Hirschsprung disease

IFAP (BRESHECK) Syndrome

Clinical Characteristics
Ocular Features: 

The eyelashes and eyebrow hair is sparse or completely absent.  Keratitis with secondary photophobia is often seen during infancy and progresses to corneal vascularization and scarring, sometimes resembling trachomatous disease.  Cataracts do not seem to be part of this syndrome unlike some other genodermatoses.

Systemic Features: 

Dry, scaly skin and alopecia are usually evident at birth.  There is marked absence of hair throughout the body.  The skin is generally ichthyotic and erythematous, with continuous lamellar desquamation of surface skin.  Generalized follicular hyperkeratosis is present on the scalp, dorsal surface of the limbs and on the abdomen.  Most patients are completely bald.

In some patients the skin, hair and corneal disease is accompanied by severe internal anomalies such as kidney dysplasia, brain anomalies and mental retardation, Hirschsprung disease, cleft palate, external ear malformations, cryptorchidism, and skeletal deformities, a combination of signs that some have called BRESEK/BRESHECK syndrome.  Depending upon how extensive the organ involvement, the prognosis is usually guarded and patients may not live beyond early childhood. 

It is uncertain if IFAP refers to a single disorder or if two disorders are involved (see Genetics).

Genetics

This is generally considered to be an X-linked recessive disorder most likely due to mutations in MBTPS2, at least in patients considered to have the BRESHECK condition.  Female carrier may have some similar skin and hair signs albeit to a lesser degree than males.

Since the amount of MBTPS2 activity has been shown to vary with different mutations, it is possible that all cases of IFAP with or without the added BRESHECK findings are part of the clinical spectrum of a single disorder (variable expressivity).  

Other genodermatoses with severe keratitis are KID syndrome (148210) and Hereditary Mucoepithelial Dysplasia (158310).

Pedigree: 
X-linked recessive, carrier mother
X-linked recessive, father affected
Treatment
Treatment Options: 

No effective treatment is known.

References
Article Title: 

MBTPS2 mutation causes BRESEK/BRESHECK syndrome

Naiki M, Mizuno S, Yamada K, Yamada Y, Kimura R, Oshiro M, Okamoto N, Makita Y, Seishima M, Wakamatsu N. MBTPS2 mutation causes BRESEK/BRESHECK syndrome. Am J Med Genet A. 2012 Jan;158A(1):97-102.

PubMed ID: 
22105905

IFAP syndrome is caused by deficiency in MBTPS2, an intramembrane zinc metalloprotease essential for cholesterol homeostasis and ER stress response

Oeffner F, Fischer G, Happle R, Konig A, Betz RC, Bornholdt D, Neidel U, Boente Mdel C, Redler S, Romero-Gomez J, Salhi A, Vera-Casano A, Weirich C, Grzeschik KH. IFAP syndrome is caused by deficiency in MBTPS2, an intramembrane zinc metalloprotease essential for cholesterol homeostasis and ER stress response. Am J Hum Genet. 2009 Apr;84(4):459-67.

PubMed ID: 
19361614

Mowat-Wilson Syndrome

Clinical Characteristics
Ocular Features: 

Most reports of Mowat-Wilson disorders provide only incomplete ocular findings and the full phenotype remains to be described.  Most of the reported findings are part of the facial phenotype, such as downward slanting palpebral fissures, and 'wedge-shaped' eyebrows with the medial portion visibly wider than the temporal region.  Hypertelorism, strabismus and telecanthus have also been noted.  However, optic nerve atrophyor aplasia, RPE atrophy, microphthalmia, ptosis, and cataracts are sometimes present while strabismus is more common.  Iris and other uveal colobomas may be present and at least one patient has been reported with retinal aplasia.  There may be considerable asymmetry in the features among the two eyes.

Systemic Features: 

This is a highly complex dysmorphic developmental disorder with unusual progression of facial features.  Birth weight and length are usually normal but later there is general somatic and mental growth delay with microcephaly (pre- and post natal), short stature, intellectual disability, and epilepsy (70%).  Hypotonia has been noted at birth.  A significant proportion (~50%) of patients have Hirschsprung disease with megacolon.  Congenital heart defects are common, many involving septal openings.  Hypospadias is often present with or without other genitourinary anomalies.  Teeth are often crowded and crooked.  The earlobes may be flattened and may have a central depression.

The facial features are present in early childhood but as they mature the upper half of the nasal profile becomes convex, while the nasal tip becomes longer and overhangs the philtrum.  The eyes appear more deeply set.  The chin lengthens and prognathism becomes apparent.  IQ levels cannot be determined but many individuals exhibit behavioral or emotional disturbances.

Genetics

Heterozygous mutations in ZEB2 (2q22.3) are responsible for most cases (81%) of this disorder.  A large number of molecular mutations, many of the nonsense type, have been reported. About 2-4% of patients have cytogenetic alterations involving the 2q22 region.

Another disorder with microcephaly, intellectual disability and Hirschsprung disease is Goldberg-Shprintzen syndrome (609460) with mutations in the KIAA1279 gene.

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

Treatment may be directed at specific defects but there is no treatment for the general disorder. Individuals can live to adulthood. Treatment is largely symptomatic.  Physical and speech treatment can be helpful if initiated early.

