Motile responses of isolated guinea pig vestibular hair cells.

Vestibular hair cells were isolated from the guinea pig vestibule by a micromechanical non-enzymatic procedure. Perfusion with 125 mM K+ solution induced irreversible slow shortening of the necks in 42.8% of the hair cells tested. Mechanical stimulation, creating a displacement of the hair bundle towards the kinocilium, induced either irreversible coiling or tilting of the neck of the cells, or reversible fast tilting of the cuticular plate (44.5% of tested cells). The response to the Ca2+ antagonist, Flunarizine, suggested that these movements were calcium-dependent. We propose several explanations of the physiological role of these mechanisms and discuss the possibility that fast tilting of the cuticular plate is a physiological movement involving the hair cells at the periphery of the vestibular receptors. The regulation of the vestibular message at the apex of type I hair cells is also considered.