Ethanol disturbs astroglial growth and differentiation and causes functional alterations. Furthermore, many signalling molecules produced by astrocytes contribute to these processes. The aim of the present study was to investigate the influence of ethanol and its primary metabolite, acetaldehyde, on TNF-alpha and IL-6 production in a rat cortical astrocyte primary culture. We are the first to report that both ethanol and acetaldehyde can modulate TNF-alpha and IL-6 secretion from cultured astrocytes. Long-term exposure (7 days) to ethanol and acetaldehyde was more toxic than an acute (24 hours) exposure. However, both compounds showed a biphasic, hormestic effect on the IL-6 secretion after the acute as well as the long-term exposure, and the maximum stimulation was reached for 50-mM ethanol and 1-mM acetaldehyde after 7-day exposure. In contrast, both compounds reduced the TNF-alpha secretion, where the effect was concentration-dependent. The catalase inhibitor 2-amino-1,2,4 triazole significantly reduced the ethanol toxicity in the cultured astrocytes after the acute as well as the long-term exposure. In conclusion, both ethanol and acetaldehyde affect the production of IL-6 and TNF-alpha in cultured astrocytes. The effect depends on the concentration of the compounds and the duration of the exposure. Acetaldehyde is a more potent toxin than ethanol, and ethanol’s toxicity in the brain is at least partially due to its primary metabolite, acetaldehyde.
This study compared the effects of toxicity of ethanol and its fi rst metabolite acetaldehyde in rat astrocytes through cell viability and cell proliferation. The cells were treated with different concentrations of ethanol in the presence or absence of a catalase inhibitor 2-amino-1,2,4 triazole (AMT) or with different concentrations of acetaldehyde. Cell viability was assessed using the trypan blue test. Cell proliferation was assessed after 24 hours and after seven days of exposure to either ethanol or acetaldehyde. We showed that both ethanol and acetaldehyde decreased cell viability in a dose-dependent manner. In proliferation studies, after seven days of exposure to either ethanol or acetaldehyde, we observed a signifi cant dose-dependent decrease in cell number. The protein content study showed biphasic dose-response curves, after 24 hours and seven days of exposure to either ethanol or acetaldehyde. Co-incubation in the presence of AMT signifi cantly reduced the inhibitory effect of ethanol on cell proliferation. We concluded that long-term exposure of astrocytes to ethanol is more toxic than acute exposure. Acetaldehyde is a much more potent toxin than ethanol, and at least a part of ethanol toxicity is due to ethanol's fi rst metabolite acetaldehyde.
The bioterrorist events took place in the United States, but they had a worldwide impact. In Europe, security agencies are calling for concerted global action to strengthen the public health response to the threat of international biological, chemical, and radio-nuclear terrorism. Cooperation within the European Union (EU) proved essential and inevitable. In a border-free space in which produce, products, services, and people can circulate, it is essential that appropriate mechanisms and arrangements are put in place to ensure prompt notification and exchange of information in case of threats and attacks; action at the source to stem the spread of disease and environmental contamination; mutual assistance for diagnosis and management of cases; and laboratory and epidemiological investigations. Aims and tasks include: (1) develop capacities; (2) educate and train laboratory technicians; (3) train lab techs to use polymerase chain reaction (PCR), chromatograms, etc.; (4) train lab techs in forensic microbiology; and (5) improve analytic techniques for toxins, etc.
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