Steven Duffy scite author profile

A number of calcium buffers were examined for their ability to reduce evoked transmitter release when injected into the presynaptic terminal of the squid giant synapse. Injection of EGTA was virtually ineffective at reducing transmitter release, even at estimated intracellular concentrations up to 80 mM. Conversely, the buffer 1,2-bis(2- aminophenoxy)ethane-N,N,N′,N′-tetraacetic acid (BAPTA), which has an equilibrium affinity for calcium similar to that of EGTA at pH 7.2, produced a substantial reduction in transmitter release when injected presynaptically. This effect of BAPTA was reversible, presumably because the buffer diffused out of the terminal and into uninjected regions of the presynaptic axon. BAPTA derivatives with estimated intracellular calcium dissociation constants (Kd) ranging from 0.18 to 4.9 microM were effective at reducing transmitter release at similar estimated concentrations. A BAPTA derivative with an estimated intracellular Kd of 31 mM was less effective. BAPTA did not affect presynaptic action potentials or calcium spikes in ways that could explain its ability to reduce transmitter release. The relative effects of presynaptic injections of BAPTA and derivatives are consistent with the calcium-buffering capability of these compounds if the presynaptic calcium transient that triggers release is hundreds of microM or larger. The superior potency of BAPTA compared to EGTA apparently results from the faster calcium-binding kinetics of BAPTA and suggests that the calcium-binding molecule that triggers release binds calcium in considerably less than 200 microsec and is located very close to calcium channels.

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Environmental Enrichment Modifies the PKA-Dependence of Hippocampal LTP and Improves Hippocampus-Dependent Memory

Duffy

Craddock²,

Abel³

et al. 2001

Learn. Mem.

300

211

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cAMP-dependent protein kinase (PKA) is critical for the expression of some forms of long-term potentiation (LTP) in area CA1 of the mouse hippocampus and for hippocampus-dependent memory. Exposure to spatially enriched environments can modify LTP and improve behavioral memory in rodents, but the molecular bases for the enhanced memory performance seen in enriched animals are undefined. We tested the hypothesis that exposure to a spatially enriched environment may alter the PKA dependence of hippocampal LTP. Hippocampal slices from enriched mice showed enhanced LTP following a single burst of 100-Hz stimulation in the Schaffer collateral pathway of area CA1. In slices from nonenriched mice, this single-burst form of LTP was less robust and was unaffected by Rp-cAMPS, an inhibitor of PKA. In contrast, the enhanced LTP in enriched mice was attenuated by Rp-cAMPS. Enriched slices expressed greater forskolin-induced, cAMP-dependent synaptic facilitation than did slices from nonenriched mice. Enriched mice showed improved memory for contextual fear conditioning, whereas memory for cued fear conditioning was unaffected following enrichment. Our data indicate that exposure of mice to spatial enrichment alters the PKA dependence of LTP and enhances one type of hippocampus-dependent memory. Environmental enrichment can transform the pharmacological profile of hippocampal LTP, possibly by altering the threshold for activity-dependent recruitment of the cAMP-PKA signaling pathway following electrical and chemical stimulation. We suggest that experience-dependent plasticity of the PKA dependence of hippocampal LTP may be important for regulating the efficacy of hippocampus-based memory.

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Mutation I810N in the α3 isoform of Na ⁺ ,K ⁺ -ATPase causes impairments in the sodium pump and hyperexcitability in the CNS

Clapcote

Duffy

Xie

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

135

170

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In a mouse mutagenesis screen, we isolated a mutant, Myshkin (Myk), with autosomal dominant complex partial and secondarily generalized seizures, a greatly reduced threshold for hippocampal seizures in vitro, posttetanic hyperexcitability of the CA3-CA1 hippocampal pathway, and neuronal degeneration in the hippocampus. Positional cloning and functional analysis revealed that Myk/؉ mice carry a mutation (I810N) which renders the normally expressed Na ؉ ,K ؉ -ATPase ␣3 isoform inactive. Total Na ؉ ,K ؉ -ATPase activity was reduced by 42% in Myk/؉ brain. The epilepsy in Myk/؉ mice and in vitro hyperexcitability could be prevented by delivery of additional copies of wild-type Na ؉ ,K ؉ -ATPase ␣3 by transgenesis, which also rescued Na ؉ ,K ؉ -ATPase activity. Our findings reveal the functional significance of the Na ؉ ,K ؉ -ATPase ␣3 isoform in the control of epileptiform activity and seizure behavior.alpha3 Na ϩ ,K ϩ ATPase ͉ BAC rescue ͉ epilepsy ͉ forward genetic screen ͉ mouse

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Mania-like behavior induced by genetic dysfunction of the neuron-specific Na ⁺ ,K ⁺ -ATPase α3 sodium pump

Kirshenbaum

Clapcote

Duffy

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

134

138

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Steven Duffy

Alien intracellular calcium chelators attenuate neurotransmitter release at the squid giant synapse

Environmental Enrichment Modifies the PKA-Dependence of Hippocampal LTP and Improves Hippocampus-Dependent Memory

Mutation I810N in the α3 isoform of Na ⁺ ,K ⁺ -ATPase causes impairments in the sodium pump and hyperexcitability in the CNS

Mania-like behavior induced by genetic dysfunction of the neuron-specific Na ⁺ ,K ⁺ -ATPase α3 sodium pump

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Steven Duffy

Alien intracellular calcium chelators attenuate neurotransmitter release at the squid giant synapse

Environmental Enrichment Modifies the PKA-Dependence of Hippocampal LTP and Improves Hippocampus-Dependent Memory

Mutation I810N in the α3 isoform of Na + ,K + -ATPase causes impairments in the sodium pump and hyperexcitability in the CNS

Mania-like behavior induced by genetic dysfunction of the neuron-specific Na + ,K + -ATPase α3 sodium pump

Contact Info

Product

Resources

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Mutation I810N in the α3 isoform of Na ⁺ ,K ⁺ -ATPase causes impairments in the sodium pump and hyperexcitability in the CNS

Mania-like behavior induced by genetic dysfunction of the neuron-specific Na ⁺ ,K ⁺ -ATPase α3 sodium pump