Variability of calcium responses to agonists of glutamate receptors in hippocampal neurons

Abstract

The subject of this work was to study the reasons of the variability of the calcium response amplitudes in individual neurons of the hippocampal cell culture to agonists of ionotropic glutamate receptors and the regularities of the calcium response amplitude distribution. Changes of [Ca2+] i in the neurons in response to the NMDA-, AMPA-, and KA-receptor agonists were recorded using fluorescence probe Fura-2. The calcium response amplitudes (expressed as the ratio of fluorescence intensities of Fura-2 upon excitation at wave-lengths 340 and 380 nm) to short-term application of glutamate receptor agonists N-methyl-D-aspartate (NMDA), domoic acid (DA), α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA), and (S)-(−)-5-fluorowillardiine (FW) were measured. Calcium responses of individual cells differed in shape and amplitude but always reproduced upon the second application of the agonist. To elucidate the nature of calcium response variability, we compared distributions of calcium response amplitudes to the NMDA-, KA-, and AMPA-receptor agonists in cultures of various ages in the presence of receptor desensitization inhibitors and different agonist concentrations. An even increase from 0.05 to 1.6 was characteristic for distributions of calcium response amplitudes. Nevertheless, in 1–3% neurons of the cell culture, calcium response amplitudes reached much higher values. The efficiency of the ligands usually increased in the following order: FW ≈ NMDA > DA. However, this regularity varied with age and depended on the presence of the receptor desensitization inhibitor. In the process of growth and differentiation of neurons in culture from 1 to 14 day in vitro, calcium response amplitude to AMPA- and KA-receptor agonists increased. Desensitization inhibitors transformed the response from pulse-like with a sharp peak into stepwise and increased the amplitude of calcium responses but did not abolish the character of even amplitude distribution. The effect of AMPA- and KA-receptor desensitization inhibitor decreased with calcium response amplitude growth in the control and approached zero in neurons with initially maximal amplitude. KA- and AMPA-receptor agonists at high concentrations possessed a property of desensitization inhibitors and transformed a transient response into a continuous one that lasted throughout the application time. Thus, the amplitude and shape of the calcium response to glutamate receptor agonists is a characteristic parameter of an individual cell.