Glycogen Storage Disease type IA refractory to cornstarch: Can next generation sequencing offer a solution?

Avoidance of fasting and regular ingestion of uncooked-cornstarch have long been the mainstay dietary treatment of Glycogen Storage Disease type Ia (GSD-Ia). However, GSD-Ia patients who despite optimal dietary treatment show poor glycemic control and are intolerant to cornstarch, present a complex clinical challenge. We pursued Whole Exome Sequencing (WES) in three such unrelated patients, to both confirm a molecular diagnosis of GSD-Ia, and seek additional variants in other genes (e.g. genes associated with amylase production) which may explain their persistent symptoms. WES confirmed the GSD-Ia diagnosis, with all three probands harboring the homozygous p.R83C variant in G6PC. While no other significant variants were identified for patients A and B, a homozygous p.G276V variant in the SI gene was detected in patient C, establishing the dual-diagnosis of GSD-Ia and Sucrase-Isomaltase Deficiency. To conclude, we suggest that WES should be considered in GSD-Ia patients who show persistent symptoms despite optimal dietary management.

Defining the Celiac Disease Transcriptome using Clinical Pathology Specimens Reveals Biologic Pathways and Supports Diagnosis.

Celiac disease is provoked by gluten exposure, but the complete pathogenic process in the duodenum and the loss of tolerance to gluten is not well understood. We aimed to define the core celiac transcriptomic signature and pathologic pathways in pre-treatment formalin-fixed paraffin-embedded (FFPE) duodenum biopsies used for clinical diagnosis. We use mRNAseq to define pre-treatment diagnostic duodenum gene expression in 54 pediatric celiac patients and non-celiac controls, and we validate our key findings in two independent cohorts of 67 adults and pediatric participants that used fresh frozen biopsies. We further define similar and divergent genes and pathways in 177 small bowel Crohn disease patients and controls. We observe a marked suppression of mature epithelial metabolic functions in celiac patients, overlapping substantially with the Crohn disease signature. A marked adaptive immune response was noted for the up-regulated signature including interferon response, alpha-beta, and gamma-delta T-cells that overlapped to some extent with the Crohn disease signature. However, we also identified a celiac disease specific signature linked to increased cell proliferation, nuclear division, and cell cycle activity that was localized primarily to the epithelia as noted by CCNB1 and Ki67 staining. Lastly, we demonstrate the utility of the transcriptomic date to correctly classify disease or healthy states in the discovery and validation cohorts. Our data supplement recently published datasets providing insights into celiac pathogenesis using clinical pathology FFPE samples, and can stimulate new approaches to address this highly prevalent condition.

Relationships between Clinical Presentation, Serology, Histology, and Duodenal Deposits of Tissue Transglutaminase Antibodies in Pediatric Celiac Disease.

BACKGROUND: The clinical, histological, and serological spectrum of celiac disease (CD) vary widely. We aimed to examine relationships between symptoms, serum anti-tissue transglutaminase antibodies (tTG) levels, mucosal damage, and mucosal anti-tTG deposits in pediatric CD. METHODS: A retrospective single-center, cohort study of children referred for endoscopy with suspected CD during 2011-2014. We retrieved the clinical data, blindly reviewed duodenal biopsies, and performed immunohistochemical staining for anti-tTG deposits. Patients were classified as monosymptomatic or polysymptomatic. Mucosal anti-tTG deposits were classified according to the location of deposits, dominant intensity, maximal intensity, and percentage of stained area. RESULTS: Of 252 patients with confirmed CD, complete data were available for 100: 37 males in the age range 1.3-16.7 with median 4.0 years. Monosymptomatic patients (n = 54) presented at an older age than polysymptomatic patients (1.3-15.5, median 8.1 vs. 1.3-16.7, median 6.3 years, p = 0.026). Marsh 2-3c was more prevalent in polysymptomatic patients (93 vs. 78%, p = 0.028). The intensity of mucosal anti-tTG deposits correlated with serum anti-tTG levels but not with the clinical presentation. CONCLUSIONS: Multiple symptoms and high serum anti-tTG antibody levels correlated with mucosal damage in children with CD. The role of immunohistochemical staining for intestinal anti-tTG mucosal deposits in the diagnosis of borderline CD is not yet established.

Congenital Sucrase-isomaltase Deficiency: A Novel Compound Heterozygous Mutation Causing Aberrant Protein Localization.

OBJECTIVES: Congenital diarrheal disorders is a group of inherited enteropathies presenting in early life and requiring parenteral nutrition. In most cases, genetics may be the key for precise diagnosis. We present an infant girl with chronic congenital diarrhea that resolved after introduction of fructose-based formula but had no identified mutation in the SLC5A1 gene. Using whole exome sequencing (WES) we identified other mutations that better dictated dietary adjustments. METHODS: WES of the patient and her parents was performed. The analysis focused on recessive model including compound heterozygous mutations. Sanger sequencing was used to validate identified mutations and to screen the patient's newborn sister and grandparents. Expression and localization analysis were performed in the patient's duodenal biopsies using immunohistochemistry. RESULTS: Using WES we identified a new compound heterozygote mutation in sucrase-isomaltase (SI) gene; a maternal inherited known V577G mutation, and a novel paternal inherited C1531W mutation. Importantly, the newborn offspring carried similar compound heterozygous mutations. Computational predictions suggest that both mutations highly destabilize the protein. SI expression and localization studies determined that the mutated SI protein was not expressed on the brush border membrane in the patient's duodenal biopsies, verifying the diagnosis of congenital sucrase-isomaltase deficiency (CSID). CONCLUSIONS: The novel compound heterozygote V577G/C1531W SI mutations lead to lack of SI expression in the duodenal brush border, confirming the diagnosis of CSID. These cases of CSID extend the molecular spectrum of this condition, further directing a more adequate dietary intervention for the patient and newborn sibling.