The odorant-induced Ca2+ increase inside the cilia of vertebrate olfactory sensory neurons controls both excitation and adaptation. The increase in the internal concentration of Ca2+ in the cilia has recently been visualized directly and has been attributed to Ca2+ entry through cAMP-gated channels. These recent results have made it possible to further characterize Ca2+'s activities in olfactory neurons. Ca2+ exerts its excitatory role by directly activating Cl-channels. Given the unusually high concentration of ciliary Cl-, Ca2+'s activation of Cl- channels causes an efflux of Cl-from the cilia, contributing high-gain and low-noise amplification to the olfactory neuron depolarization, Moreover, in combination with calmodulin, Ca2+ mediates odorant adaptation by desensitizing cAM P-gated channels. The restoration of the Ca2+ concentration to basal levels occurs via a Na+/Ca2+ exchanger, which extrudes Ca2+ from the olfactory cilia.
Calcium signalling and regulation in olfactory neurons / Menini, Anna. - In: CURRENT OPINION IN NEUROBIOLOGY. - ISSN 0959-4388. - 9:4(1999), pp. 419-426. [10.1016/S0959-4388(99)80063-4]
Calcium signalling and regulation in olfactory neurons
Menini, Anna
1999-01-01
Abstract
The odorant-induced Ca2+ increase inside the cilia of vertebrate olfactory sensory neurons controls both excitation and adaptation. The increase in the internal concentration of Ca2+ in the cilia has recently been visualized directly and has been attributed to Ca2+ entry through cAMP-gated channels. These recent results have made it possible to further characterize Ca2+'s activities in olfactory neurons. Ca2+ exerts its excitatory role by directly activating Cl-channels. Given the unusually high concentration of ciliary Cl-, Ca2+'s activation of Cl- channels causes an efflux of Cl-from the cilia, contributing high-gain and low-noise amplification to the olfactory neuron depolarization, Moreover, in combination with calmodulin, Ca2+ mediates odorant adaptation by desensitizing cAM P-gated channels. The restoration of the Ca2+ concentration to basal levels occurs via a Na+/Ca2+ exchanger, which extrudes Ca2+ from the olfactory cilia.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
