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Vol. 294, Issue 2, 728-734, August 2000
Department of Pharmacology and Human Physiology, University of
Bari, Bari, Italy
The aim of the present study was to investigate whether functional
changes at CA3-CA1 synapses in the hippocampus could underlie learning
and memory deficits produced in rat offspring by a prenatal exposure
model simulating the carbon monoxide (CO) exposure observed in human
cigarette smokers. Electrophysiological endpoints, including long-term
potentiation, were examined in 15- to 30-day-old male rats whose
mothers were exposed, from day 0 to day 20 of gestation, to 150 ppm of
CO resulting in blood levels of carboxyhemoglobin comparable to those
found in human cigarette smokers. Evoked field excitatory postsynaptic
potentials were measured in the stratum radiatum in hippocampal slices.
Results show that before tetanus, input/output functions, presynaptic
volley, and paired-pulse facilitation were not affected in CO-exposed
offspring, indicating that basal synaptic excitability and terminal
Ca2+ influx were not influenced by prenatal exposure to
this gas. Conversely, evoked field excitatory postsynaptic potentials
potentiation in response to tetanization was reduced by about 23% and
decayed rapidly to baseline values in slices from CO-exposed animals. No changes between and within groups were observed in paired-pulse facilitation after tetanus. The selective impairment of long-term potentiation expression exhibited by CO-exposed rats was paralleled by
a significant decrease in heme-oxygenase 2 and neuronal nitric-oxide synthase in the hippocampus. No changes in either enzymatic activity were found in frontal cortex and cerebellum. These electrophysiological and biochemical alterations might account for cognitive deficits previously observed in rats exposed prenatally to CO. Our findings could have clinical implications for the offspring of mothers who smoke
during pregnancy.
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