Entry - #236700 - MCKUSICK-KAUFMAN SYNDROME; MKKS - OMIM

 
ICD+
# 236700

MCKUSICK-KAUFMAN SYNDROME; MKKS


Alternative titles; symbols

HYDROMETROCOLPOS SYNDROME
HYDROMETROCOLPOS, POSTAXIAL POLYDACTYLY, AND CONGENITAL HEART MALFORMATION; HMCS
KAUFMAN-MCKUSICK SYNDROME


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
20p12.2 McKusick-Kaufman syndrome 236700 AR 3 MKKS 604896
Clinical Synopsis
 

INHERITANCE
- Autosomal recessive
CARDIOVASCULAR
Heart
- Congenital heart disease
RESPIRATORY
Lung
- Hypoplastic lungs
ABDOMEN
Gastrointestinal
- Hirschsprung disease (12%)
- Imperforate anus (8%)
- Rectovaginal fistula
GENITOURINARY
Internal Genitalia (Male)
- Cryptorchidism
Internal Genitalia (Female)
- Hydrometrocolpos
- Transverse vaginal membrane
- Vaginal atresia
- Vaginal stenosis
- Rectovaginal fistula
- Vesicovaginal fistula
Kidneys
- Hydronephrosis (secondary to ureteral compression from hydrometrocolpos)
- Polycystic kidney
Ureters
- Hydroureter
Bladder
- Vesicovaginal fistula
SKELETAL
Pelvis
- Congenital dislocation of the hip
Hands
- Mesoaxial polydactyly
- Postaxial polydactyly
- Syndactyly
MUSCLE, SOFT TISSUES
- Leg edema
MISCELLANEOUS
- Because of overlap with Bardet-Biedl syndrome (209900), patients should be followed by ophthalmology for development of cone-rod dystrophy until at least 10 years of age
- Found predominantly in the Amish population
- Allelic to Bardet-Biedl syndrome 6 (209900)
MOLECULAR BASIS
- Caused by mutation in the MKKS gene (MKKS, 604896.0001)
▲ Close

TEXT

A number sign (#) is used with this entry because of evidence that the McKusick-Kaufman syndrome (MKKS) is caused by homozygous or compound heterozygous mutation in the MKKS gene (604896) on chromosome 20p12.

Mutation in the MKKS gene also causes Bardet-Biedl syndrome-6 (BBS6; 605231).

Description

McKusick-Kaufman syndrome (MKKS) is an autosomal recessive disorder characterized by genitourinary malformations, especially hydrometrocolpos, polydactyly, and, more rarely, heart or gastrointestinal malformations (summary by Schaefer et al., 2011).


Clinical Features

Hydrometrocolpos develops in the female fetus as a result of transverse vaginal membrane and excessive cervical secretions in response to maternal hormone. McKusick et al. (1964) presented evidence that at least one form is inherited as an autosomal recessive. Birth of another affected female in a third sibship closely related to 1 of the 2 reported in 1964 further strengthened the conclusion (McKusick et al., 1968). The observation of 3 more affected sibships among the Amish and further studies of the earlier 3 sibships corroborated the validity of this syndrome (McKusick, 1978).

Kaufman et al. (1972) suggested that postaxial polydactyly and/or congenital heart disease may sometimes accompany hydrometrocolpos. In the kindred of McKusick et al. (1964), one of the girls with hydrometrocolpos had postaxial polydactyly and another girl in the same sibship had polydactyly and congenital heart disease without hydrometrocolpos. Others have reported hydrometrocolpos and polydactyly in isolated cases (e.g., Pare and Elhilali, 1972).

Dungy et al. (1971) found hydrometrocolpos secondary to vaginal atresia and bilateral postaxial hexadactyly in an offspring of first-cousin parents. A comparable disorder, imperforate vagina, is autosomal recessive in the mouse (Gowen and Heidenthal, 1942; Chase, 1944). If the membrane which closes the vagina is removed surgically, the mouse is fully viable and fertile. If untreated, the malformation leads to death about the time of puberty.

Goecke et al. (1981) made the important observation that glanular hypospadias and prominent scrotal raphe are manifestations in the male. Postaxial polydactyly is an expression of the syndrome in males. The polydactyly may be limited to one limb.

Vince and Martin (1989) described 3 affected sibs (2 females and 1 male) in a presumably nonconsanguineous Melanesian family. All 3 had anomalies of the urogenital and cardiovascular systems as well as polydactyly. The brother showed micropenis, glanular hypospadias, and bilaterally undescended testes.

