Abstract
Cystic fibrosis is a major inherited disorder involving abnormalities of fluid and electrolyte transport in a number of different organs. Epithelial cells of cystic fibrosis patients have a decreased capacity to secrete chloride in response to cAMP-mobilizing agents because of the mutation of a single gene. The gene product, the cystic fibrosis transmembrane conductance regulator or CFTR, is a chloride channel. The most frequent mutation is a deletion of phenylalanine in position 508 (delta F508-CFTR) that reduces both the expression of the CFTR protein at the cell surface, and the activity of the Cl- channel. This work presents the properties of NS004, a substituted benzimidazolone, which is the first activator of normal and mutant CFTR-associated chloride channels to be described. NS004 activated CFTR and delta F508-CFTR Cl- channels expressed in Xenopus oocytes, and increased 125I efflux (via the Cl- channel) from Vero cells expressing CFTR and delta F508-CFTR. Application of NS004 to the external side of outside-out patches excised from these CFTR- and delta F508-CFTR-expressing cells induced a marked and reversible increase in channel activity.
Highlights
CF, the expression and activitoyf the CAMP-activated C1- channelisreduced(Refs. 9-11, but see Ref. 12)
Effective concentrations of NS004 (10-30 p)produced current that was between 30 an6d0%of the maximal current produced by CAMP(n = 12), and the activation was fully and rapidly a
NS004 linear I-V relationship (Fig. 4, a and b ), and they displayed produced a small but consistent increase in 125e1fflux when run-downbehaviorfromone to several minutes after patch applied to cells expressing AF508-CFTR (Fig. 2c)
Summary
CF, the expression and activitoyf the CAMP-activated C1- channelisreduced(Refs. 9-11, but see Ref. 12). The cysticfibrosistransmembraneconductanceregulator cells stimulated with 1PMforskolin, and the membrane potential was (CFTR)’ is a small conductance CAMP-regulated C1- channel [1,2,3] that is the product of the gene responsible, in many mutated forms, forthe symptomatology associated withCF
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