Enzymatic synthesis of glucuronides using lipophilic hollow fiber membranes

A lipophilic hollow fiber membrane preparation was used for the enzymatic glucuronidation of lipophilic aromatic compounds. A crude solubilized microsomal enzyme preparation was circulated on the external side of the lipophilic membrane while the phenol containing buffer solution was circulated through the internal side of the hollow fiber membrane. Phenols, which accumulate in and penetrate the lipophilic membrane, were converted by UDP-glucuronyltransferase to the corresponding glucuronides. During this process the lipophilic compounds are converted to hydrophilic substances, which are not able to rediffuse through the lipophilic membrane into the donor side of the hollow fiber module. The produced glucuronide is separated by means of a coupled dialysis with a module of hydrophilic surface (cellulose acetate), while the enzyme protein is retained.On the stripping side of the dialysing module the glucuronide can be separated by solid phase extraction (Lichroprep RP-18) while a continuous substitution of cofactor into this compartment is possible. UDPGA follows its own concentration gradient and migrates into the enzymatic mixture, where it is utilized. This new technique using hollow fiber modules offers completely new possibilities for long-term high-capacity, highly specific glucuronidation of phenolic compounds. Fields of application are not only the economical production of special glucuronides, but also the specific elimination of phenols from waste fluids or from serum and blood of patients.For the production of glucuronides by this technique the use of highly purified enzymes is not essential. Cheap crude enzyme preparations are quite adequate for an optimal reaction. Using a crude enzyme preparation with a specific batch activity of 13 nMol/min per mg of protein, the activity in the reactor system was observed to be 4.6 nMol/min of 2-naphtol glucuronide formed per mg of protein. This corresponds to 3.6 nMol/h of product formed per mg of protein per cm² of hollow fiber surface.Using a membrane surface of 0.5 m² the production of 18 mMol of glucuronide per h and mg protein can be achieved.