In Beirut, Suidan and Azoury (1979) observed 12 cases of transverse vaginal septum. They suggested that a high frequency might be related to a high frequency of consanguinity in the population they served. All their patients presented in adulthood; the 2 youngest were 16. Only 1 had a complete vaginal septum. McKusick (1980) noted that incomplete vaginal septum as a forme fruste had not been observed in the Amish families.

Knowles et al. (1981) observed choanal atresia, pituitary dysplasia, and vertebral anomalies in a patient with this syndrome.

Rosen and Bocian (1989) presented evidence that in this disorder nonimmune hydrops fetalis can be a cause of the edema that is mistakenly attributed to inferior vena cava compression and lymphatic obstruction by a large pelvic mass.

Davenport et al. (1989) described a male infant with polydactyly, consisting of partial duplication of the third metacarpal and a postaxial accessory digit on both hands and postaxial accessory digits on the feet, as well as penoscrotal hypospadias with chordee. There was no evidence of congenital heart disease. Hirschsprung disease (142623) was established by rectal biopsy. A previous pregnancy had resulted in the intrauterine death of a female fetus with typical features of the Kaufman-McKusick syndrome.

Schaap et al. (1992) described a patient. Pul et al. (1994) described a female infant, the offspring of a first-cousin marriage, who, in addition to the other features of the Kaufman-McKusick syndrome, had esophageal atresia and distal tracheoesophageal fistula.

Slavotinek et al. (2004) reported a 19-year-old, non-Amish Caucasian female patient with a triad of anomalies: primary amenorrhea caused by complete lack of mullerian fusion with vaginal agenesis or mullerian aplasia, postaxial polydactyly, and tetralogy of Fallot. The genital tract anomaly of mullerian aplasia with or without renal or skeletal anomalies comprises Mayer-Rokitansky-Kuster-Hauser syndrome (277000), which had never been reported with tetralogy of Fallot. The phenotypic triad of anomalies was thought to resemble most closely McKusick-Kaufman syndrome. The dual midline fusion defects of tetralogy of Fallot and mullerian aplasia suggested that either this patient had a unique syndrome with a distinct genetic etiology or that she had a genetically heterogeneous or variant form of McKusick-Kaufman syndrome. No mutation was found in the MKKS/BBS6 gene on 20p12, nor in other genes associated with Bardet-Biedl syndrome, BBS1 (209901), BBS2 (606151), BBS4 (600374), and BBS7 (607590). Fluorescence in situ hybridization excluded large deletions of 20p12, and microsatellite marker studies confirmed biparental inheritance for all known BBS loci.


Mapping

Studying Amish individuals with what they called the hydrometrocolpos syndrome (HMCS) originally reported by McKusick et al. (1964), Stone et al. (1997, 1998) used homozygosity mapping to locate the gene for this disorder to 20p12, bounded by markers D20S894 and D20S175. The linkage data showed that 3 individuals (2 females and 1 male) were homozygous for the disease-carrying haplotype but had no apparent manifestations of the disorder. One was the mother of an affected sibship and the other 2 were sibs of affected persons. It is possible that the homozygous, apparently unaffected, sibs had a minor cardiac defect or, in the case of the female, an undiagnosed uterine anomaly. The mapping region included the jagged-1 gene (JAG1; 601920), which is mutant in Alagille syndrome-1 (118450). Stone et al. (1998) sequenced the JAG1 gene in 2 unrelated individuals with McKusick-Kaufman syndrome and found no disease-causing mutations. Stone et al. (1998) stated that the peak 2-point lod score was 3.33, and the peak 3-point lod score was 5.21.


Diagnosis

Differential Diagnosis

David et al. (1999) reported 9 patients who, because of the presence of vaginal atresia and postaxial polydactyly, were diagnosed in infancy with McKusick-Kaufman syndrome; these patients later developed obesity and retinal dystrophy and were diagnosed with Bardet-Biedl syndrome. David et al. (1999) suggested that the phenotypic overlap between McKusick-Kaufman syndrome and Bardet-Biedl syndrome is a diagnostic pitfall, and that all children in whom a diagnosis of McKusick-Kaufman syndrome is made in infancy should be reevaluated for retinitis pigmentosa and other signs of Bardet-Biedl in later childhood.

Hydrometrocolpos and postaxial polydactyly are common to both McKusick-Kaufman syndrome and Bardet-Biedl syndrome. Slavotinek and Biesecker (2000) reviewed reported cases of both syndromes presenting with hydrometrocolpos and postaxial polydactyly early in life, to determine if there are clinical features that allow discrimination between the 2 syndromes, as the primary features of retinitis pigmentosa, obesity, and learning disability in Bardet-Biedl syndrome are age-dependent. They did not find any phenotypic features that allowed reliable differentiation between the 2 syndromes in the neonatal period. However, uterine, ovarian, and fallopian tube anomalies were more common in BBS patients. Slavotinek and Biesecker (2000) concluded that sporadic cases of hydrometrocolpos and postaxial polydactyly in female patients cannot be diagnosed with MKKS until at least age 5 years and that monitoring for the complications of BBS should be performed in these patients.

