Murine CFTR Channel and its Role in Regulatory Volume Decrease of Small Intestine Crypts
2000; Karger Publishers; Volume: 10; Issue: 5-6 Linguagem: Inglês
10.1159/000016365
ISSN1421-9778
AutoresMiguel A. Valverde, Esther Vázquez, Francisco J. Muñoz, Muriel Nobles, Stephen J. Delaney, Brandon J. Wainwright, William H Colledge, David N. Sheppard,
Tópico(s)Ion Transport and Channel Regulation
ResumoCystic fibrosis (CF) is caused by mutations in the secretory Cl- channel CFTR (cystic fibrosis transmembrane conductance regulator). Variation in the severity of disease has been attributed to mutations in the CFTR gene that cause different degrees of dysfunction of the CFTR Cl- channel. However, studies of mouse models of CF indicate that the severity of intestinal pathology is not correlated with activity of the CFTR chloride channel. This observation suggests that other 'environmental' factors might be important in determining the severity of disease. In this respect, we have identified and characterised an additional cellular defect in intestinal epithelial cells of CF mice, the inability of these cells to regulate their volume after hypotonic challenge. Here, we review the function of murine CFTR as both a Cl- channel and as a regulator of volume-dependent homeostatic cell mechanisms.
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