References
Article Title: 

Phenotype and genotype of 87 patients with Mowat-Wilson syndrome and

Ivanovski I, Djuric O, Caraffi SG, Santodirocco D, Pollazzon M, Rosato S,
Cordelli DM, Abdalla E, Accorsi P, Adam MP, Ajmone PF, Badura-Stronka M, Baldo C,
Baldi M, Bayat A, Bigoni S, Bonvicini F, Breckpot J, Callewaert B, Cocchi G,
Cuturilo G, De Brasi D, Devriendt K, Dinulos MB, Hjortshoj TD, Epifanio R,
Faravelli F, Fiumara A, Formisano D, Giordano L, Grasso M, Gronborg S, Iodice A,
Iughetti L, Kuburovic V, Kutkowska-Kazmierczak A, Lacombe D, Lo Rizzo C, Luchetti
A, Malbora B, Mammi I, Mari F, Montorsi G, Moutton S, Moller RS, Muschke P,
Nielsen JEK, Obersztyn E, Pantaleoni C, Pellicciari A, Pisanti MA, Prpic I,
Poch-Olive ML, Raviglione F, Renieri A, Ricci E, Rivieri F, Santen GW, Savasta S,
Scarano G, Schanze I, Selicorni A, Silengo M, Smigiel R, Spaccini L, Sorge G,
Szczaluba K, Tarani L, Tone LG, Toutain A, Trimouille A, Valera ET, Vergano SS,
Zanotta N, Zenker M, Conidi A, Zollino M, Rauch A, Zweier C, Garavelli L.
Phenotype and genotype of 87 patients with Mowat-Wilson syndrome and
recommendations for care
. Genet Med. 2018 Jan 4. doi: 10.1038/gim.2017.221. [Epub
ahead of print].

PubMed ID: 
29300384

Clinical spectrum of eye malformations in four patients with Mowat-Wilson syndrome

Bourchany A, Giurgea I, Thevenon J, Goldenberg A, Morin G, Bremond-Gignac D, Paillot C, Lafontaine PO, Thouvenin D, Massy J, Duncombe A, Thauvin-Robinet C, Masurel-Paulet A, Chehadeh SE, Huet F, Bron A, Creuzot-Garcher C, Lyonnet S, Faivre L. Clinical spectrum of eye malformations in four patients with Mowat-Wilson syndrome. Am J Med Genet A. 2015 Apr 21. [Epub ahead of print]

PubMed ID: 
25899569

The behavioral phenotype of Mowat-Wilson syndrome

Evans E, Einfeld S, Mowat D, Taffe J, Tonge B, Wilson M. The behavioral phenotype of Mowat-Wilson syndrome. Am J Med Genet A. 2012 Feb;158A(2):358-66. doi: 10.1002/ajmg.a.34405.

PubMed ID: 
22246645

Mowat-Wilson syndrome: facial phenotype changing with age: study of 19 Italian patients and review of the literature

Garavelli L, Zollino M, Mainardi PC, Gurrieri F, Rivieri F, Soli F, Verri R, Albertini E, Favaron E, Zignani M, Orteschi D, Bianchi P, Faravelli F, Forzano F, Seri M, Wischmeijer A, Turchetti D, Pompilii E, Gnoli M, Cocchi G, Mazzanti L, Bergamaschi R, De Brasi D, Sperandeo MP, Mari F, Uliana V, Mostardini R, Cecconi M, Grasso M, Sassi S, Sebastio G, Renieri A, Silengo M, Bernasconi S, Wakamatsu N, Neri G. Mowat-Wilson syndrome: facial phenotype changing with age: study of 19 Italian patients and review of the literature. Am J Med Genet A. 2009 Mar;149A(3):417-26. Review.

PubMed ID: 
19215041

Clinical and mutational spectrum of Mowat-Wilson syndrome

Zweier C, Thiel CT, Dufke A, Crow YJ, Meinecke P, Suri M, Ala-Mello S, Beemer F, Bernasconi S, Bianchi P, Bier A, Devriendt K, Dimitrov B, Firth H, Gallagher RC, Garavelli L, Gillessen-Kaesbach G, Hudgins L, K?SS?SSri?SSinen H, Karstens S, Krantz I, Mannhardt A, Medne L, M?ocke J, Kibaek M, Krogh LN, Peippo M, Rittinger O, Schulz S, Schelley SL, Temple IK, Dennis NR, Van der Knaap MS, Wheeler P, Yerushalmi B, Zenker M, Seidel H, Lachmeijer A, Prescott T, Kraus C, Lowry RB, Rauch A. Clinical and mutational spectrum of Mowat-Wilson syndrome. Eur J Med Genet. 2005 Apr-Jun;48(2):97-111

PubMed ID: 
16053902

Waardenburg Syndrome, Type 4

Clinical Characteristics
Ocular Features: 

The skin and ocular pigmentary changes and the sensorineural hearing loss in type 4 Waardenburg syndrome resembles that of other types.  Patients, however, usually lack synophrys and dystopia canthorum.

Systemic Features: 

Type 4 Waardenburg syndrome is largely similar to other types except that many patients also have Hirschsprung disease.

Genetics

Both autosomal dominant and recessive inheritance have been reported for type 4 Waardenburg syndrome.  Both heterozygous and homozygous mutations in the EDNRB (endothelin-B receptor) gene (13q22) occur in patients.  The aganglionic megacolon feature may be dose sensitive since homozygotes have been reported to have a 74% chance of developing Hirschsprung disease while only 21% of heterozygotes do so.

Types 4A (277580) and 4B (613265) are both caused by mutations in the EDNRB gene, and type 4C (613266) results from a mutation in the SOX10 gene.  Waardenburg syndrome WS2E is allelic to type 4C.  This is an example of genetic heterogeneity both within the main types and within the subtypes.

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

No ocular treatment is necessary but assistive hearing devices can be beneficial.

References
Article Title: 

Waardenburg syndrome

Read AP, Newton VE. Waardenburg syndrome. J Med Genet. 1997 Aug;34(8):656-65. Review.

PubMed ID: 
9279758
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