AIM: We compared the distribution and putative association of Cl- channel transport, CFTR mRNA transcripts, and Na+ channel (ENaC) alpha- and beta-subunit mRNA transcripts in villus and crypt epithelial cells of duodenum, with corresponding surface and crypt cells of colon from sodium-depleted rats. METHODS: Cells were loaded with 36Cl- and forskolin-stimulated efflux was determined. RT-PCR was performed for CFTR mRNA transcripts and ENaC alpha- and beta-subunit mRNA. Duodenal epithelial cell response to VIP was assessed by measuring intracellular cAMP. RESULTS: Forskolin-stimulated Cl- efflux occurred with decreasing magnitude in duodenal crypt, duodenal villus, colonic crypt and colonic surface cells in Na(+)-depleted animals. CFTR expression was correlated directly with Cl- efflux (r=0.91, P<0.01). Na+ channel alpha-subunit was expressed in colon and duodenum in animals fed diets with a high or low sodium content. While the beta-subunit mRNA was detected in the colon of sodium-restricted rats, it was absent in the duodenum under control conditions and after Na+ restriction. There was an inverse correlation between mRNA transcripts for CFTR and the ENaC alpha-subunit (r=-0.93, P<0.003) and beta-subunit (r=-0.91, P<0.004) in colon. VIP-stimulated cAMP in duodenal epithelial cells was greater in crypt than villus (P<0.05). CONCLUSION: Cl- efflux, CFTR transcription and forskolin-stimulated cAMP activity occur in both crypt and villus epithelial cells in duodenum. Possible interaction between CFTR and Na+ channels is apparently limited to parts of the colonic crypt. Lack of duodenal beta-subunit expression makes ENaC activity unlikely.
AIM: We compared the distribution and putative association of Cl- channel transport, CFTR mRNA transcripts, and Na+ channel (ENaC) alpha- and beta-subunit mRNA transcripts in villus and crypt epithelial cells of duodenum, with corresponding surface and crypt cells of colon from sodium-depleted rats. METHODS: Cells were loaded with 36Cl- and forskolin-stimulated efflux was determined. RT-PCR was performed for CFTR mRNA transcripts and ENaC alpha- and beta-subunit mRNA. Duodenal epithelial cell response to VIP was assessed by measuring intracellular cAMP. RESULTS:Forskolin-stimulated Cl- efflux occurred with decreasing magnitude in duodenal crypt, duodenal villus, colonic crypt and colonic surface cells in Na(+)-depleted animals. CFTR expression was correlated directly with Cl- efflux (r=0.91, P<0.01). Na+ channel alpha-subunit was expressed in colon and duodenum in animals fed diets with a high or low sodium content. While the beta-subunit mRNA was detected in the colon of sodium-restricted rats, it was absent in the duodenum under control conditions and after Na+ restriction. There was an inverse correlation between mRNA transcripts for CFTR and the ENaC alpha-subunit (r=-0.93, P<0.003) and beta-subunit (r=-0.91, P<0.004) in colon. VIP-stimulated cAMP in duodenal epithelial cells was greater in crypt than villus (P<0.05). CONCLUSION: Cl- efflux, CFTR transcription and forskolin-stimulated cAMP activity occur in both crypt and villus epithelial cells in duodenum. Possible interaction between CFTR and Na+ channels is apparently limited to parts of the colonic crypt. Lack of duodenal beta-subunit expression makes ENaC activity unlikely.
Authors: David A Stoltz; Tatiana Rokhlina; Sarah E Ernst; Alejandro A Pezzulo; Lynda S Ostedgaard; Philip H Karp; Melissa S Samuel; Leah R Reznikov; Michael V Rector; Nicholas D Gansemer; Drake C Bouzek; Mahmoud H Abou Alaiwa; Mark J Hoegger; Paula S Ludwig; Peter J Taft; Tanner J Wallen; Christine Wohlford-Lenane; James D McMenimen; Jeng-Haur Chen; Katrina L Bogan; Ryan J Adam; Emma E Hornick; George A Nelson; Eric A Hoffman; Eugene H Chang; Joseph Zabner; Paul B McCray; Randall S Prather; David K Meyerholz; Michael J Welsh Journal: J Clin Invest Date: 2013-05-08 Impact factor: 14.808