- Lam, Christina;
- Golas, Gretchen A;
- Davids, Mariska;
- Huizing, Marjan;
- Kane, Megan S;
- Krasnewich, Donna M;
- Malicdan, May Christine V;
- Adams, David R;
- Markello, Thomas C;
- Zein, Wadih M;
- Gropman, Andrea L;
- Lodish, Maya B;
- Stratakis, Constantine A;
- Maric, Irina;
- Rosenzweig, Sergio D;
- Baker, Eva H;
- Ferreira, Carlos R;
- Danylchuk, Noelle R;
- Kahler, Stephen;
- Garnica, Adolfo D;
- Schaefer, G Bradley;
- Boerkoel, Cornelius F;
- Gahl, William A;
- Wolfe, Lynne A
PIGT-CDG, an autosomal recessive syndromic intellectual disability disorder of glycosylphosphatidylinositol (GPI) anchors, was recently described in two independent kindreds [Multiple Congenital Anomalies-Hypotonia-Seizures Syndrome 3 (OMIM, #615398)]. PIGT encodes phosphatidylinositol-glycan biosynthesis class T, a subunit of the heteropentameric transamidase complex that facilitates the transfer of GPI to proteins. GPI facilitates attachment (anchoring) of proteins to cell membranes. We describe, at ages 7 and 6 years, two children of non-consanguineous parents; they had hypotonia, severe global developmental delay, and intractable seizures along with endocrine, ophthalmologic, skeletal, hearing, and cardiac anomalies. Exome sequencing revealed that both siblings had compound heterozygous variants in PIGT (NM_015937.5), i.e., c.918dupC, a novel duplication leading to a frameshift, and c.1342C > T encoding a previously described missense variant. Flow cytometry studies showed decreased surface expression of GPI-anchored proteins on granulocytes, consistent with findings in previous cases. These siblings further delineate the clinical spectrum of PIGT-CDG, reemphasize the neuro-ophthalmologic presentation, clarify the endocrine features, and add hypermobility, low CSF albumin quotient, and hearing loss to the phenotypic spectrum. Our results emphasize that GPI anchor-related congenital disorders of glycosylation (CDGs) should be considered in subjects with early onset severe seizure disorders and dysmorphic facial features, even in the presence of a normal carbohydrate-deficient transferrin pattern and N-glycan profiling. Currently available screening for CDGs will not reliably detect this family of disorders, and our case reaffirms that the use of flow cytometry and genetic testing is essential for diagnosis in this group of disorders.