The dynamics of the state of hippocampal pyramidal neurons after intrahippocampal microinjections of (1) amyloid-beta25-35 (1.6 nmol/1 microl), (2) an aqueous molecule-colloidal solution of C60 (0.46 nmol/1 microl) and (3) an aqueous molecule-colloidal solution of C60 before amyloid-beta25-35 administration were analysed in rats. This model allowed us to study the role of amyloid-beta25-35 in the pathogenesis of Alzheimer's disease and to test anti-amyloid substances. Methods of fluorescent (acridine orange) and brightfield (cresyl violet and immunohistochemistry) microscopy were used. Acridine orange staining indicated changes in protein synthesis intensity due to alterations in the rRNA state of neuron ribosomes. One day after administration of amyloid-beta25-35, the intensity of protein synthesis in the population of morphologically intact cells decreased by 45%. By day 14, degeneration occurred in the majority of pyramidal cells, and amyloid-beta25-35 deposits were observed in the neuronal cytoplasm. In necrotic cells, acridine orange staining of the cytoplasm was drastically increased as a result of RNA degradation rather than due to an increase in protein synthesis. Because amyloid-beta25-35 administration provoked oxidative stress, we assumed that an aqueous molecule-colloidal solution of C60 administered before amyloid-beta25-35 prevented protein synthesis changes on day 1, while acting as an antioxidant, and by day 14 it inhibited neurodegeneration and amyloid-beta25-35 accumulation. Based on the data that an aqueous molecule-colloidal solution of C60 prevented amyloid-beta25-35 aggregation in in vitro experiments and based on our present evidence on the antitoxicity of an aqueous molecule-colloidal solution of C60, we suggest that functionalised C60 prevents/diminishes amyloid-beta25-35 aggregation in vivo as well. Thus, an aqueous molecule-colloidal solution of C60 administered at a low concentration before amyloid-beta2-35, prevented disturbances in protein synthesis, neurodegeneration and formation amyloid-beta25-35 deposits in hippocampal pyramidal neurons in vivo. This evidence gives promise that functionalised C60 can be used to develop anti-amyloid drugs combining antioxidant and anti-aggregative properties.
We studied the effects of fullerene C60 nanoparticles, namely hydrated fullerene C60 (C60HyFn), on interrelations between EEG frequency spectra from the frontal cortex and the dorsal hippocampus (CA1) on an amyloid-β (Aβ) rat model of Alzheimer's disease (AD). Infusion of Aβ1-42 protein (1.5 μl) into the CA1 region two weeks before EEG testing diminished hippocampal theta (3.8-8.4 Hz) predominance and eliminated cortical beta (12.9-26.2 Hz) predominance observed in baseline EEG of rats infused with saline (control) or with C60HyFn alone. In contrast, these Aβ1-42 effects were abolished in rats pretreated with C60HyFn, 30 min apart. Dopaminergic mediation in AD has been shown to be involved in neuronal plasticity and Aβ transformation in different ways. To clarify its role in the cortex-hippocampus interplay in the Aβ model of AD, we used peripheral injection of a dopamine agonist, apomorphine (APO), at a low dose (0.1 mg/kg). In rats infused with C60HyFn or Aβ1-42 alone, APO attenuated the cortical beta predominance, with immediate and delayed phases evident in the Aβ1-42-rats. Pretreatment with C60HyFn diminished the APO effect in the Aβ1-42-treated rats. Thus, we show that intrahippocampal injection of Aβ1-42 dramatically disrupts cortical versus hippocampal EEG interrelations and that pretreatment with the fullerene eliminates this abnormality. We suggest that some effects of C60HyFn may be mediated through presynaptic dopamine receptors and that water-soluble C60 fullerenes have a neuroprotective potential.
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.
The dynamics of T and B cell immunity in spleens from rat exposed to whole-body chronic irradiation with dose rates of 12.9 cGy/day (range 1-10 Gy) and 3.0 cGy/day (range 0.57-2.04 Gy) were investigated. gamma-irradiation with a dose-rate of 12.9 cGy/day was shown to produce a wave-like suppression of the T lymphocyte mitogenic response. Irradiation with a dose-rate of 3.0 cGy/day caused a decrease in immune response of T lymphocytes 48 days after onset of exposure (total dose 1.4 Gy). It was also shown that chronic irradiation with a dose-rate of 3.0 cGy/day produced significant changes in the DNA of T lymphocytes. Our results show that the radiation-induced suppression of immune functions and damage to DNA structure were partially eliminated when animals were fed a daily diet supplemented with a natural antioxidant, ubiquinone Q-9. The inhibiting effect of chronic irradiation was more pronounced in B lymphocytes because of their higher radiosensitivity.
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