SLC6A14 Modifies Fluid Secretory Capacity of Cystic Fibrosis Affected Epithelium by Enhancing CFTR Channel Function

Cystic fibrosis (CF) is usually caused by F508del mutation in the CFTR gene. Normally, CFTR protein aids in salt transport across the apical surface of epithelia, keeping their surface hydrated. F508del results in decreased surface expression of CFTR, leading to dehydration of the surface. This makes the lung epithelium prone to infection and in intestine leads to obstruction. Patients homozygous for F508del, have a tremendous variation in the severity of disease. Recent Genome-wide association studies indicate that this variation is due to presence of modifier genes, with SLC6A14 as the top modifier (Sun et.al.,2012). SLC6A14 is a Na+/Cl- dependent cationic/neutral amino-acid transporter on the surface of lung and colonic epithelium. As both transporters are expressed apically, we hypothesized that SLC6A14 would modify the fluid secretory capacity of the epithelium. So in collaboration with TCP, we generated a SLC6A14 knock-out mouse. We can measure in-vivo fluid secretion in mice, using an intestinal closed-loop assay. SLC6A14 knock-out mice exhibited a decrease in cAMP stimulated fluid secretion mediated via CFTR relative to Wt control. To explore the mechanism by which this modification occurs, we utilized a BHK heterologous expression system, overexpressing CFTR and SLC6A14. Interestingly, the functional interaction can be recapitulated in this system, suggesting that it not tissue-type dependent. Preliminary biochemical and anion-flux studies support the hypothesis that SLC6A14 does not affect the processing or stability of Wt or F508del-CFTR proteins rather it augments the activity of these channel proteins once localized to the cell surface. Future studies will focus on understanding if this augmentation is related to modification of CFTR's phosphorylation dependent gating. These results show a positive impact of SLC6A14 on CFTR channel function and fluid secretion, providing an alternative drug target for CF patients.