Jun-Ichiro Oka scite author profile

Accumulating evidence shows that hydrogen sulfide (H2S) has a variety of physiological functions. H2S is produced from cysteine by 3 sulfurtransferases. H2S, in turn, generates polysulfides, the functions of which are not well understood. H2S induces Ca(2+) influx in astrocytes, a type of glia. However, the receptor that mediates the response has not been identified. Here, we have shown that polysulfides induce Ca(2+) influx by activating transient receptor potential (TRP)A1 channels in rat astrocytes (EC50 91 nM, Hill coefficient value 1.77±0.26) and that the maximum response was induced at 0.5 μM, which is 1/320 of the concentration of H2S required to achieve a response of similar magnitude (160 μM, EC50 116 μM). TRPA1-selective agonists, allyl isothiocyanate and cinnamaldehyde, induced Ca(2+) influx, and responses to polysulfides were suppressed by TRPA1-selective inhibitors, HC-030031 and AP-18, as well as by siRNAs selective to TRPA1. The present study suggests that polysulfides are possible H2S-derived signaling molecules that stimulate TRP channels in the brain.

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Docosahexaenoic acid provides protection from impairment of learning ability in Alzheimer's disease model rats

Hashimoto¹,

Hossain

Shimada

et al. 2002

Journal of Neurochemistry

329

269

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Docosahexaenoic acid (C22:6, n-3), a major n-3 fatty acid of the brain, has been implicated in restoration and enhancement of memory-related functions. Because Alzheimer's disease impairs memory, and infusion of amyloid-b (Ab) peptide (1-40) into the rat cerebral ventricle reduces learning ability, we investigated the effect of dietary pre-administration of docosahexaenoic acid on avoidance learning ability in Ab peptide-produced Alzheimer's disease model rats. After a mini-osmotic pump filled with Ab peptide or vehicle was implanted in docosahexaenoic acid-fed and control rats, they were subjected to an active avoidance task in a shuttle avoidance system apparatus. Pre-administration of docosahexaenoic acid had a profoundly beneficial effect on the decline in avoidance learning ability in the Alzheimer's disease model rats, associated with an increase in the cortico-hippocampal docosahexaenoic acid/arachidonic acid molar ratio, and a decrease in neuronal apoptotic products. Docosahexaenoic acid pre-administration furthermore increased cortico-hippocampal reduced glutathione levels and glutathione reductase activity, and suppressed the increase in lipid peroxide and reactive oxygen species levels in the cerebral cortex and hippocampus of the Alzheimer's disease model rats, suggesting an increase in antioxidative defence. Docosahexaenoic acid is thus a possible prophylactic means for preventing the learning deficiencies of Alzheimer's disease.

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Hydrogen sulfide induces calcium waves in astrocytes

et al. 2004

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Hydrogen sulfide (H2S) modifies hippocampal long-term potentiation (LTP) and functions as a neuromodulator. Here, we show that H2S increases intracellular Ca2+ and induces Ca2+ waves in primary cultures of astrocytes as well as hippocampal slices. H2S increases the influx of Ca2+ and to a lesser extent causes the release from intracellular Ca2+ stores. Ca2+ waves induced by neuronal excitation as well as responses to exogenously applied H2S are potently blocked by La3+ and Gd3+, inhibitors of Ca2+ channels. These observations suggest that H2S induces Ca2+ waves that propagate to neighboring astrocytes.

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Glucagon-like peptide-1 inhibits LPS-induced IL-1β production in cultured rat astrocytes

Iwai

Ito

Tanimitsu

et al. 2006

Neuroscience Research

190

134

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Polysulfide activates TRP channels and increases intracellular Ca2+ in astrocytes

Oosumi¹,

Tsugane²,

Ishigami³

et al. 2010

Neuroscience Research

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Jun-Ichiro Oka

Polysulfides are possible H ₂ S‐derived signaling molecules in rat brain

Docosahexaenoic acid provides protection from impairment of learning ability in Alzheimer's disease model rats

Hydrogen sulfide induces calcium waves in astrocytes

Glucagon-like peptide-1 inhibits LPS-induced IL-1β production in cultured rat astrocytes

Polysulfide activates TRP channels and increases intracellular Ca2+ in astrocytes

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Jun-Ichiro Oka

Polysulfides are possible H 2 S‐derived signaling molecules in rat brain

Docosahexaenoic acid provides protection from impairment of learning ability in Alzheimer's disease model rats

Hydrogen sulfide induces calcium waves in astrocytes

Glucagon-like peptide-1 inhibits LPS-induced IL-1β production in cultured rat astrocytes

Polysulfide activates TRP channels and increases intracellular Ca2+ in astrocytes

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Product

Resources

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Polysulfides are possible H ₂ S‐derived signaling molecules in rat brain