Neuroscience
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The naked mole-rat is a subterranean colonial rodent. In each colony, which can grow to as many as 300 individuals, there is only one female and 1-3 males that are reproductive and socially dominant. The remaining animals are reproductively suppressed subordinates that contribute to colony survival through their cooperative behaviors. ⋯ Animals in both opposite- and same-sex pairs showed a decreased oxytocin neuron number compared to subordinates suggesting that status differences may be due to social condition rather than the reproductive activity of the animal per se. The effects of social status appear to be region specific as no group differences were found for oxytocin neuron number in the supraoptic nucleus. Given that subordinate naked mole-rats are kept reproductively suppressed through antagonism by the queen, we speculate that status differences are due either to oxytocin's anxiolytic properties to combat the stress of this antagonism or to its ability to promote the prosocial behaviors of subordinates.
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In adult rats, trans-resveratrol attenuates kainic acid (KA)-induced convulsions and the associated hippocampal neurotoxicity. Increased neuronal survival was correlated with reduced lipid peroxidation. Since free radical generation after KA is age dependent and does not correlate with the onset of seizure-induced injury, the present study investigated whether daily trans-resveratrol treatment in development could protect the juvenile hippocampus from seizures and onset of damage at postnatal (P) day 21. ⋯ Glutamate (100 μM) to stimulate peroxidation products was significant at young ages but was much greater at older ages. After KA, elevated MDA levels were observed at 24h but only in adult preparations. Thus, while antioxidant therapy with trans-resveratrol may be considered as an adjunctive therapy to hinder epileptic activity and neurodegeneration at adult ages, it had only modest effects at young ages when production of free radicals within limbic structures is limited in this experimental model of seizures.
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Here we investigate the contribution of striatal dopamine receptors (D1) to the influence of reward-magnitude on learning. Pigeons (Columba livia) were trained on a discrimination-task with two pairs of stimuli; correct discrimination resulted in a large reward in one pair of stimuli and in a small reward in the other pair. Acquisition of the discrimination-task was accompanied by intracranial injections to the medial striatum, either of a dopamine-antagonist (Sch23390) or of vehicle. ⋯ Consequently, it appears that not learning per se but the effect of reward-magnitude on learning is mediated through D1 receptors in the striatum. We argue that the injections of dopamine-antagonist cause a shift in strategy underlying learning. In the control-condition animals rely on positive feedback and thus learning is affected by the magnitude of the contingent reward; in the antagonist-condition, however, learning might rely on negative feedback and is thus insensitive to reward-magnitude.
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Although major depressive disorder (MDD) is a serious neuropsychiatric illness, it's pathogenesis remains unclear. Current evidence suggests that the abnormal transmission and plasticity of hippocampal synapses play an important role in the pathogenesis of MDD. In this study, a two-dimensional gel-based proteomic approach to profile alterations of synaptosome protein expression was applied in the hippocampus of rats subjected to chronic mild stress. ⋯ A detailed analysis of protein functions and disease relevance revealed that synaptic exo/endocytosis-associated proteins were dysregulated in the chronic mild-stressed rats. The present study is the first reported synaptoproteomic analysis of the chronic mild-stressed rat hippocampus. The synaptic exo/endocytosis-associated proteins may participate in a central mechanism that underlies the abnormal transmission and plasticity of hippocampal synapses found in the chronic mild-stressed rats, and provides guidance to advance our understanding of the pathogenesis of MDD.
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Nicotinic receptors have been linked to a wide range of cognitive and behavioral functions, but surprisingly little is known about their involvement in cost benefit decision making. The goal of these experiments was to determine how nicotinic acetylcholine receptor (nAChR) expression is related to two forms of cost benefit decision making. Male Long Evans rats were tested in probability- and delay-discounting tasks, which required discrete trial choices between a small reward and a large reward associated with varying probabilities of omission and varying delays to reward delivery, respectively. ⋯ Additionally, trends were found suggesting that choice of the large costly reward in both discounting tasks was inversely related to α4β2 receptor binding in the medial prefrontal cortex and nucleus accumbens shell. Similar trends suggested that choice of the large delayed reward in the delay discounting task was inversely related to α4β2 receptor binding in the orbitofrontal cortex, nucleus accumbens core, and basolateral amygdala, as well as to α7 receptor binding in the basolateral amygdala. These data suggest that nAChRs (particularly α4β2) play both unique and common roles in decisions that require consideration of different types of reward costs.