Synapse
-
Both animal and human studies have demonstrated that exposure to chemical pollutants during critical developmental period causes adverse consequences later in life. In uterus, perfluorooctanesulfonate (PFOS) exposure has been known to cause developmental neurotoxicity, such as increased motor activity, reduced habitation and impaired cognitive function. The possible mechanism of the impaired cognitive function induced by prenatal PFOS exposure was evaluated in this study. ⋯ The mRNA levels of synapsin1 (Syn1), synapsin2 (Syn2), and synaptophysin (Syp) were decreased in treated groups either on PND0 or on PND21. However, the mRNA level of synapsin3 (Syn3) decreased in 0.6- and 2.0-mg kg(-1) group on PND0, and showed no significant difference among control group and all treated groups on PND21. These results indicate that the impairment of cognitive function induced by PFOS may be attributed to the lower mRNA levels of synaptic vesicle associated proteins and the change of synaptic ultrastructure in hippocampus.
-
The impact of theta patterning of the stimulation on the kindling effects of pentylenetetrazol (PTZ) was studied in rat hippocampus area CA1 in vitro. A potential involvement of adenosine A1 receptors was also examined. Primed-bursts stimulation (PBs) and theta pulse stimulation (TPS) were used as patterned activities. ⋯ When A1 receptor antagonist CPX was applied before PBs, both fEPSP LTP and PS LTP were elicited. PS LTP was selectively depressed by TPS (applied at 60 min after LTP induction) exclusively when A1 receptors were blocked, while TPS failed to depress PS LTP in untreated PBs-exposed slices. These findings suggest that seizing entails lasting changes in hippocampus area CA1 so that LTP induction by PBs is masked due to intensive adenosine release which in turn prevents TPS to induce PS LTD in epileptic CA1 network.