Different amyloid aggregation of smooth muscles titin in vitro.

A comparative study of amyloid properties of the aggregates of smooth muscle titin (SMT) from chicken gizzard was carried out. These aggregates were formed in two solutions: 0.15 M glycine-KOH, pH 7.2-7.4 (SMT(Gly)) and 0.2 M KCl, 10 mM imidazole, pH 7.0 (SMT(KCl)). Electron microscopy data showed that SMT aggregates has an amorphous structure in both cases. The results of atomic-force microscopy demonstrated slight differences in morphology in two types of aggregates. The SMT(Gly) aggregates were represented as branching chains, composed of spherical aggregates approximately 300-500 nm in diameter and up to 35 nm in height. The SMT(KCl) aggregates formed sponge-like structures with strands of 8-10 nm in height. Structural analysis of SMT aggregates by X-ray diffraction revealed the presence of cross-ß-sheet structure in the samples under study. In the presence of SMT(Gly) aggregates, thioflavine T fluorescence intensity was higher (~3-fold times) compared with that in the presence of SMT(KCl) aggregates. Congo red-stained SMT(Gly) aggregates had yellow to apple-green birefringence under polarized light, which was not observed for SMT(KCl) aggregates. Dynamic light scattering data showed the similar rate of aggregation for both types of aggregates, though SMT(KCl) aggregates were able to partially disaggregate under increased ionic strength of the solution. The ability of SMT to aggregation followed by disaggregation may be functionally significant in the cell.

Effect of the "zero" magnetic field on early embryogenesis in mice.

It was shown that the 250-fold screening of the geomagnetic field (GMF) ("zero" magnetic field with an induction of 0.2 muT) affects early embryogenesis and the reproduction capacity of mice in vivo. Pregnant NMRI mice at the zygote stage placed in this "zero" magnetic field (MF) lost the ability to bear offspring babies although their embryos developed up to the blastocyst stage without any visible deviations from the norm. The abortion of development in the "zero" MF occurred after the exit of the blastocysts from the zona pellicida and invasion into the uterus during implantation. Histological analysis indicates that possible reasons of the abnormalities of postimplantation development are a decrease in the proliferative activity of embryonic cells and the impairment of the interaction between the trophoblast and endometrium, which finally results in the resorption of embryos in the uterus.

Cycloheximide-induced inhibition of protein synthesis in hippocampal pyramidal neurons is time-dependent: differences between CA1 and CA3 areas.

Cycloheximide (CHI), an inhibitor of protein synthesis, is widely used for studying the mechanisms of consolidation of long-term memory (LTM). High concentrations of CHI inhibit the protein synthesis in brain homogenates by more than 80% and impair LTM consolidation. For understanding the mechanisms of consolidation, it is important to know how protein synthesis inhibitors affect hippocampal neurons. However, the effect of CHI on protein synthesis in CA1 and CA3 hippocampal pyramidal neurons is still poorly understood. In the present work, the state of ribosomes in CA1 and CA3 pyramidal neurons from the dorsal hippocampus of Wistar rats 1, 2, 4, and 72 h after the introcerebroventricular (i.c.v.) injection of a high concentration of CHI was determined using the fluorescent dye acridine orange. We showed that CHI induces great differences in the dynamics of the intensity of protein synthesis in CA1 and CA3 pyramidal neurons. The suppression of the intensity of protein synthesis in CA1 pyramidal neurons 1h after the injection of CHI was more than threefold stronger than in CA3, and by 4h, it was most pronounced in CA3 neurons. We suggest that the protein synthesis in CA1 pyramidal neurons contributes significantly to the synaptic consolidation of declarative memory in the first critical period.