Genetic control of glucuronidase induction in mice

The β-glucuronidase activity of mouse kidney proximal tubule cells increases rapidly after administration of dihydrotestosterone. Several inbred mouse strains show an approximately fourfold greater response in enzyme activity than the majority of strains, although both groups have similar uninduced kidney glucuronidase activity. This difference is maintained throughout a three-week induction period. It is not accounted for by a difference in any of the physiological parameters (e.g. hypertrophy, inducer specificity, enzyme secretion) associated with enzyme induction. The difference is specific to glucuronidase; assays of other androgen-indueible enzymes showed no difference between the two groups. Induction does not involve a change in enzyme structure since basal and induced glucuronidase have identical thermal stability and immunochemical reactivity.Rates of enzyme synthesis were determined by assaying the incorporation of radiolabeled leucine into antibody-purified glucuronidase. The rate of enzyme synthesis increases after induction, and the more rapidly inducing strains have a correspondingly greater increase in the rate of enzyme synthesis.The inducibility difference between the two classes of inbred strains segregates as a single Mendelian trait in both backcross and F₂ progeny. Recombination studies with a coat color mutation closely linked to the enzyme structural gene and with a mutant of the enzyme structural gene altered in electrophoretic mobility showed that the inducibility gene, called Gur, maps in the region of the glucuronidase structural gene. Tests in heterozygotes showed that the Gur locus acts cis, affecting only the rate of synthesis of glucuronidase coded by the structural gene residing on the same chromosome.