Autosomal recessive segregation of a truncating mutation of anti-Müllerian type II receptor in a family affected by the persistent Müllerian duct syndrome contrasts with its dominant negative activity in vitro.

Anti-Müllerian hormone belongs to the TGFbeta family whose members exert their effects by signaling through two related serine/threonine kinase receptors. Mutations of the anti-Müllerian hormone type II receptor occur naturally, causing the persistent Müllerian duct syndrome. In a family with two members with persistent Müllerian duct syndrome and one normal sibling, we detected two novel mutations of the anti-Müllerian hormone type II receptor gene. One, transmitted by the mother to her three sons, is a deletion of a single base leading to a stop codon, causing receptor truncation after the transmembrane domain. The other, a missense mutation in the substrate-binding site of the kinase domain, is transmitted by the father to the two sons affected by persistent Müllerian duct syndrome, indicating a recessive autosomal transmission as in other cases of persistent Müllerian duct syndrome. Truncating mutations in receptors of the TGFbeta family exert dominant negative activity, which was seen only when each of the mutant anti-Müllerian hormone receptors was overexpressed in an anti-Müllerian hormone-responsive cell line. We conclude that assessment of dominant activity in vitro, which usually involves overexpression of mutant genes, does not necessarily produce information applicable to clinical conditions, in which mutant and endogenous genes are expressed on a one to one basis.

Refined localization of twenty-one genes in subregion p13.1 of human chromosome 1.

In this report, we describe a refinement of the human transcript map of chromosome 1p13.1, a subregion undergoing many aberrations in various types of human cancers. Publicly available genetic linkage, radiation hybrid and physical maps, as well as cytogenetic and sequence data were used to establish the relative order and orientation of ten known intragenic markers. The complete sequence of genomic clones of the region, available at the Sanger Centre, provided the tool for further studies performed by BLAST analysis against all cDNA sequences registered in the Genexpress Index2. This allowed us to assign to subband 1p13.1 nine of the ten known genes, an additional member of the gene family of one of these genes and eleven new transcripts. The remaining known gene and one additional new transcript map at the 1p13.1 and 1p13.2 boundary. The corresponding genes may be responsible for disorders related to this region. The resulting transcript map of 1p13.1 is presented in the printed article with additional data available on a dedicated Web site at the address http://idefix.upr420.vjf.cnrs.fr/CARTO.

Combined hypothalamic-pituitary-gonadal defect in a hypogonadic man with a novel mutation in the DAX-1 gene.

We have studied a 20-yr-old male patient with adrenal hypoplasia congenita and hypogonadotropic hypogonadism (HH) due to a C to A transversion at nucleotide 825 in the DAX-1 gene, resulting in a stop codon at position 197. The same mutation was detected in his affected first cousin (adrenal hypoplasia congenita and HH) and in a heterozygous state in their carrier mothers. The patient had had acute adrenal insufficiency at the age of 2 yr and 6 months, bilateral cryptorchidism corrected surgically at the age of 12 yr, and failure of spontaneous puberty. Plasma testostereone (T) was undetectable (<0.30 nmol/L), gonadotropin levels were low (LH, <0.4 IU/L; FSH, 1.5 IU/L) and not stimulated after i.v. injection of 100 microg GnRH. The endogenous LH secretory pattern was apulsatile, whereas free alpha-subunit (FAS) levels depicted erratic pulses, suggesting an incomplete deficiency of hypothalamic GnRH secretion. During i.v. pulsatile GnRH administration (10 microg/pulse every 90 min for 40 h), each GnRH pulse induced a LH response of low amplitude (0.54 +/- 0.05 UI/L), whereas mean LH (0.45 +/- 0.01 IU/L) and FAS (63 +/- 8 mU/L) levels remained low. Amplitude of LH peaks (0.83 +/- 0.09 IU/L), mean LH (0.53 +/- 0.02 IU/L), and FAS (161 +/- 18 mU/L) levels increased (P < 0.01), whereas the T concentration remained low (0.75 nmol/L) when the pulsatile GnRH regimen was raised to 20 microg/pulse for a 40-h period, suggesting a partial pituitary resistance to GnRH. Thereafter, plasma T levels remained in prepubertal value after three daily im injections of 5000 IU hCG (3.6 nmol/L) and after 1-yr treatment with weekly i.m. injections of 1500 IU hCG (1.2 nmol/L), implying Leydig cell resistance to hCG. The patient had a growth spurt, bone maturation, progression of genital and pubic hair stages, and normalization of plasma T level (15.8 nmol/L) after a 12-month treatment with twice weekly injections of hCG and human menopausal gonadotropin (75 IU International Reference Preparation 2) preparations, suggesting that, in presence of FSH, a Sertoli cell-secreted factor stimulated Leydig cell production of T. In conclusion, we report a novel mutation in the DAX-1 gene in patients with AHC and HH. Our results suggest that the hypogonadism is due to a combined hypothalamic-pituitary-gonadal defect and imply that the DAX-1 gene may play a critical role in human testicular function.

