Glutamate-induced potentiation of calcium influx in primary hippocampal culture neurons

ABSTRACT This works aim was to test whether LTP-like features can also be measured in cell culture and by methods that allow to analyse a alrger number of cells. A suitable method for this purpose is calcium imaging. The rationale for this approach lies in the fact that LTP/LTD are dependent on changes in intracellular calcium concentrations. Calcium levels have been measured using the calcium sensitive dye fura-2, whose fluorescence spectrum changes upon formation of the [fura-2-Ca2+] complex. Our LTP-inducing protocol comprised of two glutamate stimuli of identical size and duration (50 mM, 30 s) which were separated by 35 min. We could demonstrate that such a stimulation pattern gives rise to approx. 25% larger calcium influx at the second stimulus. It has been shown than such a stimulation pattern gives rise to an average of 25% augmentation (potentiation) of the second response, with 69% of potentiated cells. This experimental paradigm shows the pharmacological properties of LTP, established by previous electrophysiological studies:- blocking of NMDARs and mGluRs eliminates LTP induction;- blocking of AMPARs and L-type VGCCs does not eliminate LTP induction. Having obtained a system for induction and following of LTP-like changes, a preliminary application example was performed. Its purpose was to investigate possible influence of nicotine and galanthamine on our potentiation effect. Nicotine (100 mM) was shown both to increase and to eliminate glutamate-induced potentiation. Galanthamine coapplication (0.5 mM) with nicotine and glutamate exerted no effect on nicotinic modulation. However, galanthamine coapplied with glutamate alone seems to augment glutamate-induced potentiation. An LTP model system presented here could be additionally refined, by variation of glutamate application times, and testing for dependence on various forms of protein kinases. Galanthamine effect would probably be better addressed by cell-to-cell measurements instead of statistical approach, with subsequent identification of the cell type. Alternatively, combined calcium imaging – electrophysiological experiments could be performed. Spatial and temporal properties of intracellular ion dynamics could be utilised as diagnostic tools of the physiological state of the cells, thereby finding its application in functional proteomics.

Nanostructuring by templated synthesis of nanowires and controlled crystallization of calcium phosphate on self-assembled monolayers

The idea was to obtain nanowires in a chemical laboratory under convenient and simple conditions by employing templates. Thus it was possible to produce nanochains by interlinking of gold colloids synthesized by the two-phase-method of M. Brust with by making use of vanadiumoxide nanotubes as template. The length of the resulting nanowires is varying between 1100 nm and 200 nm with a diameter of about 16 nm. Due to a flexible linker the obtained nanowires are not completely rigid. These unique structural features could make them interesting objects for structuring and assembling in the nanoscale range. Another way to produce gold nanowires was realized by a two-step surface metallization procedure, using type I collagen fibres as a template. Gold colloids were used to label the collagen fibres by direct electrostatic interaction, followed by growth steps to enhance the size of the adsorbed colloidal gold crystals, resulting in a complete metallization of the template surface. The length of the resulting gold nanowires reaches several micrometers, with a diameter ~ 100 to 120 nm. To gain a deeper insight into the process of biomineralization the cooperative effect of self-assembled monolayers as substrate and a soluble counterpart on the nucleation and crystal growth of calcium phosphate was studied by diffusion techniques with a pH switch as initiator. As soluble component Perlucin and Nacrein were used. Both are proteins originally extracted from marine organisms, the first one from the Abalone shell and the second one from oyster pearls. Both are supposed to facilitate the calcium carbonate formation in vivo. Studies with Perlucin revealed that this protein shows a clear cooperative effect at a very low concentration with a hydrophobic surface promoting the calcium phosphate precipitation resulting in a sponge like structure of hydroxyapatite. The Perlucin molecule is very flexible and is unfolded by adsorbing to the hydrophobic surface and uncovers its active side. Hydrophilic surfaces did not have a deeper impact. Studies with Nacrein as additive have shown that the protein stabilizes octacalcium phosphate at room temperature on carboxylic self-assembled monolayer and at 34 °C on all other employed surfaces by interaction with the mineral. On the hydroxyl-, alkyl-, and amin-terminated self-assembled monolayers at room temperature the octacalcium phosphate get transformed to hydroxyapatite. Main analytical techniques which are used in this work are transmission electron microscopy, high resolution scanning electron microscopy, surface plasmon resonance spectroscopy, atomic force microscopy, Raman micro-spectroscopy and quartz crystal microbalance.