Neuroscience
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Although most agree that 17β-estradiol is neuroprotective via a variety of mechanisms, less is known about the role that biological sex plays in receptor-mediated estradiol neuroprotection. To address this issue we isolated primary cortical neurons from rat pups sorted by sex and assessed the ability of estradiol to protect the neurons from death induced by glutamate. Five-minute pretreatment with 10-50 nM 17β-estradiol protected female but not male neurons from glutamate toxicity 24 h later. ⋯ The ERβ selective agonist conveys a small degree of neuroprotection to both male and female cortical neurons. Interestingly, we found that 17α estradiol and the novel membrane estrogen receptor (mER) agonist STX, but not bovine serum albumin conjugated estradiol or the GPR30 agonist G1 were neuroprotective in both male and female neurons. Taken together these data highlight a role for ERα in sexually dimorphic neuroprotection.
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Increasing evidence suggests that synaptic zinc, found within the axon terminals of a subset of glutamatergic neurons in the cerebral cortex, is intricately involved in cortical plasticity. Using the vibrissae/barrel cortex model of cortical plasticity, we have previously shown manipulations of sensory input leads to rapid changes in synaptic zinc levels within the corresponding regions of the somatotopic map in the cortex. Here, using electron microscopy, we show how some of these changes are mediated at the synaptic level. ⋯ Our results show that excitatory neurons can dynamically change the phenotype of the vesicular content of their synapses in response to changes in sensory input. Given the range of modulatory effects zinc can have on neurotransmission, such a change in the complement of vesicular contents presumably allow these neurons to utilize synaptic zinc to facilitate plasticity. Thus, our results further support the role of zinc as an active participant in the processes contributing to experience-dependent cortical plasticity.
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The high molecular weight isoforms (a and b) of microtubule-associate protein 2 (MAP2a,b) are widely believed to be specific markers for neuronal somata and dendrites. We analyzed and quantified MAP2a,b stained dendrites of the cerebellar molecular layer using a novel approach that segmented and 3D reconstructed them, and the results have been compared with those obtained by other methods, including single-cell reconstruction and analysis of electron micrographs. ⋯ However, the MAP2a,b dendritic volume fraction is even lower (5.2%) than the total volume fraction of dendrites in the molecular layer (10%). Analysis of the material shows that this difference between the two results is due to the unexpected finding that there were few MAP2a,b stained Purkinje cell spiny dendrites.
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Amyloid β protein (Aβ) is considered to be partly responsible for the impairment of learning and memory in Alzheimer disease (AD). In addition, it has been found recently that type 2 diabetes mellitus (T2DM) is a risk factor for developing AD. One promising treatment for AD is using analogues for the insulin-release facilitating gut hormone glucagon-like peptide-1 (GLP-1) that has been developed as a T2DM therapy. ⋯ The results showed that (1) Aβ1-40 (5 nmol) injection did not affect the baseline field excitatory postsynaptic potentials (fEPSPs), but significantly suppressed multiple high frequency stimulation (HFS)-induced L-LTP in hippocampal CA1 region; (2) Val(8)-GLP-1(7-36) (0.05 pmol) administration alone did not affect the baseline synaptic transmission and the maintenance of L-LTP; (3) pretreatment with Val(8)-GLP-1(7-36) (0.05 pmol) effectively prevented Aβ1-40-induced deficit of L-LTP; (4) i.c.v. injection of 5 nmol Aβ1-40 resulted in a significant decline learning a spatial Morris water maze (MWM) test; (5) Val(8)-GLP-1(7-36) (0.05 pmol) administration alone did not affect spatial learning in this task, while pretreatment with Val(8)-GLP-1(7-36) effectively reversed the impairment of spatial learning and memory induced by Aβ1-40. At the same time, the swim speeds and escape latencies of rats among all groups in the visible platform tests did not show any difference. These results suggest that increase of GLP-1 signalling in the brain may be a promising strategy to ameliorate the degenerative processes observed in AD.
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Early life adversity or parental neglect is linked to the development of a number of psychiatric illnesses, including major depression and substance use disorder. These two disorders are often comorbid and characterized by anhedonia, defined as the reduced ability to experience pleasure or reward. The aim of the present study was to determine the effects of neonatal maternal separation in Long Evans rats, a model of early life stress, on anhedonia under baseline conditions and in response to drug and stress exposure during adulthood. ⋯ One week after termination of stress exposure, maternally separated rats still exhibited an increased reward-enhancing effect of acute amphetamine administration compared with non-handled controls, regardless of prior social defeat experience. These data indicate that early life stress increases the reward-enhancing properties of amphetamine, protects against the anhedonic effects of acute stress exposure, and exacerbates the anhedonic response to repeated stress. Thus, early life stress may increase an individual's vulnerability to depressive or addictive disorders when confronted with stress or drug challenge in adulthood.