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There is a large body of literature establishing that excessive neuronal synchronization and a shift in firing pattern within the cortico-basal ganglia circuit is implicated in Parkinson's disease (PD), yet a causal link between abnormal network oscillation and specific deficits in PD is lacking. It is proposed that enhanced (inhibitory) synchronous basal ganglia output could trigger anti-phase oscillatory activity in target thalamic nuclei, and entrain this abnormal synchronization within the cortico-basal ganglia loop through a reciprocal resonance mechanism. In a recent Experimental Neurology paper (2009), Parr-Brownlie et al. addressed this issue by assessing electrophysiological recordings in vivo in anesthetized control and dopamine-depleted rats induced by unilateral injection of 6-hydroxydopamine. Results from this study demonstrate that a shift in firing pattern in basal ganglia output neurons does not directly drive the distinctive oscillatory activity observed in the parafascicular nucleus after dopamine depletion. This commentary discusses possible mechanisms mediating the altered oscillatory activity found in the parafascicular nucleus after dopamine depletion and its link to the increased in-phase oscillations with synchronous firing in the subthalamic nucleus. 相似文献
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Estrogen modulates sexually dimorphic contextual fear extinction in rats through estrogen receptor β
Yao‐Ju Chang Chih‐Hao Yang Ying‐Ching Liang Che‐Ming Yeh Chiung‐Chun Huang Kuei‐Sen Hsu 《Hippocampus》2009,19(11):1142-1150
Females and males are different in brain and behavior. These sex differences occur early during development due to a combination of genetic and hormonal factors and continue throughout the lifespan. Previous studies revealed that male rats exhibited significantly higher levels of contextual fear memory than female rats. However, it remains unknown whether a sex difference exists in the contextual fear extinction. To address this issue, male, normally cycling female, and ovariectomized (OVX) female Sprague‐Dawley rats were subjected to contextual fear conditioning and extinction trials. Here we report that although male rats exhibited higher levels of freezing than cycling female rats after contextual fear conditioning, female rats subjected to conditioning in the proestrus and estrus stage exhibited an enhancement of fear extinction than male rats. An estrogen receptor (ER) β agonist diarylpropionitrile but not an ERα agonist propyl‐pyrazole‐triol administration also enhanced extinction of contextual fear in OVX female rats, suggesting that estrogen‐mediated facilitation of extinction involves the activation of ERβ. Intrahippocampal injection of estradiol or diarylpropionitrile before extinction training in OVX female rats remarkably reduced the levels of freezing response during extinction trials. In addition, the locomotion or anxiety state of female rats does not vary across the ovarian cycle. These results reveal a crucial role for estrogen in mediating sexually dimorphic contextual fear extinction, and that estrogen‐mediated enhancement of fear extinction involves the activation of ERβ. © 2009 Wiley‐Liss, Inc. 相似文献