Mutant isoforms of the anti-Müllerian hormone type II receptor are not expressed at the cell membrane.

Anti-Müllerian hormone, a member of the transforming growth factor beta superfamily, produces early regression of Müllerian ducts in the male fetus through binding to a serine/threonine kinase receptor, homologous to type II receptors of the transforming growth factor beta (TGF-beta) family. A splice mutation of this receptor, described in a patient with abnormal retention of Müllerian 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-Müllerian hormone. These results provide a biological explanation for the failure of the mutant receptor to induce Müllerian regression.

A 27 base-pair deletion of the anti-müllerian type II receptor gene is the most common cause of the persistent müllerian duct syndrome.

The persistent müllerian duct syndrome, characterized by the lack of regression of müllerian derivatives, uterus and tubes in otherwise normally masculinized males, is a genetically transmitted disorder implicating either anti-müllerian hormone (AMH), a member of the transforming growth factor-beta superfamily, or its type II receptor, a serine/threonine kinase homologous to the receptors of other members of the transforming growth factor-beta superfamily. We have now performed molecular studies in a total of 38 families. The basis of the condition, namely 16 AMH and 16 AMH receptor mutations, was identified in 32 families. The type of genetic defect could be predicted from the level of serum AMH which is very low or undetectable in patients with AMH mutations and at the upper limit of normal in receptor mutations. Whereas AMH mutations are extremely diverse, patients from 10 out of 16 families with receptor mutations had a 27 bp deletion in exon 10 on at least one allele. This deletion is thus implicated in approximately 25% of patients with persistent müllerian duct syndrome. All AMH and AMH receptor mutations were consistent with an autosomal recessive mode of transmission.

[Molecular biology of the persistent Müllerian duct syndrome]. / Biologie moléculaire du syndrome de persistance des canaux de Müller.

The persistent Müllerian duct syndrome, characterized by the presence of uterus and tubes in otherwise normally masculinized 46,XY males, is a familial autosomal recessive disorder due to defects of synthesis or action of anti-Müllerian hormone. We have performed molecular studies in a total of 38 families and we have identified the basis of the condition, namely 16 anti-Müllerian hormone and 16 anti-Müllerian hormone receptor mutations, in 32 families.

Insensitivity to anti-müllerian hormone due to a mutation in the human anti-müllerian hormone receptor.

Anti-Müllerian hormone (AMH) and its receptor are involved in the regression of Müllerian ducts in male fetuses. We have now cloned and mapped the human AMH receptor gene and provide genetic proof that it is required for AMH signalling, by identifying a mutation in the AMH receptor in a patient with persistent Müllerian duct syndrome. The mutation destroys the invariant dinucleotide at the 5' end of the second intron, generating two abnormal mRNAs, one missing the second exon, required for ligand binding, and the other incorporating the first 12 bases of the second intron. The similar phenotypes observed in AMH-deficient and AMH receptor-deficient individuals indicate that the AMH signalling machinery is remarkably simple, consisting of one ligand and one type II receptor.

Testicular degeneration in three patients with the persistent müllerian duct syndrome.

