Neuroscience
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We investigated the effects of swimming and treadmill exercise on the level of nerve growth factor (NGF) protein and neurogenesis in the hippocampus, and cognitive function of adult rats over a period of 8 weeks. We divided 144 male Sprague-Dawley rats into 3 groups: (1) a control group (COG; total n=48, n=8 for each time-point), (2) a swimming exercise group (SEG; total n=48; n=8 for each time-point), and (3) a treadmill exercise group (TEG; total n=48, n=8 for each time-point). The SEG and TEG were made to perform their respective exercise type for 5 days per week over a period of 8 weeks. ⋯ Specifically, a significant increase was observed in the SEG at the 3-month time-point. These results show that regular exercise in adult rats increased the level of NGF in the hippocampus, increased the number of newly proliferated nerve cells, and extended the period of neuron survival and maintenance. Furthermore, this phenomenon was more apparent when the exercise form was swimming.
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The contribution of oxidative stress to diabetic complications including neuropathy is widely known. Mitochondrial and cellular damage are associated with the overproduction of reactive oxygen species and decreased levels or function of the cellular antioxidant mitochondrial manganese superoxide dismutase (SOD2). We hypothesized that targeted SOD2 deletion in the peripheral nervous system using cre-lox technology under control of the nestin promoter would accelerate neuropathy in a type 2 model of diabetes, the BKS.db/db mouse. ⋯ No lesions were evident in the spinal cord, but changes in myelin within the sciatic and sural nerves including a lack of cohesion between layers of compact myelin were observed. Together, these results indicate that targeted neuronal SOD2 knockout using the nestin promoter results in severe central nervous system degeneration and perinatal lethality in mice. A specific peripheral nervous system-targeting construct is required to examine the consequences of SOD2 knockout in diabetic neuropathy.
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Previous research has demonstrated that diabetes induced learning and memory deficits. However, the mechanism of memory impairment induced by diabetes is poorly understood. Dietary fatty acids, especially polyunsaturated fatty acids (PUFA), have been shown to enhance learning and memory and prevent memory deficits in various experimental conditions. ⋯ Fish oil dietary supplementation decreased the transient currents and Kv4.2 expression in the hippocampus and partially improved learning performance of diabetic rats. The results of the present study suggested that sodium and potassium currents contributed to the inhibitory effect of diabetes on neuron excitability, further influencing learning and memory processing. Dietary fish oil may modulate the membrane excitability and is a possible strategy for preventing the impairments of diabetes on hippocampal function.
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MMP-9 deficiency protected against photochemical thrombosis-induced brain hemorrhagic transformation (HT), but it did not protect against tissue plasminogen activator-induced brain hemorrhage. The roles of MMP-2 and/or MMP-9 knockout (KO) in mechanical reperfusion induced HT after ischemia have not been investigated. Here we assessed the effects of MMP-2 KO, MMP-9 KO and MMP-2/9 double KO (dKO) in protecting against mechanical reperfusion induced HT and other brain injuries after the early stages of cerebral ischemia in mice of the same genetic background. ⋯ WT). The results suggested that MMP-2 deficiency and MMP-2 and MMP-9 double deficiency were more protective than MMP-9 deficiency against HT after the early stages of ischemia and reperfusion. These studies increase our understanding of MMP-2 and MMP-9 in HT development and will help to selectively target MMPs to protect the post-ischemic brain from injury and HT.
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Proglucagon-derived glucagon-like peptide-2 (GLP-2) is released from enteroendocrine cells and neurons. GLP-2 regulates energy absorption and epithelial integrity in the gastrointestinal tract, but its effect on blood-pressure regulation remains unknown. ⋯ In contrast, Fos-IR in brainstem catecholamine neurons decreased after the administration of GLP-2. These results suggest that GLP-2 acts on specific brain nuclei to inhibit sympathetic nerve activity and this leads to hypotension.