Anti-Mü llerian hormone, a member of the transforming growth factor  superfamily, produces early regression of Mü llerian ducts in the male fetus through binding to a serine/threonine kinase receptor, homologous to type II receptors of the transforming growth factor  (TGF-) family. A splice mutation of this receptor, described in a patient with abnormal retention of Mü llerian derivatives, generates two mutant isoforms, one lacking the second exon and the other bearing an insertion of 12 bases between exons 2 and 3. Using hemagglutinin-tagged recombinant receptors, we have visualized wild type and mutant receptors in COS cells by Western blotting and immunoprecipitation. The 82-kDa, endoglycosidase H-insensitive, mature form of the wild type receptor is reduced to 68 kDa by N-glycosidase F treatment. Mutant receptor isoforms, 73 and 63 kDa for the long and short form, respectively, are sensitive to endoglycosidase H, suggesting that they are retained in the endoplasmic reticulum. Indeed, only the wild type receptor was expressed on the cell surface and bound iodinated anti-Mü llerian hormone. These results provide a biological explanation for the failure of the mutant receptor to induce Mü llerian regression.Anti-Mü llerian hormone (AMH), 1 also called Mü llerian inhibiting substance or factor, a member of the transforming growth factor- (TGF-) superfamily, is produced by immature Sertoli and postnatal granulosa cells and is responsible for early regression of Mü llerian ducts in the male fetus (1). In females, which do not express AMH during fetal development, or in patients affected by mutations of either the AMH (2) or the AMH receptor (3) genes, Mü llerian ducts fail to regress and develop into uterus, Fallopian tubes, and upper vagina.Members of the TGF- family signal through two membranebound serine/threonine kinases (4). Type II receptors bind ligand independently but require the presence of the type I receptor for signaling (reviewed in Refs. 5-7). Several structural features allow discrimination between type II and I receptors. The latter lack a tail at the C terminus of the kinase domain and contain a conserved 29-amino acid region known as the GS domain, immediately upstream of the kinase domain. Type II and type I receptors are 70 -80 and 50 -60 kDa respectively, as estimated from the size of the affinity-labeled receptor complexes. Both are predicted to contain N-linked carbohydrates, although sugar moieties are not required for binding (8,9).The AMH receptor gene, AMHR-II, cloned in rat (10), rabbit (11), and human (3) contains 11 exons. Exons 1-3 code for the extracellular domain and exon 4 for the transmembrane domain. The cloned AMH receptor resembles type II receptors by its structure, the predicted size of the protein, and its capacity to bind AMH with high affinity. As described previously, a splice mutation of this receptor in a male patient with persistence of Mü llerian derivatives generates two mutant isoforms, a short one lacking the second exon and another bearing an insertion of ...