Schaefer et al. (2011) suggested that MKKS may be an extremely rare presentation of BBS (absence of retinal degeneration, obesity, and cognitive impairment) linked to rare specific allelic variants of the MKKS gene (possibly hypomorphic alleles) or a condition implying one or more other genes (as modifiers or major genes).

Unsinn et al. (1995) described a patient who had hydrocolpos and postaxial polydactyly as well as hypothalamic hamartoblastoma, raising the possibility that the Pallister-Hall syndrome (PHS; 146510) and the McKusick-Kaufman syndrome are one entity. The Pallister-Hall syndrome is characterized by specific facial anomalies, postaxial polydactyly, imperforate anus, and brain anomalies, including a diencephalic hamartoblastoma. McKusick (1995) stated that in his judgment these were not the same entity. Lurie (1995) also questioned that the Kaufman-McKusick syndrome and the Pallister-Hall syndrome can be considered one entity. Lurie and Wulfsberg (1994) found in a survey of 43 reported familial cases neither preaxial nor central forms of polydactyly. Lurie (1995) stated that he also did not remember vaginourethral fistula as occurring in these patients.

Prenatal Diagnosis

Farrell et al. (1986) described prenatal diagnosis of MKKS by ultrasonography and recurrence of abdominal distention due to peritoneal cysts. They suggested that retrograde flow of secretions from the uterus may be a factor in the abdominal distention of hydrometrocolpos.


Inheritance

The transmission pattern of MKKS in the patients reported by Stone et al. (2000) was consistent with autosomal recessive inheritance.


Molecular Genetics

Stone et al. (2000) analyzed the approximately 450-kb candidate region on chromosome 20p12 by sample sequencing, which revealed the presence of several known genes and EST clusters. Candidate transcripts were evaluated by Northern blot analysis of adult and fetal tissues. One transcript with widespread expression was selected for analysis in a patient from the Amish pedigree and a sporadic non-Amish case. The Old Order Amish patient was found to be homozygous for 2 missense substitutions in cis (604896.0001) and the non-Amish patient was a compound heterozygote for a frameshift mutation predicting premature protein truncation (604896.0004) and a distinct missense mutation (604896.0003). The MKKS predicted protein showed amino acid similarity to the chaperonin family of proteins, suggesting a role for protein processing in limb, cardiac, and reproductive system development.


Animal Model

Fath et al. (2005) developed an Mkks -/- mouse model in which affected animals demonstrated retinal degeneration, failure of spermatozoa flagella formation, elevated blood pressure, olfactory deficits, and social dominance, but no polydactyly nor vaginal abnormalities. The phenotype of the Mkks -/- mice closely resembled the phenotype of other mouse models of Bardet-Biedl syndrome (Bbs2 -/- and Bbs4 -/-). Fath et al. (2005) suggested that the complete absence of the MKKS gene leads to BBS while the MKKS phenotype is likely to be due to specific mutations.


REFERENCES

  1. Chase, E. B. Inheritance of imperforate vagina of the mouse. J. Hered. 35: 363-364, 1944.

  2. Davenport, M., Taitz, L. S., Dickson, J. A. S. The Kaufman-McKusick syndrome: another association. J. Pediat. Surg. 24: 1192-1194, 1989. [PubMed: 2681663, related citations] [Full Text]

  3. David, A., Bitoun, P., Lacombe, D., Lambert, J.-C., Nivelon, A., Vigneron, J., Verloes, A. Hydrometrocolpos and polydactyly: a common neonatal presentation of Bardet-Biedl and McKusick-Kaufman syndromes. J. Med. Genet. 36: 599-603, 1999. [PubMed: 10465109, related citations]

  4. Dungy, C. I., Aptekar, R. G., Cann, H. M. Hereditary hydrometrocolpos with polydactyly in infancy. Pediatrics 47: 138-141, 1971. [PubMed: 5545396, related citations]

  5. Farrell, S. A., Davidson, R. G., DeMaria, J. E., Grant, L., Toi, A. Abdominal distension in Kaufman-McKusick syndrome. Am. J. Med. Genet. 25: 205-210, 1986. [PubMed: 3535500, related citations] [Full Text]

