期刊
METABOLIC BRAIN DISEASE
卷 30, 期 6, 页码 1467-1477出版社
SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s11011-015-9730-9
关键词
Fetal alcohol spectrum disorders; Fetal alcohol syndrome; Ethanol; Rat brain; Acetylcholinesterase; Adenosinetriphosphatase; Na+,K+-ATPase; Mg2+-ATPase; Frontal cortex; Hippocampus; Hypothalamus; Cerebellum; Pons
The experimental simulation of conditions falling within the fetal alcohol spectrum disorder (FASD) requires the maternal exposure to ethanol (EtOH) during crucial neurodevelopmental periods; EtOH has been linked to a number of neurotoxic effects on the fetus, which are dependent upon the extent and the magnitude of the maternal exposure to EtOH and for which very little is known with regard to the exact mechanism(s) involved. The current study has examined the effects of moderate maternal exposure to EtOH (10 % v/v in the drinking water) throughout gestation, or gestation and lactation, on crucial 21-day-old offspring Wistar rat brain parameters, such as the activities of acetylcholinesterase (AChE) and two adenosine triphosphatases (Na+,K+-ATPase and Mg2+-ATPase), in major offspring CNS regions (frontal cortex, hippocampus, hypothalamus, cerebellum and pons). The implemented experimental setting has provided a comparative view of the neurotoxic effects of maternal exposure to EtOH between gestation alone and a wider exposure timeframe that better covers the human third trimester-matching CNS neurodevelopment period (gestation and lactation), and has revealed a CNS region-specific susceptibility of the examined crucial neurochemical parameters to the EtOH exposure schemes attempted. Amongst these parameters, of particular importance is the recorded extensive stimulation of Na+,K+-ATPase in the frontal cortex of the EtOH-exposed offspring that seems to be a result of the deleterious effect of EtOH during gestation. Although this stimulation could be inversely related to the observed inhibition of AChE in the same CNS region, its dependency upon the EtOH-induced modulation of other systems of neurotransmission cannot be excluded and must be further clarified in future experimental attempts aiming to simulate and to shed more light on the milder forms of the FASD-related pathophysiology.
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