Extraction of Mullerian inhibiting substance from newborn calf testis

Abstract

Using a dissociative solvent and a protease inhibitor, Mullerian inhibiting substance, a testicular substance responsible for regression of the Mullerian ducts in the mammalian male embryo, has been extracted from newborn calf testis. Data are presented which demonstrate that fractions with biological activity for Mullerian inhibiting substance can be extracted from whole tissue and that activity can be blocked by antisera raised to extracted testes components. Following extraction in guanidine hydrochloride the extract was fractionated by density gradient sedimentation, gel filtration chromatography, and ion-exchange chromatography. Fractions were subjected to amino acid and carbohydrate analyses and peptide constituents were determined by SDS gel electrophoresis. Fractions were dialyzed, concentrated, filtered, and added to an organ culture assay to detect Mullerian inhibiting substance activity, which was found (1) in the guanidine extract, (2) in a protein fraction of the cesium chloride gradient, (3) in constituents eluted with K av values between 0.19 and 0.38 on gel filtration chromatography using a Bio-Gel A-0.5 M column, and (4) in constituents eluted between 0.15 and 0.20 M NaCl on ion-exchange chromatography using a DEAE Bio-Gel A-50 ion exchanger. Sequentially this scheme effected a 30-fold purification of a fraction with Mullerian inhibiting substance activity. Biological activity was lost when positive extracts were absorbed with antiserum raised to guanidine extract. The strong dissociative conditions employed in the gradient and extraction procedures make it likely that the distribution of activity obtained in the density gradient procedure was due to a macromolecule, and not to an interaction between an active low molecular weight component and an inactive macromolecule acting as a carrier. Further fractionation on the Bio-Gel column using a dissociative solvent also indicated that the active component was a macromolecule. Amino acid and carbohydrate analyses indicate that the active fractions are composed of proteins and glycoproteins.