OBJECTIVE: Cryptogenic multifocal ulcerating stenosing enteritis (CMUSE) is an extremely rare, but devastating, disease of unknown aetiology. We investigated the genetic basis of this autosomal recessive condition in a pair of affected siblings who have 40-year histories of catastrophic gastrointestinal and extraintestinal disease. DESIGN: Genome-wide single-nucleotide polymorphism homozygosity mapping in the two affected family members combined with whole-exome sequencing of one affected sibling. This was followed by confirmatory Sanger sequencing of the likely disease-causing sequence variant and functional studies in affected and unaffected family members. RESULTS: Insertion/deletion variation analysis revealed the presence of a homozygous 4 bp deletion (g.155574_77delGTAA) in the PLA2G4A gene, located in the splice donor site directly after exon 17 (the penultimate exon) of the gene in both affected siblings. This introduces a frameshift of 10 amino acids before a premature stop codon (p.V707fsX10), which is predicted to result in the loss of 43 amino acids (residues 707-749) at the C-terminus of cytosolic phospholipase A2-α (cPLA(2)α). cPLA(2)α protein expression was undetectable in the gut of both siblings, with platelet aggregation and thromboxane A(2) production, as functional assays for cPLA(2)α activity, grossly impaired. CONCLUSIONS: We have identified mutations in PLA2G4A as a cause of CMUSE in two affected siblings. Further studies are needed to determine if mutations in this gene are also responsible for disease of a similar phenotype in other cases.
OBJECTIVE: Cryptogenic multifocal ulcerating stenosing enteritis (CMUSE) is an extremely rare, but devastating, disease of unknown aetiology. We investigated the genetic basis of this autosomal recessive condition in a pair of affected siblings who have 40-year histories of catastrophic gastrointestinal and extraintestinal disease. DESIGN: Genome-wide single-nucleotide polymorphism homozygosity mapping in the two affected family members combined with whole-exome sequencing of one affected sibling. This was followed by confirmatory Sanger sequencing of the likely disease-causing sequence variant and functional studies in affected and unaffected family members. RESULTS: Insertion/deletion variation analysis revealed the presence of a homozygous 4 bp deletion (g.155574_77delGTAA) in the PLA2G4A gene, located in the splice donor site directly after exon 17 (the penultimate exon) of the gene in both affected siblings. This introduces a frameshift of 10 amino acids before a premature stop codon (p.V707fsX10), which is predicted to result in the loss of 43 amino acids (residues 707-749) at the C-terminus of cytosolic phospholipase A2-α (cPLA(2)α). cPLA(2)α protein expression was undetectable in the gut of both siblings, with platelet aggregation and thromboxane A(2) production, as functional assays for cPLA(2)α activity, grossly impaired. CONCLUSIONS: We have identified mutations in PLA2G4A as a cause of CMUSE in two affected siblings. Further studies are needed to determine if mutations in this gene are also responsible for disease of a similar phenotype in other cases.
Authors: Nicholas S Kirkby; Daniel M Reed; Matthew L Edin; Francesca Rauzi; Stefania Mataragka; Ivana Vojnovic; David Bishop-Bailey; Ginger L Milne; Hilary Longhurst; Darryl C Zeldin; Jane A Mitchell; Timothy D Warner Journal: FASEB J Date: 2015-07-16 Impact factor: 5.191
Authors: Christine Hinz; Maceler Aldrovandi; Charis Uhlson; Lawrence J Marnett; Hilary J Longhurst; Timothy D Warner; Saydul Alam; David A Slatter; Sarah N Lauder; Keith Allen-Redpath; Peter W Collins; Robert C Murphy; Christopher P Thomas; Valerie B O'Donnell Journal: J Biol Chem Date: 2016-04-22 Impact factor: 5.157