Shun Kumano scite author profile

The high sensitivity of mammalian hearing is achieved by amplification of the motion of the cochlear partition. This cochlear amplification is thought to be generated by the elongation and contraction of outer hair cells (OHCs) in response to acoustical stimulation. This motility is made possible by a membrane protein embedded in the lateral membrane of OHCs. Although a fructose transporter, GLUT-5, was initially proposed to be this protein, a later study identified the gene of the motor protein distributed throughout the OHC plasma membrane. This protein has been named Bprestin.^However, although previous morphological studies by electron microscopy and atomic force microscopy (AFM) found the lateral wall of OHCs to be covered with 10-nm particles, believed to be motor proteins, it is unknown whether such particles consist only of prestin or are a complex of GLUT-5 and prestin molecules. To determine if the 10-nm particles are indeed constituted only of prestin, plasma membranes of prestin-transfected and untransfected Chinese hamster ovary (CHO) cells, which do not express GLUT-5, were observed by AFM. First, the cells attached to a substrate were sonicated so that only the plasma membrane remained on the substrate. The cytoplasmic face of the cell was observed by the tapping mode of the AFM in liquid. As a result, particle-like structures were recognized on the plasma membranes of both the prestintransfected and untransfected CHO cells. Comparison of the difference in the frequency distribution of these structures between those two cells showed approximately 75% of the particle-like structures with a diameter of 8-12 nm in the prestin-transfected CHO cells to be possibly constituted only by prestin molecules. Our data suggest that the densely packed 10-nm particles observed on the OHC lateral wall are likely to be constituted only of prestin molecules.

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Immune atomic force microscopy of prestin-transfected CHO cells using quantum dots

Murakoshi

Iida

Kumano

et al. 2008

Pflugers Arch - Eur J Physiol

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Prestin, a membrane protein of the outer hair cells (OHCs), is known to be the motor which drives OHC somatic electromotility. Electron microscopic studies showed the lateral membrane of the OHCs to be densely covered with 10-nm particles, they being believed to be a motor protein. Imaging by atomic force microscopy (AFM) of prestin-transfected Chinese hamster ovary (CHO) cells revealed 8- to 12-nm particle-like structures to possibly be prestin. However, since there are many kinds of intrinsic membrane proteins other than prestin in the plasma membranes of OHCs and CHO cells, it was impossible to clarify which structures observed in such membranes were prestin. In the present study, an experimental approach combining AFM with quantum dots (Qdots), used as topographic surface markers, was carried out to detect individual prestin molecules. The inside-out plasma membranes were isolated from the prestin-transfected and untransfected CHO cells. Such membranes were then incubated with antiprestin primary antibodies and Qdot-conjugated secondary antibodies. Fluorescence labeling of the prestin-transfected CHO cells but not of the untransfected CHO cells was confirmed. The membranes were subsequently scanned by AFM, and Qdots were clearly seen in the prestin-transfected CHO cells. Ring-like structures, each with four peaks and one valley at its center, were observed in the vicinity of the Qdots, suggesting that these structures are prestin expressed in the plasma membranes of the prestin-transfected CHO cells.

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Local mechanical properties of mouse outer hair cells: Atomic force microscopic study

et al. 2006

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Effects of Mutation in the Conserved GTSRH Sequence of the Motor Protein Prestin on Its Characteristics

Kumano

Iida

Murakoshi

et al. 2005

JSME Int. J., Ser. C

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Prestin is a motor protein responsible for the outer hair cell (OHC) electromotility which amplifies the vibration of the organ of Corti in the inner ear. Identification of the functional significance of particular amino acids is necessary to characterize prestin. In this study, an attempt was made to clarify the role of the GTSRH sequence at positions 127-131 in prestin conserved in six proteins of the solute carrier (SLC) 26 family of which prestin is a member. To elucidate what role that sequence plays in the characteristics of prestin, mutations were introduced into the sequence and the characteristics of the constructed point mutants were investigated by Western blotting, immunofluorescence experiments and the whole-cell patchclamp technique. The localization of T128A was altered, the anion transport function of H131A and that of S129T were lost and such functions of G127A, T128A, S129A and R130A declined. These results suggest that the GTSRH sequence plays an important role in the localization of prestin, as well as in its anion transport function.

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Shun Kumano

Salicylate restores transport function and anion exchanger activity of missense pendrin mutations

Imaging by Atomic Force Microscopy of the Plasma Membrane of Prestin-Transfected Chinese Hamster Ovary Cells

Immune atomic force microscopy of prestin-transfected CHO cells using quantum dots

Local mechanical properties of mouse outer hair cells: Atomic force microscopic study

Effects of Mutation in the Conserved GTSRH Sequence of the Motor Protein Prestin on Its Characteristics

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