Abstract
The present study characterizes the effects of Aβ31–35, a short active fragment of amyloid β-peptide (Aβ), upon the BK channel-mediated K+ current and intracellular free Ca2+ concentration ([Ca2+]i) of freshly dissociated pyramidal cells from rat CA1 hippocampus by using whole-cell patch-clamp recording and single cell Ca2+ imaging techniques. The results show that: (1) in the presence of voltage- and ATP-gated K+ channel blockers application of 5.0μM Aβ31–35 significantly diminished transient outward K+ current amplitudes at clamped voltages between 0 and 45mV; (2) under the same conditions [Ca2+]i was minimally affected by 5.0μM but significantly increased by 12.5μM and 25μM Aβ31–35; and (3) when 25μM of a larger fragment of the amyloid β-peptide, Aβ25–35, was applied, the results were similar to those obtained with the same concentration of Aβ31–35. These results indicate that Aβ31–35 is likely to be the shortest active fragment of the full Aβ sequence, and can be as effectively as the full-length Aβ peptide in suppressing BK-channel mediated K+ currents and significantly elevating [Ca2+]i in hippocampal CA1 neurons.
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