Modulation by cyclic GMP of the odour sensitivity of vertebrate olfactory receptor cells

摘要

Recent evidence has indicated a significant role for the cGMP second messenger system in vertebrate olfactory transduction but no clear functions have been identified for cGMP so far. Here, we have examined the effects of 8-Br-cGMP and carbon monoxide(CO) on odour responses of salamander olfactory receptor neurons using perforated patch recordings. We report that 8-Br-cGMP strongly down-regulates the odour sensitivity of the cells, with a K_(1/2) of 460 nM. This adaptation-like effect can be mimicked by GO, an activator of soluble guanylyl cyclase, with a K_(1/2)i of IμM. Sensitivity modulation is achieved through a regulatory chain of events in which cGMP stimulates a persistent background current due to the activation of cyclic nucleotide-gatedchannels This in turn leads to sustained Ca~(2-+) entry providing a negative feedback signal. One consequence of the Ca~(2-+) entry is a shift to the right of the stimulus-response curve and a reduction in saturating odour currents. Together, these two effects can reduce the sensory generator current by up to twenty-fold. Thus, cGMP functions to control the gain of the G-piotein coupled cAMP pathway. Another consequence of the action of cGMP is a marked prolongation of the odour response kinetics The effects of CO/cGMP are long-lasting and can continue for minutes. Hence, we propose that cGMP helps to prevent saturation of the cell's response by adjusting the operational range of the cAMP cascade and contributes to olfactory adaptation by decreasing the sensitivity of olfactory receptor cells to repeated odour stimuli.