  6. Fath, M. A., Mullins, R. F., Searby, C., Nishimura, D. Y., Wei, J., Rahmouni, K., Davis, R. E., Tayeh, M. K., Andrews, M., Yang, B., Sigmund, C. D., Stone, E. M., Sheffield, V. C. Mkks-null mice have a phenotype resembling Bardet-Biedl syndrome. Hum. Molec. Genet. 14: 1109-1118, 2005. [PubMed: 15772095, related citations] [Full Text]

  7. Goecke, T., Dopfer, R., Huenges, R., Conzelmann, W., Feller, A., Majewski, F. Hydrometrocolpos, postaxial polydactyly, congenital heart disease, and anomalies of the gastrointestinal and genitourinary tracts: a rare autosomal recessive syndrome. Europ. J. Pediat. 136: 297-305, 1981. [PubMed: 7262101, related citations] [Full Text]

  8. Gowen, J. W., Heidenthal, G. Imperforate vagina in the mouse, its inheritance and relation to endocrine function. J. Exp. Zool. 89: 433-450, 1942.

  9. Hall, J. G. Kaufman syndrome. (Editorial) Am. J. Med. Genet. 8: 395-396, 1981. [PubMed: 7246611, related citations] [Full Text]

  10. Haspeslagh, M., Fryns, J. P., Van den Berghe, K., Goddeeris, P., Lauweryns, J., Van den Berghe, H. Hydrometrocolpos--polydactyly syndrome in a macerated female foetus. Europ. J. Pediat. 136: 307-309, 1981. [PubMed: 7262102, related citations] [Full Text]

  11. Jabs, E. W., Leonard, C. O., Phillips, J. A. New features of the McKusick-Kaufman syndrome. Birth Defects Orig. Art. Ser. XVIII(3B): 161-166, 1982. [PubMed: 7139096, related citations]

  12. Kaufman, R. L., Hartmann, A. F., McAlister, W. H. Family studies in congenital heart disease, II: A syndrome of hydrometrocolpos, postaxial polydactyly and congenital heart disease. Birth Defects Orig. Art. Ser. VIII(5): 85-87, 1972.

  13. Knowles, J. C., Brandt, I. K., Bull, M. J. Kaufman syndrome (hydrometrocolpos, polydactyly, and congenital heart disease) with pituitary dysplasia, choanal atresia, and vertebral anomalies. Am. J. Med. Genet. 8: 389-393, 1981. [PubMed: 7246610, related citations] [Full Text]

  14. Lurie, I. W., Wulfsberg, E. A. The McKusick-Kaufmann syndrome: phenotypic variation observed in familial cases as a clue for the evaluation of sporadic cases. Genet. Counsel. 5: 275-281, 1994. [PubMed: 7811428, related citations]

  15. Lurie, I. W. Pallister-Hall and McKusick-Kaufman syndromes. (Letter) J. Med. Genet. 32: 668-672, 1995. [PubMed: 7473667, related citations] [Full Text]

  16. MacLachlan, A. K., Houston, C. S., Chudley, A. E. Hydrometrocolpos in Kaufman syndrome. J. Canad. Assoc. Radiol. 31: 193-195, 1980. [PubMed: 7419550, related citations]

  17. McKusick, V. A., Bauer, R. L., Koop, C. E., Scott, R. B. Hydrometrocolpos as a simply inherited malformation. JAMA 189: 813-816, 1964. [PubMed: 14172277, related citations] [Full Text]

  18. McKusick, V. A., Weilbaecher, R. G., Gragg, G. W. Recessive inheritance of a congenital malformation syndrome. JAMA 204: 113-118, 1968. [PubMed: 5694533, related citations]

  19. McKusick, V. A. Medical Genetic Studies of the Amish: Selected Papers. Baltimore: Johns Hopkins Univ. Press (pub.) 1978. Pp. 318-323.

  20. McKusick, V. A. Personal Communication. Baltimore, Md. 1980.

  21. McKusick, V. A. Personal Communication. Baltimore, Md. 1995.

  22. Pare, C., Elhilali, M. Hydrometrocolpos, polydactylie, hemihypertrophie. Un. Med. Canada 101: 1311-1315, 1972. [PubMed: 5042188, related citations]

  23. Pinsky, L. Origin of the 'associated' anomalies in Kaufman-McKusick syndrome. (Letter) Am. J. Med. Genet. 14: 791-792, 1983. [PubMed: 6846407, related citations] [Full Text]

  24. Pul, N., Pul, M., Gedik, Y. McKusick-Kaufman syndrome associated with esophageal atresia and distal tracheoesophageal fistula: a case report and review of the literature. Am. J. Med. Genet. 49: 341-343, 1994. [PubMed: 8209897, related citations] [Full Text]

  25. Robinow, M., Shaw, A. The McKusick-Kaufman syndrome: recessively inherited vaginal atresia, hydrometrocolpos, uterovaginal duplications, anorectal anomalies, postaxial polydactyly, and congenital heart disease. J. Pediat. 94: 776-778, 1979. [PubMed: 448491, related citations] [Full Text]

  26. Rosen, R. S., Bocian, M. E. Non-immune hydrops fetalis in the McKusick-Kaufman syndrome. (Abstract) Am. J. Hum. Genet. 45 (suppl.): A61 only, 1989.

