Xingrui Gong scite author profile

BackgroundInfant nerve injury causes delayed adolescent neuropathic pain, but whether it also leads to psychiatric illness is unknown. Environmental enrichment (EE) increases social communication and activity. Thus, our goal was to test anxiety- and depression-like behaviors after infant peripheral nerve injury and evaluate the effect of environmental enrichment on these models of affective disorders.MethodsOpen field, elevated plus maze, sucrose preference, and pain behaviors (paw withdrawal threshold, spontaneous guarding score, and cold response to acetone) were measured in rats that received infant spared nerve injury (SNI). Enzyme-linked immune absorbent assay of cytokines was performed to evaluate the inflammatory response in the brain. Then, the ability of intracerebroventricular (ICV) injection of a microglia inhibitor, minocycline (MIN), and EE (a free-running wheel, a staircase, a plastic tunnel, a raised platform, and various colored balls) to reverse the infant SNI effects on behaviors and cytokines was examined.ResultsInfant nerve injury resulted in adolescent anxiety- and depression-like behaviors. The medial prefrontal cortex, basolateral amygdala, and ventral hippocampus were skewed to a pro-inflammatory profile. ICV injection of MIN reduced anxiety- and depression-like behaviors without affecting pain behaviors. In addition, ICV MIN skewed the brain towards an anti-inflammatory profile. Finally, environmental enrichment improved anxiety- and depression-like behaviors, as well as pain behaviors. EE increased brain IL-10 and decreased IL-1β and TNF-α.ConclusionsInfant nerve injury induces adolescent anxiety- and depression-like behaviors and central nervous inflammation. Environmental enrichment reduces these behaviors by normalizing the inflammation balance in the brain.

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Noradrenergic transmission in the central medial thalamic nucleus modulates the electroencephalographic activity and emergence from propofol anesthesia in rats

Yuan

et al. 2017

Journal of Neurochemistry

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At present, the mechanisms by which general anesthetics causing loss of consciousness remain unclear. The central medial thalamic nucleus (CMT) is a rarely studied component of the midline thalamic complex, which is deemed to be a part of the nonspecific arousal system. Although the CMT participates in modulating arousal and receives excitatory noradrenergic projections from locus coeruleus, it remains unknown whether the noradrenergic pathway in the CMT takes part in modulating the arousal system. Therefore, we hypothesized that noradrenergic transmission in the CMT is involved in modulating induction and emergence of propofol anesthesia. First, we infused norepinephrine (NE) into the CMT to observe the role of CMT noradrenergic pathway in modulating the anesthetic state induced by propofol. The results showed that microinjection of NE into the CMT accelerated emergence from propofol anesthesia, but had no impact on the induction of or sensitivity to propofol anesthesia in rats. In addition, infusion of NE into the CMT caused electroencephalography changes in the prefrontal cortex and the anterior cingulate cortex. Finally, we used a whole-cell patch clamp to examine the effects of NE on neuronal excitability and GABAergic transmission in the CMT. In the CMT slices, propofol suppressed neuronal excitability and enhanced GABAergic transmission, while application of NE partly reversed these effects. These findings support the hypothesis that the CMT noradrenergic pathway plays an important role in modulating the emergence from general anesthesia.

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Xingrui Gong

Environmental enrichment reduces adolescent anxiety- and depression-like behaviors of rats subjected to infant nerve injury

Noradrenergic transmission in the central medial thalamic nucleus modulates the electroencephalographic activity and emergence from propofol anesthesia in rats

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