Medicine:Peters-plus syndrome

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Peters-plus syndrome
Other namesKrause–van Schooneveld–Kivlin syndrome
Autosomal recessive - en.svg
This condition is inherited in an autosomal recessive manner

Peters-plus syndrome or Krause–Kivlin syndrome is a hereditary syndrome defined by Peters' anomaly, dwarfism and intellectual disability.[1][2]

Signs and symptoms

Features of this syndrome include Peters' anomaly, corneal opacity, central defect of Descemet's membrane, and shallow anterior chamber with synechiae between the iris and cornea.[citation needed]

Craniofacial abnormalities commonly seen in patients with PPS include hypertelorism, ear malformations, micrognathia, round face and broad neck, and cleft lip and palate.[1]

Infants are commonly born small for gestational age and have delayed growth. It is associated with short limb dwarfism and mild to severe intellectual disability and autism spectrum disorder.[1]

Cause

The pattern of inheritance of Peters-plus is autosomal recessive, where both parents are heterozygous they can produce a child with the syndrome. The B3GALTL[3] (now called B3GLCT) gene codes for the enzyme beta 3-glucosyltransferase (B3Glc-T).[4]

The beta 3-glucosyltransferase enzyme is responsible for glycosylation, the attachment of sugars to proteins, which through this modification allows for performance of a wider variety of functions. The mutations of the B3GLCT gene in affected individuals results in loss-of-function of the beta 3-glucosyltransferase enzyme. The result of this disruption in glycosylation is a change to the secondary structure of the mRNA. These mutations of the B3GLCT gene lead to the production of an abnormally short, nonfunctional version of the beta 3-glucosyltransferase (B3Glc-T) enzyme, which disrupts glycosylation.[5]

The phenotypic effects of the B3GLCT mutations result in a triad of well known phenotypes; Peters anomaly (also classified as anterior segment defects, a defect in the anterior cornea), short stature, brachydactyly, in addition to several other less frequently observed phenotypes.[6] A study of 55 patients with Peters-plus-related phenotypes, but lacking the most common combination (Peters anomaly, short stature, and brachydactyly), revealed none of those cases displayed mutation in the B3GLCT gene. Thus PPS-like signs and symptoms, when they occur independently of each other, provide strong evidence that the B3GLCT gene mutation is in fact responsible for actual cases Peters-plus syndrome.[7]

History

Krause–van Schooneveld–Kivlin syndrome is listed as a "rare disease" by the Office of Rare Diseases (ORD) of the National Institutes of Health (NIH).[8]

It was characterized in 1984 by van Schooneveld.[9]

See also

  • Peters anomaly

References

  1. 1.0 1.1 1.2 Smith's Recognizable Patterns of Human Malformation (7 ed.). Elsevier. 2013. pp. 752–795. 
  2. "Krause–Kivlin syndrome'". U. S. National Library of Medicine Congenital Syndromes Database Archives. NIH. https://www.nlm.nih.gov/archive/20061212/mesh/jablonski/cgi/jablonski/syndrome_cgida88.html. 
  3. Weh, Eric; Reis, Linda M.; Tyler, Rebecca C.; Bick, David; Rhead, William J.; Wallace, Stephanie; McGregor, Tracy L.; Dills, Shelley K. et al. (August 2014). "Novel B3GALTL mutations in classic Peters Plus syndrome and lack of mutations in a large cohort of patients with similar phenotypes". Clinical Genetics 86 (2): 142–148. doi:10.1111/cge.12241. ISSN 0009-9163. PMID 23889335. 
  4. Heinonen, Taisto Y. K.; Maki, Markku (2009). "Peters'-plus syndrome is a congenital disorder of glycosylation caused by a defect in the beta1,3-glucosyltransferase that modifies thrombospondin type 1 repeats". Annals of Medicine 41 (1): 2–10. doi:10.1080/07853890802301975. ISSN 1365-2060. PMID 18720094. 
  5. Siala, Olfa; Belguith, Neila; Kammoun, Hassen; Kammoun, Bourane; Hmida, Nedia; Chabchoub, Imen; Hchicha, Mongia; Fakhfakh, Faiza (2012-10-01). "Two Tunisian patients with Peters plus syndrome harbouring a novel splice site mutation in the B3GALTL gene that modulates the mRNA secondary structure" (in en). Gene 507 (1): 68–73. doi:10.1016/j.gene.2012.06.052. ISSN 0378-1119. PMID 22759511. http://www.sciencedirect.com/science/article/pii/S0378111912007627. 
  6. Weh, Eric; Takeuchi, Hideyuki; Muheisen, Sanaa; Haltiwanger, Robert S.; Semina, Elena V. (2017-09-19). "Functional characterization of zebrafish orthologs of the human Beta 3-Glucosyltransferase B3GLCT gene mutated in Peters Plus Syndrome" (in en). PLOS ONE 12 (9): e0184903. doi:10.1371/journal.pone.0184903. ISSN 1932-6203. PMID 28926587. Bibcode2017PLoSO..1284903W. 
  7. Weh, E.; Reis, L. M.; Tyler, R. C.; Bick, D.; Rhead, W. J.; Wallace, S.; McGregor, T. L.; Dills, S. K. et al. (August 2014). "Novel B3GALTL mutations in classic Peters plus syndrome and lack of mutations in a large cohort of patients with similar phenotypes". Clinical Genetics 86 (2): 142–148. doi:10.1111/cge.12241. ISSN 1399-0004. PMID 23889335. 
  8. "Peters plus syndrome". Genetic and Rare Diseases Information Center (GARD). NIH. http://rarediseases.info.nih.gov/GARD/Condition/8422/Peters_plus_syndrome.aspx. 
  9. "Peters'-plus: a new syndrome". Ophthalmic Paediatr Genet 4 (3): 141–5. December 1984. doi:10.3109/13816818409006113. PMID 6443615. 

External links

Classification
External resources



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