation of castanospermine
Margolin,Delinck,Whalon
, p. 2849 - 2854 (2007/10/02)
Several biologically active esters of castanospermine [(1S,6S,7R,8R,8aR)-1,6,7,8-tetrahydroxyoctahydroindolizine] have been synthesized on a preparative scale in pyridine by using the proteolytic enzyme subtilisin as a catalyst. Under these conditions, subtilisin possesses a high regioselectivity and at the same time a broad substrate specificity and enantioselectivity. This fact makes possible the synthesis of a wide variety of 1-O-acyl derivatives via castanospermine esterification. It is possible to regulate the hydrophobicity of the acylating group (acetyl, butyryl, octanoyl) or to incorporate an aromatic moiety (phenylacetyl) or L and D amino acids (phenylalanyl, L- and D-alanyl). Since 1-esters of castanospermine are soluble in several organic solvents, they have been employed as intermediates in the preparation of diesters. Porcine pancreatic lipase, lipase from Chromobacterium viscosum, and subtilisin have been used as catalysts for further enzymatic acylation of 1-O-acyl derivatives of castanospermine in tetrahydrofuran. The regioselectivity of subtilisin is different from that of the lipases tested. Subtilisin shows a strong preference for acylation of the OH group at the C6 position, while lipases prefer the OH group at C7. Among lipases tested, the lipase from C. viscosum is especially active. The reactions catalyzed by this enzyme usually result in isolated yields of ~80%. In order to prepare mono-O-acyl compounds other than 1-O-acylcastanospermine, 1,7-di-O-butyrylcastanospermine has been enzymatically hydrolyzed. Two enzymes - porcine liver esterase and subtilisin - catalyzed this reaction with opposite regioselectivities: while esterase preferentially cleaves off the butyryl group from the C7 position with regioselectivity (C1:C7) better than 1:25, subtilisin hydrolyzes the ester bond at the C1 position with regioselectivity more than 25:1. For synthetic purposes this property of subtilisin is especially important, because it makes possible a three-step enzyme-catalyzed synthesis of 7-O-butyrylcastanospermine.