UNLABELLED: The persistent müllerian duct syndrome, characterized by the presence of uterus and tubes in males, is a familial disorder due to defects of synthesis or action of anti-müllerian hormone, a Sertoli cell glycoprotein responsible for the regression of müllerian derivatives in normal male fetuses. Patients are normally virilized and testicular production of testosterone is normal. Both testes may be cryptorchid; alternatively, one may be descended into the inguinal canal or scrotum, together with the müllerian derivatives, a condition known as "hernia uteri inguinalis". We have recently observed three patients affected by the persistent müllerian duct syndrome who experienced progressive degeneration of testicular tissue. In two, functional testicular tissue was still present some months after birth, but deteriorated progressively later. In one patient, testicular tissue was already absent at birth, but the normal virilization of external genitalia indicated that testicular degeneration must have occurred late during fetal life, after the expected time of regression of male müllerian ducts. CONCLUSION: The high incidence of degeneration of testicular tissue in the persistent müllerian duct syndrome could be indirectly linked to anatomical abnormalities which could favour testicular torsion, known to induce testicular regression.

[Persistent müllerian duct syndrome (males with uterus): a pediatric problem]. / Le syndrome de persistance des dérivés müllériens (hommes à utérus): un problème pédiatrique.

BACKGROUND: The persistent müllerian duct syndrome (PMDS) is characterized by the persistence of the uterus and Fallopian tubes in otherwise normally virilized boys. Its diagnosis is usually made during a surgical procedure for inguinal hernia or cryptorchidism. We report six recent cases of PMDS, in which we have studied anti-Müllerian hormone (AMH) serum levels. CASE REPORTS AND METHODS: Six boys including three brothers were operated on for cryptorchidism or inguinal hernia. Surgical exploration showed persistence of the uterus and Fallopian tubes in patients having normal 46, XY karyotype and male gonads. The AMH serum levels were measured by Elisa and the AMH gene by single strand conformation polymorphism of PCR products. RESULTS: The three brothers showed a mutation in the AMH gene which leads to the replacement of leucine by proline at position 70 and to a defect in AMH production. In two other patients, serum AMH values were normal, no mutation on the AMH gene was found, and end-organ insensitivity was suggested to explain the persistence of müllerian derivatives. In the last patient, although AMH serum levels were very low due to a progressive degeneration of testicular tissue, molecular analysis of the AMH gene suggested that end-organ resistance might be the cause of the persistence of müllerian ducts. CONCLUSION: PMDS is not extremely rare. Many diagnostic mistakes are made which could be prevented by performing pelvic or inguinal ultrasonography before surgical treatment of bilateral cryptorchidism or irreducible inguinal hernia. Prognosis depends upon the integrity of the testicular tissue, sometimes compromised for yet unexplained reasons, and upon the successful correction of cryptorchidism, which is complicated by the close anatomical relationship between the vasa deferentia and the Müllerian derivatives.

Surgical and genetic aspects of persistent müllerian duct syndrome.

Persistent müllerian duct syndrome (PMDS) is characterized by the presence of a uterus, cervix, and fallopian tubes in an otherwise normally differentiated 46.XY male. During embryogenesis, regression of müllerian structures in normal males is mediated by antimüllerian hormone (AMH), also called müllerian inhibiting substance (MIS), produced by fetal Sertoli's cells. PMDS has been attributed to deficient AMH activity or to abnormalities in the AMH receptor. The authors report on two patients with PMDS in whom the abnormalities were discovered during surgery for inguinal hernia and cryptorchidism. During the initial operations in each case, testicular biopsies were obtained, and the gonads and müllerian elements were replaced in the pelvis. A second operative procedure, performed several months later, included proximal salpingectomies with dissection of the vasa deferentia on pedicles of myometrium. This permitted excision of the vestigial uterine corpus, leaving a tiny remnant of cervix with the vasa deferentia. The testes were further mobilized so that bilateral orchidopexies could be completed. In the first case, a molecular abnormality was present at position 377 of the first exon of the AMH gene. Thymine replaced cytosine, which altered a CGG arginine codon to a TGG tryptophan codon, rendering the AMH molecule unstable. The molecular abnormality in the first case differs from the first abnormality in AMH reported by Knebelmann et al, thus indicating heterogeneity in this condition. The molecular basis for deficient AMH activity in the second patient has not yet been defined. No molecular abnormalities were found in the exons of this patient's AMH gene.

