Meconium ileus and pancreatic sufficiency with D1152H mutation: A case report and review of the literature.

Meconium ileus (MI) is one presenting manifestation of Cystic Fibrosis (CF), classically associated with class I-III CF transmembrane conductance regulator (CFTR) mutations and pancreatic insufficiency (PI). D1152H is a class IV mutation that corresponds with a milder CF phenotype and pancreatic sufficiency (PS). We present the case of an infant with G542X/D1152H mutations and MI who required surgical intervention with small bowel resection. The sweat testing was normal, and this child presently remains PS, however at age 5 continues to experience short gut syndrome and failure to thrive. Eight cases were identified in the CF Registry and seven cases in the literature describing patients with D1152H and echogenic bowel (EB) or MI. Our case highlights the importance of CFTR gene sequencing in infants with EB or MI and sweat testing not suggestive of CF. It is our practice to perform full CFTR gene sequencing for infants who present with MI, recognizing protocols for newborn screening across the United States vary. Increased awareness of D1152H association with PS may also well inform both prenatal and postnatal genetic counseling.

Mutational landscape of receptor guanylyl cyclase C: Functional analysis and disease-related mutations.

Guanylyl cyclase C (GC-C) is the receptor for the heat-stable enterotoxin, which causes diarrhea, and the endogenous ligands, guanylin and uroguanylin. GC-C is predominantly expressed in the intestinal epithelium and regulates fluid and ion secretion in the gut. The receptor has a complex domain organization, and in the absence of structural information, mutational analysis provides clues to mechanisms of regulation of this protein. Here, we review the mutational landscape of this receptor that reveals regulatory features critical for its activity. We also summarize the available information on mutations in GC-C that have been reported in humans and contribute to severe gastrointestinal abnormalities. Since GC-C is also expressed in extra-intestinal tissues, it is likely that mutations thus far reported in humans may also affect other organ systems, warranting a close observation of these patients in future.

Variant classifications, databases and genotype-phenotype correlations.

Because CFTR gene studies now represent one of the most frequent genetic analyses routinely performed worldwide, the number of rare CFTR variants identified in various clinical situations, regularly increases. To provide appropriate diagnosis and prognosis to CF patients as well as appropriate genetic counseling to families, the clinical impact and the phenotypic spectrum of variants identified by diagnostic techniques need to be characterized. Three complementary locus specific databases, called CFTR1, CFTR2 and CFTR-France were developed to address these issues. Besides, the growing knowledge of the CF pathophysiology and the technical evolution in molecular biology allowed to identify candidate modifier genes, regulatory loci, epigenetic profiles and trans-regulators that could help to refine genotype-phenotype correlations at the individual level. These different factors may contribute to the large phenotypic variability between patients with CF, even when they carry identical CFTR variants, regarding lung function, meconium ileus susceptibility or the risk for developing CFTR-related diabetes and liver disease. Finally, the availability of new therapies that target the CFTR protein for numbers of CF patients led to the identification of 'good' and 'poor' responders, thus raising questions of pharmacogenetics factors that may influence treatment efficiency as a novel feature of the complexity of CF patients' management. © 2020 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

Non-Cystic Fibrosis-Related Meconium Ileus: GUCY2C-Associated Disease Discovered through Rapid Neonatal Whole-Exome Sequencing.

Meconium ileus is caused by cystic fibrosis; however, mutations in the GUCY2C gene also cause this disease. We report non-cystic fibrosis meconium ileus in an infant of non-Middle Eastern origin with compound heterozygous mutations in GUCY2C.

Meconium Ileus in Two Irish Newborns: The Presenting Feature of Cystic Fibrosis

Introduction Meconium Ileus (MI) is the presenting feature of CF in approximately 10-15% of cases. This report outlines the clinical presentation, imaging and management of two neonates with MI and subsequent diagnosis of Cystic Fibrosis (CF). Methods A retrospective chart review was performed to evaluate the clinical course of two neonates with MI. Results Case 1 and 2 presented clinically with signs of abdominal obstruction. Subsequent laparotomies confirmed MI. MI is strongly associated with CF and CF is the most common genetically inherited disease in Ireland. Genetic testing was positive for a homozygous ∆ F508 mutation in both case 1 and 2, securing a diagnosis of MI secondary to CF. Conclusion Our cases highlight that all infants born in Ireland with MI should be considered as CF positive until proven otherwise.

SLC6A14, an amino acid transporter, modifies the primary CF defect in fluid secretion.

The severity of intestinal disease associated with Cystic Fibrosis (CF) is variable in the patient population and this variability is partially conferred by the influence of modifier genes. Genome-wide association studies have identified SLC6A14, an electrogenic amino acid transporter, as a genetic modifier of CF-associated meconium ileus. The purpose of the current work was to determine the biological role of Slc6a14, by disrupting its expression in CF mice bearing the major mutation, F508del. We found that disruption of Slc6a14 worsened the intestinal fluid secretion defect, characteristic of these mice. In vitro studies of mouse intestinal organoids revealed that exacerbation of the primary defect was associated with reduced arginine uptake across the apical membrane, with aberrant nitric oxide and cyclic GMP-mediated regulation of the major CF-causing mutant protein. Together, these studies highlight the role of this apical transporter in modifying cellular nitric oxide levels, residual function of the major CF mutant and potentially, its promise as a therapeutic target.

Disease-modifying genetic factors in cystic fibrosis.

PURPOSE OF REVIEW: To compile data from the past 10 years regarding the role of modifying genes in cystic fibrosis (CF). RECENT FINDINGS: CF is a model disease for understanding of the action of modifying genes. Although it is a monogenic (CFTR) autosomal recessive disease, CF presents with wide phenotypic variability. In CF, variability occurs with different intensity among patients by each organ, being organ-specific, resulting from the mutual interaction of environmental and genetic factors, including CFTR mutations and various other genes, most of which are associated with inflammatory processes. In individuals, using precision medicine, gene modification studies have revealed individualized responses to drugs depending on particular CFTR mutations and modifying genes, most of which are alternative ion channels. SUMMARY: Studies of modifying genes in CF allow: understanding of clinical variability among patients with the same CFTR genotype; evaluation of precision medicine; understanding of environmental and genetic effects at the organ level; understanding the involvement of genetic variants in inflammatory responses; improvements in genetic counseling; understanding the involvement of genetic variants in inflammatory responses in lung diseases, such as asthma; and understanding the individuality of the person with the disease.