  27. Schaap, C., de Die-Smulders, C. E. M., Kuijten, R. H., Fryns, J. P. McKusick-Kaufman syndrome: the diagnostic challenge of abdominal distension in the neonatal period. Europ. J. Pediat. 151: 583-585, 1992. [PubMed: 1505577, related citations] [Full Text]

  28. Schaefer, E., Durand, M., Stoetzel, C., Doray, B., Viville, B., Helle, S., Danse, J.-M., Hamel, C., Bitoun, P., Goldenberg, A., Finck, S., Faivre, L., and 9 others. Molecular diagnosis reveals genetic heterogeneity for the overlapping MKKS and BBS phenotypes. Europ. J. Med. Genet. 54: 157-160, 2011. [PubMed: 21044901, related citations] [Full Text]

  29. Slavotinek, A. M., Biesecker, L. G. Phenotypic overlap of McKusick-Kaufman syndrome with Bardet-Biedl syndrome: a literature review. Am. J. Med. Genet. 95: 208-215, 2000. [PubMed: 11102925, related citations]

  30. Slavotinek, A. M., Dutra, A., Kpodzo, D., Pak, E., Nakane, T., Turner, J., Whiteford, M., Biesecker, L. G., Stratton, P. A female with complete lack of mullerian fusion, postaxial polydactyly, and tetralogy of Fallot: genetic heterogeneity of McKusick-Kaufman syndrome or a unique syndrome? Am. J. Med. Genet. 129A: 69-72, 2004. [PubMed: 15266619, related citations] [Full Text]

  31. Stone, D. L., Agarwala, R., Schaffer, A. A., Weber, J. L., Vaske, D., Oda, T., Chandrasekharappa, S. C., Francomano, C. A., Biesecker, L. G. Genetic and physical mapping of the McKusick-Kaufman syndrome. Hum. Molec. Genet. 7: 475-481, 1998. [PubMed: 9467007, related citations] [Full Text]

  32. Stone, D. L., Slavotinek, A., Bouffard, G. G., Banerjee-Basu, S., Baxevanis, A. D., Barr, M., Biesecker, L. G. Mutation of a gene encoding a putative chaperonin causes McKusick-Kaufman syndrome. Nature Genet. 25: 79-82, 2000. [PubMed: 10802661, related citations] [Full Text]

  33. Stone, D., Schaffer, A., Agarwala, R., Francomano, C. A., Biesecker, L. G. Genetic and physical mapping of the McKusick-Kaufmann (sic) (hydrometrocolpos-polydactyly) syndrome. (Abstract) Am. J. Hum. Genet. 61 (suppl.): A13 only, 1997.

  34. Suidan, F. G., Azoury, R. S. The transverse vaginal septum: a clinicopathologic evaluation. Obstet. Gynec. 54: 278-283, 1979. [PubMed: 471367, related citations]

  35. Unsinn, K. M., Neu, N., Krejci, A., Posch, A., Menardi, G., Gassner, I. Pallister-Hall syndrome and McKusick-Kaufmann (sic) syndrome: one entity? J. Med. Genet. 32: 125-128, 1995. [PubMed: 7760322, related citations] [Full Text]

  36. Vince, J. D., Martin, N. J. McKusick-Kaufman syndrome: report of an instructive family. Am. J. Med. Genet. 32: 174-177, 1989. [PubMed: 2564737, related citations] [Full Text]


