BACKGROUND: Primary lymphoedema describes a chronic, frequently progressive, failure of lymphatic drainage. This disorder is frequently genetic in origin, and a multigenerational family in which eight individuals developed postnatal lymphoedema of all four limbs was ascertained from the joint Lymphoedema/Genetic clinic at St George's Hospital. METHODS: Linkage analysis was used to determine a locus, and exome sequencing was employed to look for causative variants. RESULTS: Linkage analysis revealed cosegregation of a 16.1 Mb haplotype on chromosome 1q42 that contained 173 known or predicted genes. Whole exome sequencing in a single affected individual was undertaken, and the search for the causative variant was focused to within the linkage interval. This approach revealed two novel non-synonymous single nucleotide substitutions within the chromosome 1 locus, in NVL and GJC2. NVL and GJC2 were sequenced in an additional cohort of individuals with a similar phenotype and non-synonymous variants were found in GJC2 in four additional families. CONCLUSION: This report demonstrates the power of exome sequencing efficiently applied to a traditional positional cloning pipeline in disease gene discovery, and suggests that the phenotype produced by GJC2 mutations is predominantly one of 4 limb lymphoedema.
BACKGROUND:Primary lymphoedema describes a chronic, frequently progressive, failure of lymphatic drainage. This disorder is frequently genetic in origin, and a multigenerational family in which eight individuals developed postnatal lymphoedema of all four limbs was ascertained from the joint Lymphoedema/Genetic clinic at St George's Hospital. METHODS: Linkage analysis was used to determine a locus, and exome sequencing was employed to look for causative variants. RESULTS: Linkage analysis revealed cosegregation of a 16.1 Mb haplotype on chromosome 1q42 that contained 173 known or predicted genes. Whole exome sequencing in a single affected individual was undertaken, and the search for the causative variant was focused to within the linkage interval. This approach revealed two novel non-synonymous single nucleotide substitutions within the chromosome 1 locus, in NVL and GJC2. NVL and GJC2 were sequenced in an additional cohort of individuals with a similar phenotype and non-synonymous variants were found in GJC2 in four additional families. CONCLUSION: This report demonstrates the power of exome sequencing efficiently applied to a traditional positional cloning pipeline in disease gene discovery, and suggests that the phenotype produced by GJC2 mutations is predominantly one of 4 limb lymphoedema.
Authors: Pia Ostergaard; Michael A Simpson; Antonella Mendola; Pradeep Vasudevan; Fiona C Connell; Andreas van Impel; Anthony T Moore; Bart L Loeys; Arash Ghalamkarpour; Alexandros Onoufriadis; Ines Martinez-Corral; Sophie Devery; Jules G Leroy; Lut van Laer; Amihood Singer; Martin G Bialer; Meriel McEntagart; Oliver Quarrell; Glen Brice; Richard C Trembath; Stefan Schulte-Merker; Taija Makinen; Miikka Vikkula; Peter S Mortimer; Sahar Mansour; Steve Jeffery Journal: Am J Hum Genet Date: 2012-01-26 Impact factor: 11.025
Authors: M Alders; A Mendola; L Adès; L Al Gazali; C Bellini; B Dallapiccola; P Edery; U Frank; F Hornshuh; S A Huisman; S Jagadeesh; H Kayserili; W T Keng; D Lev; C E Prada; J R Sampson; J Schmidtke; V Shashi; Y van Bever; N Van der Aa; J M Verhagen; J B Verheij; M Vikkula; R C Hennekam Journal: Mol Syndromol Date: 2012-10-02
Authors: Jorge A Castorena-Gonzalez; Scott D Zawieja; Min Li; R Sathish Srinivasan; Alexander M Simon; Cor de Wit; Roger de la Torre; Luis A Martinez-Lemus; Grant W Hennig; Michael J Davis Journal: Circ Res Date: 2018-09-28 Impact factor: 17.367