Aleksandra Jezela-Stanek1, Elżbieta Ciara2, Dorota Piekutowska-Abramczuk2, Joanna Trubicka2, Elżbieta Jurkiewicz3, Dariusz Rokicki4, Hanna Mierzewska5, Justyna Spychalska6, Małgorzata Uhrynowska6, Marta Szwarc-Bronikowska4, Piotr Buda4, Abdul Rahim Said7, Ewa Jamroz8, Małgorzata Rydzanicz9, Rafał Płoski9, Małgorzata Krajewska-Walasek2, Ewa Pronicka10. 1. Department of Medical Genetics, The Children's Memorial Health Institute, Warsaw, Poland. Electronic address: jezela@gmail.com. 2. Department of Medical Genetics, The Children's Memorial Health Institute, Warsaw, Poland. 3. Department of Diagnostic Imaging, The Children's Memorial Health Institute, Warsaw, Poland. 4. Department of Pediatrics, Nutrition and Metabolic Diseases, The Children's Memorial Health Institute, Warsaw, Poland. 5. Department of Child and Adolescent Neurology, Institute of Mother and Child, Warsaw, Poland. 6. Department of Immunology, Institute of Hematology and Transfusion Medicine, Warsaw, Poland. 7. Children's Home Hospice, Opole, Poland. 8. Department of Pediatrics and Developmental Age Neurology, Medical University of Silesia, Katowice, Poland. 9. Department of Medical Genetics, Warsaw Medical University, Warsaw, Poland. 10. Department of Medical Genetics, The Children's Memorial Health Institute, Warsaw, Poland; Department of Pediatrics, Nutrition and Metabolic Diseases, The Children's Memorial Health Institute, Warsaw, Poland.
Abstract
BACKGROUND: Glycosylphosphatidylinositol (GPI)-anchor deficiencies are a new subclass of congenital disorders of glycosylation. About 26 genes are involved in the GPI-anchor biosynthesis and remodeling pathway, of which mutations in thirteen have been reported to date as causative of a diverse spectrum of intellectual disabilities. Since the clinical phenotype of these disorders varies and the number of described individuals is limited, we present new patients with inherited GPI-anchor deficiency (IGD) caused by mutations in the PGAP2 and PIGN genes. PATIENTS AND METHODS: The first girl presented with profound psychomotor retardation, low birth parameters, and chest deformities already existing in neonatal period. The disease course was slowly progressive with severe hypotonia, chronic fever, and respiration insufficiency at the age of 6. The second girl showed profound psychomotor retardation, marked hypotonia, and high birth weight (97 centile). Dysmorphy was mild or absent in both girls. Whole exome sequencing revealed novel variants in the genes PGAP2 (c.2T>G and c.221G>A) and PIGN (c.790G>A and c.932T>G). Impaired GPI binding were was subsequently uncovered, although the hyperactivity of alkaline phosphatase (a GPI-anchored protein) occurred only in first case. CONCLUSIONS: Based on our results we can conclude that: 1. GPI-anchor biosynthesis disorders may represent a relatively frequent and overlooked metabolic defect; 2. The utility of GPI binding assessment as a screening test for this group of rare diseases requires further studies.
BACKGROUND:Glycosylphosphatidylinositol (GPI)-anchor deficiencies are a new subclass of congenital disorders of glycosylation. About 26 genes are involved in the GPI-anchor biosynthesis and remodeling pathway, of which mutations in thirteen have been reported to date as causative of a diverse spectrum of intellectual disabilities. Since the clinical phenotype of these disorders varies and the number of described individuals is limited, we present new patients with inherited GPI-anchor deficiency (IGD) caused by mutations in the PGAP2 and PIGN genes. PATIENTS AND METHODS: The first girl presented with profound psychomotor retardation, low birth parameters, and chest deformities already existing in neonatal period. The disease course was slowly progressive with severe hypotonia, chronic fever, and respiration insufficiency at the age of 6. The second girl showed profound psychomotor retardation, marked hypotonia, and high birth weight (97 centile). Dysmorphy was mild or absent in both girls. Whole exome sequencing revealed novel variants in the genes PGAP2 (c.2T>G and c.221G>A) and PIGN (c.790G>A and c.932T>G). Impaired GPI binding were was subsequently uncovered, although the hyperactivity of alkaline phosphatase (a GPI-anchored protein) occurred only in first case. CONCLUSIONS: Based on our results we can conclude that: 1. GPI-anchor biosynthesis disorders may represent a relatively frequent and overlooked metabolic defect; 2. The utility of GPI binding assessment as a screening test for this group of rare diseases requires further studies.
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