Literature DB >> 28978796

Guanylate cyclase 2C agonism corrects CFTR mutants.

Kavisha Arora1, Yunjie Huang1, Kyushik Mun1, Sunitha Yarlagadda1, Nambirajan Sundaram2, Marco M Kessler3, Gerhard Hannig3, Caroline B Kurtz4, Inmaculada Silos-Santiago5, Michael Helmrath2, Joseph J Palermo6, John P Clancy1, Kris A Steinbrecher7, Anjaparavanda P Naren1.   

Abstract

Cystic fibrosis (CF) is a genetic disorder in which epithelium-generated fluid flow from the lung, intestine, and pancreas is impaired due to mutations disrupting CF transmembrane conductance regulator (CFTR) channel function. CF manifestations of the pancreas and lung are present in the vast majority of CF patients, and 15% of CF infants are born with obstructed gut or meconium ileus. However, constipation is a significantly underreported outcome of CF disease, affecting 47% of the CF patients, and management becomes critical in the wake of increasing life span of CF patients. In this study, we unraveled a potentially novel molecular role of a membrane-bound cyclic guanosine monophosphate-synthesizing (cGMP-synthesizing) intestinal enzyme, guanylate cyclase 2C (GCC) that could be targeted to ameliorate CF-associated intestinal fluid deficit. We demonstrated that GCC agonism results in functional rescue of murine F508del/F508del and R117H/R117H Cftr and CFTR mutants in CF patient-derived intestinal spheres. GCC coexpression and activation facilitated processing and ER exit of F508del CFTR and presented a potentially novel rescue modality in the intestine, similar to the CF corrector VX-809. Our findings identify GCC as a biological CFTR corrector and potentiator in the intestine.

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Year:  2017        PMID: 28978796      PMCID: PMC5841874          DOI: 10.1172/jci.insight.93686

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  41 in total

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Review 7.  Modeling Development and Disease with Organoids.

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3.  AC6 is the major adenylate cyclase forming a diarrheagenic protein complex with cystic fibrosis transmembrane conductance regulator in cholera.

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7.  Guanylate cyclase C reduces invasion of intestinal epithelial cells by bacterial pathogens.

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8.  Targeting DNAJB9, a novel ER luminal co-chaperone, to rescue ΔF508-CFTR.

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Review 9.  Transepithelial Fluid and Salt Re-Absorption Regulated by cGK2 Signals.

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