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The relationship between the physicochemical properties and the biological effects of alloxan and several N-alkyl substituted alloxan derivatives

1993; Bioscientifica; Volume: 139; Issue: 1 Linguagem: Inglês

10.1677/joe.0.1390153

1479-6805

Rex Munday, Kurt S. Ludwig, Sigurd Lenzen,

Biochemical Acid Research Studies

Alloxan causes diabetes in experimental animals through its ability to destroy the insulin-secreting B-cells of the pancreas. Alloxan is hydrophilic and chemically unstable; it is reactive toward thiols, undergoing redox cycling in the presence of glutathione and oxidizing protein-bound thiol groups, as reflected by inhibition of the thiol enzymes, hexokinase and glucokinase. It is apparently also selectively taken up by the GLUT-2 glucose transporter in the pancreatic B-cell membrane. In order to investigate which, if any, of these physicochemical properties are important in the toxic action of alloxan, we have examined seven N-alkyl substituted alloxan derivatives of various diabetogenic activity. Hydrophilicity was identified as a factor essential for diabetogenicity. Stability, rate of redox cycling and reactivity toward thiol groups were not correlated with diabetogenicity. Selective uptake by the GLUT-2 glucose transporter is not a prerequisite for the diabetogenicity of alloxan derivatives.