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Store-Operated Ca 2+ Channels Contribute to the Generation of Ca 2+ Waves in Interdental Cells in the Cochleae.

Qiang MaJianning ZhangWeidong QiZhuangzhuang LiYumeng JiangMiao ZhangHao HeKaiming SuHaibo Shi
Published in: ACS chemical neuroscience (2023)
Cochlear calcium (Ca 2+ ) waves are vital regulators of the cochlear development and establishment of hearing function. Inner supporting cells are believed to be the main region generating Ca 2+ waves that work as internal stimuli to coordinate the development of hair cells and the mapping of neurons in the cochlea. However, Ca 2+ waves in interdental cells (IDCs) that connect to inner supporting cells and spiral ganglion neurons are rarely observed and poorly understood. Herein, we reported the mechanism of IDC Ca 2+ wave formation and propagation by developing a single-cell Ca 2+ excitation technology, which can easily be accomplished using a two-photon microscope for simultaneous microscopy and femtosecond laser Ca 2+ excitation in any target individual cell in fresh cochlear tissues. We demonstrated that the store-operated Ca 2+ channels in IDCs are responsible for Ca 2+ wave formation in these cells. The specific architecture of the IDCs determines the propagation of Ca 2+ waves. Our results provide the mechanism of Ca 2+ formation in IDCs and a controllable, precise, and noninvasive technology to excite local Ca 2+ waves in the cochlea, with good potential for research on cochlear Ca 2+ and hearing functions.
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