Abstract

A two-wave technique of calciometry with the use of a fluorescence dye, fura-2/AM, was applied for examination of the effect of a protein, β-amyloid (the main component of senile plaques in Alzheimer’s disease), on calcium homeostasis in cultured neurons of the rat hippocampus; β-amyloid was added to the culture medium. In most neurons, the effect of β-amyloid appeared as a more than twofold increase in the basic calcium concentration, as compared with the control (153.4 ± 11.5 and 71.7 ± 5.4 nM, respectively; P < 0.05). The characteristics of calcium transients induced by application of hyperpotassium solution also changed; the amplitude of these transients decreased, and the duration of a part corresponding to calcium release from the cell (rundown of the transient) increased. The mean amplitude of calcium transients under control conditions was 447.5 ± 20.1 nM, while after incubation in the presence of β-amyloid this index dropped to 278.4 ± 22.6 nM. Under control conditions, the decline phase of calcium transients lasted, on average, 100 ± 6 sec, while after incubation of hippocampal cell cultures in the presence of β-amyloid this phase lasted 250 ± 10 sec. Therefore, an excess of β-amyloid influences significantly calcium homeostasis in the nerve cells by disturbing functions of the calcium-controlling systems, such as voltage-operated calcium channels of the plasma membrane and calcium stores of the mitochondria and endoplasmic reticulum.

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