Rapid declines in cyclic GMP of rod outer segments of intact frog photoreceptors after illumination.

Considerable disagreement has resulted from experiments designed to test whether light-induced falls in cGMP in outer segment (OS) of photoreceptors precede their light-induced electrical responses. Different studies have reported initial declines at 50 ms, at s, or not at all for physiological stimuli. Such studies have employed whole retinas, isolated rod OS, or isolated rod OS with attached inner segments and involved a variety of techniques. We developed an apparatus that illuminates intact pieces of dark-adapted frog retinas at 22 degrees C for known brief durations and then rapidly (47 ms) presses their OS surface against a copper mirror cooled by liquid helium. Freezing occurs in less than 2 ms. Cyclic GMP was then assayed in cryostat sections of the OS layer. Six illumination intensities that bleached from 90 to 9 X 10(8) rhodopsin molecules per s were delivered for durations of 0.1-2 s. Compared to dark-adapted values, progressive losses of cGMP were seen with all illumination intensities. Because a significant loss in cGMP was seen after a 100 ms exposure to our dimmest stimulus, it appears that a loss of cGMP could play a role in rod visual transduction.