salicylates and Goiter--Nodular

Pendred syndrome is the most common form of syndromic deafness. It is associated with a mutation in the SLC26A4 gene that encodes pendrin, which is thought to maintain the ion concentration of endolymph in the inner ear most likely by acting as a chloride/bicarbonate transporter. Mutations in the SLC26A4 gene are responsible for sensorineural hearing loss. In this study, we established a stable HEK293 cell line expressing P123S mutant pendrin and developed screening methods for compounds that show pharmacological chaperone activity by image analysis using CellInsight™. Morphological analysis of stained cells in each well of 96-well plates yielded six compounds in the compound library. Furthermore, fluorescence intensity analysis of the intracellular localization of P123S mutant pendrin in HEK293 cells using FLUOVIEW™ and cytotoxicity experiments revealed that (2-aminophenyl)methanol 8 is the most promising molecular chaperone to rescue P123S mutant pendrin: the plasma membrane (M)/cytoplasm (C) ratios are 1.5 and 0.9 at the concentrations of 0.3 and 0.1mM, respectively, and a sustained effect was observed 12h after removal of the compound from the cell medium. Because the M/C ratio of salicylate, which was previously discovered as a molecular chaperone of P123S mutant pendrin, was approximately 1 at 10mM concentration and a sustained effect was not observed even at 6h, (2-aminophenyl)methanol 8 was 100 times more potent and exhibited a longer sustained effect than salicylate. These findings suggest that (2-aminophenyl)methanol 8 is an attractive candidate for therapeutic agent for Pendred syndrome patients.

Topics: Amino Acid Substitution; Benzyl Alcohols; Cell Membrane; Goiter, Nodular; Hearing Loss, Sensorineural; HEK293 Cells; Humans; Membrane Transport Proteins; Microscopy, Fluorescence; Salicylates; Sulfate Transporters