Contributors:
Carol A. Bocchini - updated : 6/24/2014
George E. Tiller - updated : 5/19/2008
Victor A. McKusick - updated : 1/11/2005
Victor A. McKusick - updated : 11/10/2000
Ada Hamosh - updated : 4/28/2000
Michael J. Wright - updated : 10/27/1999
Victor A. McKusick - updated : 4/24/1998
Victor A. McKusick - updated : 10/22/1997
Creation Date:
Victor A. McKusick : 6/3/1986
Edit History:
carol : 08/12/2023
carol : 11/04/2022
alopez : 06/13/2017
carol : 12/11/2014
carol : 6/24/2014
carol : 6/24/2014
carol : 6/24/2014
carol : 6/19/2014
terry : 6/3/2009
alopez : 12/29/2008
wwang : 5/20/2008
terry : 5/19/2008
carol : 8/16/2006
carol : 10/5/2005
alopez : 1/19/2005
wwang : 1/18/2005
wwang : 1/14/2005
wwang : 1/12/2005
terry : 1/11/2005
carol : 11/18/2004
carol : 8/19/2004
cwells : 5/29/2002
terry : 5/10/2002
alopez : 10/5/2001
terry : 6/5/2001
mcapotos : 11/16/2000
mcapotos : 11/15/2000
terry : 11/10/2000
alopez : 4/29/2000
terry : 4/28/2000
alopez : 10/27/1999
alopez : 9/8/1998
carol : 4/24/1998
terry : 4/14/1998
terry : 4/9/1998
terry : 10/28/1997
alopez : 10/28/1997
terry : 10/22/1997
mark : 10/2/1995
terry : 8/1/1995
davew : 6/2/1994
carol : 6/1/1994
pfoster : 3/24/1994
warfield : 3/8/1994

# 236700

MCKUSICK-KAUFMAN SYNDROME; MKKS


Alternative titles; symbols

HYDROMETROCOLPOS SYNDROME
HYDROMETROCOLPOS, POSTAXIAL POLYDACTYLY, AND CONGENITAL HEART MALFORMATION; HMCS
KAUFMAN-MCKUSICK SYNDROME


SNOMEDCT: 702407009;   ORPHA: 2473;   DO: 0111255;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
20p12.2 McKusick-Kaufman syndrome 236700 Autosomal recessive 3 MKKS 604896

TEXT

A number sign (#) is used with this entry because of evidence that the McKusick-Kaufman syndrome (MKKS) is caused by homozygous or compound heterozygous mutation in the MKKS gene (604896) on chromosome 20p12.

Mutation in the MKKS gene also causes Bardet-Biedl syndrome-6 (BBS6; 605231).

Description

McKusick-Kaufman syndrome (MKKS) is an autosomal recessive disorder characterized by genitourinary malformations, especially hydrometrocolpos, polydactyly, and, more rarely, heart or gastrointestinal malformations (summary by Schaefer et al., 2011).


Clinical Features

Hydrometrocolpos develops in the female fetus as a result of transverse vaginal membrane and excessive cervical secretions in response to maternal hormone. McKusick et al. (1964) presented evidence that at least one form is inherited as an autosomal recessive. Birth of another affected female in a third sibship closely related to 1 of the 2 reported in 1964 further strengthened the conclusion (McKusick et al., 1968). The observation of 3 more affected sibships among the Amish and further studies of the earlier 3 sibships corroborated the validity of this syndrome (McKusick, 1978).

Kaufman et al. (1972) suggested that postaxial polydactyly and/or congenital heart disease may sometimes accompany hydrometrocolpos. In the kindred of McKusick et al. (1964), one of the girls with hydrometrocolpos had postaxial polydactyly and another girl in the same sibship had polydactyly and congenital heart disease without hydrometrocolpos. Others have reported hydrometrocolpos and polydactyly in isolated cases (e.g., Pare and Elhilali, 1972).

Dungy et al. (1971) found hydrometrocolpos secondary to vaginal atresia and bilateral postaxial hexadactyly in an offspring of first-cousin parents. A comparable disorder, imperforate vagina, is autosomal recessive in the mouse (Gowen and Heidenthal, 1942; Chase, 1944). If the membrane which closes the vagina is removed surgically, the mouse is fully viable and fertile. If untreated, the malformation leads to death about the time of puberty.

Goecke et al. (1981) made the important observation that glanular hypospadias and prominent scrotal raphe are manifestations in the male. Postaxial polydactyly is an expression of the syndrome in males. The polydactyly may be limited to one limb.

Vince and Martin (1989) described 3 affected sibs (2 females and 1 male) in a presumably nonconsanguineous Melanesian family. All 3 had anomalies of the urogenital and cardiovascular systems as well as polydactyly. The brother showed micropenis, glanular hypospadias, and bilaterally undescended testes.

In Beirut, Suidan and Azoury (1979) observed 12 cases of transverse vaginal septum. They suggested that a high frequency might be related to a high frequency of consanguinity in the population they served. All their patients presented in adulthood; the 2 youngest were 16. Only 1 had a complete vaginal septum. McKusick (1980) noted that incomplete vaginal septum as a forme fruste had not been observed in the Amish families.

Knowles et al. (1981) observed choanal atresia, pituitary dysplasia, and vertebral anomalies in a patient with this syndrome.

Rosen and Bocian (1989) presented evidence that in this disorder nonimmune hydrops fetalis can be a cause of the edema that is mistakenly attributed to inferior vena cava compression and lymphatic obstruction by a large pelvic mass.

