Optical illustration of glutamate-induced cell swelling coupled with membrane depolarization in embryonic brain stem slices.

Using intrinsic- and voltage-sensitive dye optical recordings, we have elucidated coupling of glutamate-induced depolarization and neuronal swelling in early embryonic chick brain stem slices. Twenty-four slices were prepared from 8-day old chick embryos, and stained with a voltage-sensitive merocyanine-rhodanine dye (NK2761). The pressure ejection of glutamate to one site within the preparation evoked changes in transmitted light intensity. With 700 nm incident light, three components were identified in glutamate-induced optical changes. The first component was wavelength dependent, while the second and third components were independent of the wavelength. With reference to the action spectrum of the merocyanine-rhodanine dye and osmotic changes in optical properties, we concluded that the first component reflects glutamate-induced depolarization of the membrane, and that the second component is an intrinsic light-scattering change resulting from neural cell swelling coupled with the membrane depolarization.