Methanol detoxification by enzyme-loaded erythrocytes

Abstract

Alcohol oxidase (AlOx) from Pichea pastoris (a methylotrophic yeast) was encapsulated into human and murine erythrocytes up to 2 units/ml of packed cells. This enzyme has a much higher affinity for methanol than for ethanol, thus making the loaded erythrocytes useful cellular bioreactors able to catabolize methanol. Enzyme-loaded erythrocytes showed an increased rate of the hexose-monophosphate-shunt activity and a significant methaemoglobin production. However, the in vivo survival of these cells does not seem to be significantly affected by methanol catabolism. In vivo, mice receiving AlOx-loaded erythrocytes were able to keep the blood methanol concentrations below values that were about 50% of those found in mice receiving unloaded cells and similar amounts of methanol. Thus AlOx-loaded erythrocytes may add an important contribution to the detoxification protocol against methanol poisoning.