Davenport et al. (1989) described a male infant with polydactyly, consisting of partial duplication of the third metacarpal and a postaxial accessory digit on both hands and postaxial accessory digits on the feet, as well as penoscrotal hypospadias with chordee. There was no evidence of congenital heart disease. Hirschsprung disease (142623) was established by rectal biopsy. A previous pregnancy had resulted in the intrauterine death of a female fetus with typical features of the Kaufman-McKusick syndrome.

Schaap et al. (1992) described a patient. Pul et al. (1994) described a female infant, the offspring of a first-cousin marriage, who, in addition to the other features of the Kaufman-McKusick syndrome, had esophageal atresia and distal tracheoesophageal fistula.

Slavotinek et al. (2004) reported a 19-year-old, non-Amish Caucasian female patient with a triad of anomalies: primary amenorrhea caused by complete lack of mullerian fusion with vaginal agenesis or mullerian aplasia, postaxial polydactyly, and tetralogy of Fallot. The genital tract anomaly of mullerian aplasia with or without renal or skeletal anomalies comprises Mayer-Rokitansky-Kuster-Hauser syndrome (277000), which had never been reported with tetralogy of Fallot. The phenotypic triad of anomalies was thought to resemble most closely McKusick-Kaufman syndrome. The dual midline fusion defects of tetralogy of Fallot and mullerian aplasia suggested that either this patient had a unique syndrome with a distinct genetic etiology or that she had a genetically heterogeneous or variant form of McKusick-Kaufman syndrome. No mutation was found in the MKKS/BBS6 gene on 20p12, nor in other genes associated with Bardet-Biedl syndrome, BBS1 (209901), BBS2 (606151), BBS4 (600374), and BBS7 (607590). Fluorescence in situ hybridization excluded large deletions of 20p12, and microsatellite marker studies confirmed biparental inheritance for all known BBS loci.


Mapping

Studying Amish individuals with what they called the hydrometrocolpos syndrome (HMCS) originally reported by McKusick et al. (1964), Stone et al. (1997, 1998) used homozygosity mapping to locate the gene for this disorder to 20p12, bounded by markers D20S894 and D20S175. The linkage data showed that 3 individuals (2 females and 1 male) were homozygous for the disease-carrying haplotype but had no apparent manifestations of the disorder. One was the mother of an affected sibship and the other 2 were sibs of affected persons. It is possible that the homozygous, apparently unaffected, sibs had a minor cardiac defect or, in the case of the female, an undiagnosed uterine anomaly. The mapping region included the jagged-1 gene (JAG1; 601920), which is mutant in Alagille syndrome-1 (118450). Stone et al. (1998) sequenced the JAG1 gene in 2 unrelated individuals with McKusick-Kaufman syndrome and found no disease-causing mutations. Stone et al. (1998) stated that the peak 2-point lod score was 3.33, and the peak 3-point lod score was 5.21.


Diagnosis

Differential Diagnosis

David et al. (1999) reported 9 patients who, because of the presence of vaginal atresia and postaxial polydactyly, were diagnosed in infancy with McKusick-Kaufman syndrome; these patients later developed obesity and retinal dystrophy and were diagnosed with Bardet-Biedl syndrome. David et al. (1999) suggested that the phenotypic overlap between McKusick-Kaufman syndrome and Bardet-Biedl syndrome is a diagnostic pitfall, and that all children in whom a diagnosis of McKusick-Kaufman syndrome is made in infancy should be reevaluated for retinitis pigmentosa and other signs of Bardet-Biedl in later childhood.

Hydrometrocolpos and postaxial polydactyly are common to both McKusick-Kaufman syndrome and Bardet-Biedl syndrome. Slavotinek and Biesecker (2000) reviewed reported cases of both syndromes presenting with hydrometrocolpos and postaxial polydactyly early in life, to determine if there are clinical features that allow discrimination between the 2 syndromes, as the primary features of retinitis pigmentosa, obesity, and learning disability in Bardet-Biedl syndrome are age-dependent. They did not find any phenotypic features that allowed reliable differentiation between the 2 syndromes in the neonatal period. However, uterine, ovarian, and fallopian tube anomalies were more common in BBS patients. Slavotinek and Biesecker (2000) concluded that sporadic cases of hydrometrocolpos and postaxial polydactyly in female patients cannot be diagnosed with MKKS until at least age 5 years and that monitoring for the complications of BBS should be performed in these patients.

Schaefer et al. (2011) suggested that MKKS may be an extremely rare presentation of BBS (absence of retinal degeneration, obesity, and cognitive impairment) linked to rare specific allelic variants of the MKKS gene (possibly hypomorphic alleles) or a condition implying one or more other genes (as modifiers or major genes).

