The conjugation of microcystin-RR by human recombinant GSTs and hepatic cytosol

Many cyanobacterial species can produce cyanotoxins, among which mycrocistins (MC) are a group of approximate to 100 congeners of hepatotoxic cyclic heptapeptides. MC-RR differs from MC-LR, the most studied congener only for one residue (arginine vs leucine), resulting in a ten-fold difference in the acute toxicity in mice. Although humans may be exposed to MC through several routes and kinetics appeared to be the major factor affecting congener-specific toxicity, little is known on MC metabolism. The accepted pathway for MC detoxication is GSH conjugation: here the MC-RR conjugation with GSH catalyzed by 5 recombinant human GSTs and human liver cytosol (HLC) has been characterized and appeared to be more efficient than MC-LR conjugation. The catalytic efficiency score is T1-1 > A1-1 approximate to P1-1 > M1-1 > A3-3 (0.161-0.056 pmol GSMC-RR (mu g protein min mu M)(-1)). In HLC the spontaneous reaction is favored vs the enzymatic one (ratio 3:1) at physiological GSH content. However, at low MC-RR concentrations, representative of repeated oral exposure, and low GSH content (down to 0.05 mM), possibly associated to exposure to drugs or in patients affected by several pathologies, the relevance of the enzymatic reaction progressively increases, providing the predominant contribution to MC-RR detoxication. (C) 2013 Elsevier Ireland Ltd. All rights reserved.