Mutation-induced reinforcement of prestin-expressing cells |
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Authors: | Shun Kumano |
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Affiliation: | a Department of Bioengineering and Robotics, Tohoku University, Sendai, Japan b Department of Biomedical Sciences, Creighton University, Omaha, NE, USA |
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Abstract: | The motor protein prestin in cochlear outer hair cells is a member of the solute carrier 26 family, but among the proteins of that family, only prestin can confer the cells with nonlinear capacitance (NLC) and motility. In the present study, to clarify contributions of unique amino acids of prestin, namely, Met-122, Met-225 and Thr-428, to the characteristics of prestin, mutations were introduced into those amino acids. As a result, NLC remained unchanged by both replacement of Met-122 by isoleucine and that of Thr-428 by leucine, suggesting that those amino acids were not important for the generation of NLC. Surprisingly, the replacement of Met-225 by glutamine statistically increased NLC as well as the motility of prestin-expressing cells without an increase in the amount of prestin expression in the plasma membrane. This indicates that Met-225 in prestin somehow adjusts NLC and the motility of prestin-expressing cells. |
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Keywords: | NLC, nonlinear capacitance OHCs, outer hair cells SLC26, solute carrier 26 WT, wild-type prestin FBS, fetal bovine serum WGA, wheat germ agglutinin DBcGMP, N2,2&prime -O-dibutyrylguansine 3&prime ,5&prime -cyclic monophosphate sodium salt hydrate |
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