Molecular genetics of the persistent müllerian duct syndrome: a study of 19 families.

A rare form of familial male pseudohermaphroditism, the persistent Müllerian duct syndrome (PMDS) is characterized by persistence of uterus and Fallopian tubes in 46,XY phenotypic males and is ascribed to defects in the synthesis or action of anti-Müllerian hormone (AMH). Biologically, PMDS is heterogeneous: in some cases, bioactive AMH is normally expressed by testicular tissue while, in others, no AMH is produced, suggesting the possibility of an AMH gene mutation, several of which have already been described. Molecular analysis of the AMH gene has now been performed in 21 additional patients and their families. In 6 patients, with normal serum concentration of AMH, the AMH gene was normal or contained only polymorphisms and silent mutations, supporting the hypothesis that the condition is due to end-organ resistance. Nine novel mutations were discovered in the remaining subjects, with low or undetectable levels of serum AMH. These mutations, when present in homozygotes or compound heterozygotes, were associated with the PMDS phenotype, the same mutation never being observed in two different families. The three first exons of the AMH gene appear particularly mutation-prone, although they are less GC rich than the 2 last ones and code for the N-terminal part of the AMH protein, which is not in itself essential to bioactivity.

The persistent müllerian duct syndrome: a rare cause of cryptorchidism.

The persistent Müllerian duct syndrome is characterized by the retention of Müllerian derivatives in patients otherwise normally virilized. Clinically, the persistence of uterus and tubes leads either to cryptorchidism or inguinal hernia, depending on whether or not the Müllerian derivatives can be mobilized during testicular descent. The condition is usually discovered at surgery, however preoperative sonography could allow the diagnosis to be made preoperatively. The molecular basis of the persistent Müllerian duct syndrome is heterogeneous, and is reflected by wide variations in the serum concentration of anti-Müllerian hormone. Some cases are apparently due to end-organ resistance, and are associated with normal serum levels of the hormone. Others, characterized by absent or low hormone concentrations, can be explained by mutations of the gene coding for anti-Müllerian hormone, which are distributed along the whole length of the coding region.

Variants of the anti-Müllerian hormone gene in a compound heterozygote with the persistent Müllerian duct syndrome and his family.

The persistent Müllerian duct syndrome (PMDS) is a rare form of male pseudohermaphroditism, characterized by the persistence of Müllerian derivatives in otherwise normal males. Two mutations, present in the homozygous state, have been previously described in such patients. The present observation is the first example of compound heterozygosity in this condition. DNA was obtained from a 3-month-old patient with PMDS, in whom no serum anti-Müllerian hormone (AMH) could be detected by enzyme-linked immunosorbent assay. Sequencing of cloned polymerase chain reaction amplified fragments of the AMH gene revealed a 14-bp deletion in the second exon of the maternal allele; this deletion disrupted the open reading frame. It occurred at a site containing two 8-bp direct repeats flanking a 6-bp sequence and removed one whole repeat plus all of the intervening sequence. It may be the result of a slipped mispairing at the DNA replication fork. The paternal allele contains a stop mutation in the third exon. These two mutations, impairing both AMH alleles, are consistent with the occurrence of PMDS, and are shared with a phenotypically normal younger sister. In this family, various other mutations, devoid of physiological significance, suggest that the AMH gene is highly polymorphic.

[Molecular biology of normal and pathologic anti-müllerian hormone]. / Biologie moléculaire de l'hormone anti-müllérienne normale et pathologique.

Anti-Müllerian hormone, responsible for Müllerian regression in male fetuses, is a glycoprotein dimer with two 72 kD subunits. The AMH gene is a small (2,800 bp) gene with 5 exons, localized on the tip of the short arm of chromosome 19, band p 133, and transcribed in a 2,000 kbp mRNA. Persistent Müllerian duct syndrome, a rare form of male pseudohermaphroditism characterized by the presence of uterus and Fallopian tubes in patients with normally virilized genitalia, may result from defective AMH gene or from target-organ insensitivity. Four mutations were identified in the AMH gene, 3 are point mutations (2 stop codons, the third altering the secondary structure of the molecule), the last is a 14 bp deletion, leading to alteration of the reading frame of the mRNA.