Mitsuyuki Ichinose scite author profile

Inositol 1,4,5-trisphosphate (InsP3) has been proposed to be the intracellular second messenger in the mobilization of Ca2+ from intracellular stores in a variety of cell types. The ionic mechanism of the effect of intracellularly injected InsP3 on the membrane of identified neurons (R9-R12) of Aplysia kurodai was investigated with conventional voltage-clamp, pressure-injection, and ion-substitution techniques. Brief pressure injection of InsP3 into a neuron voltage- clamped at -40 mV reproducibly induced an outward current (10–60 sec in duration, 20–60 nA in amplitude) associated with a conductance increase. The current was increased by depolarization and decreased by hyperpolarization up to -80 mV, where it disappeared. Extracellular application of tetraethylammonium (TEA; 5 mM) blocked the InsP3-induced outward current, and the current was not affected by the presence of bath-applied 4-aminopyridine (4-AP; 5 mM). The InsP3-induced outward current recorded at a holding potential of -40 mV increased in amplitude in low-K+ solutions and decreased in amplitude in high-K+ solutions. Alteration of [Cl-]0, as well as perfusion with Ca2+ free plus 2 mM EGTA solution, did not affect the outward current. The InsP3- induced outward current was found to disappear when the neuron was injected with the Ca2+ chelator EGTA. The outward current evoked by repeated InsP3 injection at low doses exhibited summation and facilitation and, at high doses, was shown to desensitize. The calmodulin inhibitor N-(6-amino-hexyl)-5-chloro-1-naphthalene sulfonamide (W-7; 20–50 microM), inhibited both the InsP3-induced and the Ca2+-activated outward currents. An intracellular pressure injection of Ca2+ ions into the same identified neuron was shown to produce an outward current associated with a K+ conductance increase similar to the InsP3-induced current, and the current was blocked by bath-applied TEA (5mM). These results suggest that brief pressure injection of InsP3 into certain identified neurons of Aplysia induces a 4-AP-resistant, TEA-sensitive K+ current activated by increased intracellular free Ca2+ concentration, and this increase might be the result of the mobilization of Ca2+ from intracellular stores by InsP3.

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Retention time of attenuated response to diacetyl after pre‐exposure to diacetyl in Caenorhabditis elegans

Matsuura¹,

Suzuki²,

Musashino³

et al. 2009

J. Exp. Zool.

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The retention time of attenuated chemotactic response to continuous presentation of odorant diacetyl was investigated in the nematode Caenorhabditis elegans. The level of chemotactic response of nematodes pre-exposed to diacetyl for 90 min was significantly smaller than that of nonexposed control nematodes. In this study, wild-type (N2) nematodes were maintained at 15, 20 and 25 degrees C after pre-exposure to diacetyl. At 20 degrees C, there was a decrease in response to diacetyl continuing for up to 6 hr after pre-exposure to the chemical, but not up to 12 hr. Interestingly, the decrease in response to diacetyl did not continue up to 2 hr in nematodes bred at 15 degrees C, although it continued beyond 12 hr in nematodes bred at 25 degrees C. These results indicate that the retention time of attenuated chemotactic response to diacetyl is dependent on the environmental breeding temperature of nematodes. The breeding temperature correlated with aging speed of nematodes, suggesting that a short life span (higher aging speed) prolongs the retention time of attenuated chemotactic response to diacetyl after pre-exposure to diacetyl. In the long-lived daf-2, age-1, clk-1 and isp-1 mutants, the effect of diacetyl did not continue up to 2 hr. The short-lived daf-16, daf-18, mev-1 and gas-1 mutants showed a longer duration of decrease in response to diacetyl, that is, the retention time of attenuated chemotactic response to diacetyl continued beyond 12 hr. There is a possibility that the duration of decrease in response to diacetyl after pre-exposure to diacetyl was inversely related to the length of nematodes' life span.

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Mitsuyuki Ichinose

Developmental changes in chemotactic response and choice of two attractants, sodium acetate and diacetyl, in the nematode Caenorhabditis elegans

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Ionic mechanism of the outward current induced by intracellular injection of inositol trisphosphate into Aplysia neurons

Retention time of attenuated response to diacetyl after pre‐exposure to diacetyl in Caenorhabditis elegans

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