Biochemical and genetic evidence for a macromolecular β-glucuronidase complex in microsomal membranes

Abstract In the mouse β-glucuronidase is present in both microsomes and lysosomes and the enzyme at both sites is coded by the same structural gene. Electrophoresis on polyacrylamide gels showed that liver, kidney and lung from normal strains contained five enzyme forms designated L, M1, M2, M3 and M4 in order of decreasing mobility toward the anode. Band L is found primarily in lysosomes and is a tetramer of 260,000 molecular weight. Bands M1 to M4 are found exclusively in microsomes and range in molecular weight from 310,000 to 470,000. The increase in molecular weight is due to sequential addition of an accessory protein chain. When glucuronidase is highly induced in kidneys of female mice by injection of dihydrotestosterone, a sixth electrophoretic form of glucuronidase, designated X, appears. Form X appears early in induction, is localized in microsomes, and has a molecular weight (260,000) equal to that of the tetramer form L. Mice homozygous for the eg ° mutation, and thus deficient in microsomal glucuronidase, completely lack the microsomal forms M1 to M4. They do contain form X, and this increases after testosterone induction in kidney. The form X present in eg ° mice is indistinguishable from the form X seen in normal induced kidney. It appears that mice synthesize two different tetrameric forms of glucuronidase from the same structural gene. One, form L, is lysosomal; the other, form X, gives rise to microsomal enzyme forms M1 to M4 by the successive addition of up to four accessory protein chains. The eg ° mutant is blocked in the conversion of X to M1.