Unsinn et al. (1995) described a patient who had hydrocolpos and postaxial polydactyly as well as hypothalamic hamartoblastoma, raising the possibility that the Pallister-Hall syndrome (PHS; 146510) and the McKusick-Kaufman syndrome are one entity. The Pallister-Hall syndrome is characterized by specific facial anomalies, postaxial polydactyly, imperforate anus, and brain anomalies, including a diencephalic hamartoblastoma. McKusick (1995) stated that in his judgment these were not the same entity. Lurie (1995) also questioned that the Kaufman-McKusick syndrome and the Pallister-Hall syndrome can be considered one entity. Lurie and Wulfsberg (1994) found in a survey of 43 reported familial cases neither preaxial nor central forms of polydactyly. Lurie (1995) stated that he also did not remember vaginourethral fistula as occurring in these patients.

Prenatal Diagnosis

Farrell et al. (1986) described prenatal diagnosis of MKKS by ultrasonography and recurrence of abdominal distention due to peritoneal cysts. They suggested that retrograde flow of secretions from the uterus may be a factor in the abdominal distention of hydrometrocolpos.


Inheritance

The transmission pattern of MKKS in the patients reported by Stone et al. (2000) was consistent with autosomal recessive inheritance.


Molecular Genetics

Stone et al. (2000) analyzed the approximately 450-kb candidate region on chromosome 20p12 by sample sequencing, which revealed the presence of several known genes and EST clusters. Candidate transcripts were evaluated by Northern blot analysis of adult and fetal tissues. One transcript with widespread expression was selected for analysis in a patient from the Amish pedigree and a sporadic non-Amish case. The Old Order Amish patient was found to be homozygous for 2 missense substitutions in cis (604896.0001) and the non-Amish patient was a compound heterozygote for a frameshift mutation predicting premature protein truncation (604896.0004) and a distinct missense mutation (604896.0003). The MKKS predicted protein showed amino acid similarity to the chaperonin family of proteins, suggesting a role for protein processing in limb, cardiac, and reproductive system development.


Animal Model

Fath et al. (2005) developed an Mkks -/- mouse model in which affected animals demonstrated retinal degeneration, failure of spermatozoa flagella formation, elevated blood pressure, olfactory deficits, and social dominance, but no polydactyly nor vaginal abnormalities. The phenotype of the Mkks -/- mice closely resembled the phenotype of other mouse models of Bardet-Biedl syndrome (Bbs2 -/- and Bbs4 -/-). Fath et al. (2005) suggested that the complete absence of the MKKS gene leads to BBS while the MKKS phenotype is likely to be due to specific mutations.


See Also:

Hall (1981); Haspeslagh et al. (1981); Jabs et al. (1982); MacLachlan et al. (1980); Pinsky (1983); Robinow and Shaw (1979)

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Contributors:
Carol A. Bocchini - updated : 6/24/2014
George E. Tiller - updated : 5/19/2008
Victor A. McKusick - updated : 1/11/2005
Victor A. McKusick - updated : 11/10/2000
Ada Hamosh - updated : 4/28/2000
Michael J. Wright - updated : 10/27/1999
Victor A. McKusick - updated : 4/24/1998
Victor A. McKusick - updated : 10/22/1997

Creation Date:
Victor A. McKusick : 6/3/1986

Edit History:
carol : 08/12/2023
carol : 11/04/2022
alopez : 06/13/2017
carol : 12/11/2014
carol : 6/24/2014
carol : 6/24/2014
carol : 6/24/2014
carol : 6/19/2014
terry : 6/3/2009
alopez : 12/29/2008
wwang : 5/20/2008
terry : 5/19/2008
carol : 8/16/2006
carol : 10/5/2005
alopez : 1/19/2005
wwang : 1/18/2005
wwang : 1/14/2005
wwang : 1/12/2005
terry : 1/11/2005
carol : 11/18/2004
carol : 8/19/2004
cwells : 5/29/2002
terry : 5/10/2002
alopez : 10/5/2001
terry : 6/5/2001
mcapotos : 11/16/2000
mcapotos : 11/15/2000
terry : 11/10/2000
alopez : 4/29/2000
terry : 4/28/2000
alopez : 10/27/1999
alopez : 9/8/1998
carol : 4/24/1998
terry : 4/14/1998
terry : 4/9/1998
terry : 10/28/1997
alopez : 10/28/1997
terry : 10/22/1997
mark : 10/2/1995
terry : 8/1/1995
davew : 6/2/1994
carol : 6/1/1994
pfoster : 3/24/1994
warfield : 3/8/1994



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NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2025 Johns Hopkins University.
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