Calcium mediates the activation of the inhibitory current induced by odorants in toad olfactory receptor neurons

Morales, Bernardo; Madrid, Rodolfo; Bacigalupo, Juan

doi:10.1016/s0014-5793(97)00005-7

Cited by 31 publications

(17 citation statements)

References 29 publications

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“…It should be noted that a small percentage of ORNs both in amphibians and rodents sometimes exhibit inhibitory odor responses (Duchamp-Viret et al 1999;Morales et al 1997). Such inhibitory responses were also seen infrequently in our experiments (unpublished observations).…”

Section: Discussionsupporting

confidence: 66%

Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction

Zufall

Leinders‐Zufall

Greer

2000

Journal of Neurophysiology

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release does not seem to be necessary for generation of an immediate electrophysiological response, nor does it contribute significantly to the Ca 2ϩ transients in the olfactory cilia. Rather, it is important for amplifying the magnitude and duration of Ca 2ϩ transients in the dendrite and soma and is thus necessary for the spread of an odorinduced Ca 2ϩ wave from the cilia to the soma. We show that this amplification process depends on Ca 2ϩ -induced Ca 2ϩ release. The results indicate that stimulation of ORNs with odorants can produce Ca 2ϩ mobilization from intracellular stores without an immediate effect on the receptor potential. Odor-induced, store-dependent Ca 2ϩ mobilization may be part of a feedback pathway by which information is transferred from the distal dendrite of an ORN to its soma.

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Section: Discussionsupporting

confidence: 66%

Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction

Zufall

Leinders‐Zufall

Greer

2000

Journal of Neurophysiology

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“…The Ca 2+ passing through these channels in turn activates Ca 2+ -activated Cl -channels, which amplifies depolarization in ORNs (21) 2+ channels have been shown to be primarily present on the soma and the proximal dendrite (31). It has been reported that a high concentration of nifedipine (20 mM) inhibited the Ca 2+ signals in response to odorants (22). However, several Ca 2+ channel inhibitors including nifedipine at high concentrations are reported to inhibit nucleotide-gated channels as well (23,24).…”

Section: +mentioning

confidence: 99%

Characterization of Forskolin-Induced Ca2+ Signals in Rat Olfactory Receptor Neurons

Otsuguro

Gautam

et al. 2005

J Pharmacol Sci

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“…However, studies with gene-targeted mice deficient for adenylyl cyclase III, the CNGA2 subunit of the CNG channel and G olf (Belluscio et al 1998;Brunet et al 1996;Wong et al 2000) have called into question the validity of the results of the biochemical experiment within the context of intact OSNs. Indeed, subsequent publications from the group of Bacigalupo do not make specific claims on the identity of the second messenger involved in inhibitory odorant responses (Morales et al 1997;Sanhueza et al 2000).…”

Section: Camp-gated Opening Of the Cng Channel Mediates Both Depolarimentioning

confidence: 99%

Odorant Responses of Dual Polarity Are Mediated by cAMP in Mouse Olfactory Sensory Neurons

Delay¹,

Restrepo²

2004

Journal of Neurophysiology

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Some olfactory sensory neurons (OSNs) respond to odors with hyperpolarization. Although transduction for excitatory responses is mediated by opening of a cyclic nucleotide-gated (CNG) channel, there is controversy on the mechanism underlying inhibitory responses. We find that mouse OSNs respond to odorants by either depolarizing or hyperpolarizing responses in loose-patch measurements. In the perforated-patch configuration, OSNs not only responded with a current consistent with CNG channel-mediated excitation but also displayed enhancement of outward currents, consistent with inhibitory responses. Increasing cAMP levels pharmacologically elicited excitatory or inhibitory responses in different OSNs. In addition, OSNs from mice defective for the CNGA2 subunit of the CNG channel displayed neither excitatory nor inhibitory responses. Thus CNG channels mediate inhibitory olfactory responses.

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Calcium mediates the activation of the inhibitory current induced by odorants in toad olfactory receptor neurons

Cited by 31 publications

References 29 publications

Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction

Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction

Characterization of Forskolin-Induced Ca2+ Signals in Rat Olfactory Receptor Neurons

Odorant Responses of Dual Polarity Are Mediated by cAMP in Mouse Olfactory Sensory Neurons

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Calcium mediates the activation of the inhibitory current induced by odorants in toad olfactory receptor neurons

Cited by 31 publications

References 29 publications

Amplification of Odor-Induced Ca2+ Transients by Store-Operated Ca2+ Release and Its Role in Olfactory Signal Transduction

Amplification of Odor-Induced Ca2+ Transients by Store-Operated Ca2+ Release and Its Role in Olfactory Signal Transduction

Characterization of Forskolin-Induced Ca2+ Signals in Rat Olfactory Receptor Neurons

Odorant Responses of Dual Polarity Are Mediated by cAMP in Mouse Olfactory Sensory Neurons

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Product

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Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction

Amplification of Odor-Induced Ca²⁺ Transients by Store-Operated Ca²⁺ Release and Its Role in Olfactory Signal Transduction