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9891 - 9900
of 52807 results
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Journal ArticleInsect gustatory systems comprise multiple taste organs for detecting chemicals that signal palatable or noxious quality. Although much is known about how taste neurons sense various chemicals, many questions remain about how individual taste neurons in each taste organ control feeding. Here, we use the Drosophila pharynx as a model to investigate how taste information is encoded at the cellular level to regulate consumption of sugars and amino acids. We first generate taste-blind animals and establish a critical role for pharyngeal input in food selection. We then investigate feeding behavior of both male and female flies in which only selected classes of pharyngeal neurons are restored via binary choice feeding preference assays as well as Fly Liquid-Food Interaction Counter (FLIC) assays. We find instances of integration as well as redundancy in how pharyngeal neurons control behavioral responses to sugars and amino acids. Additionally, we find that pharyngeal neurons drive sugar feeding preference base...May 24, 2021
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Journal ArticleObesity is a serious global health problem due to its increasing prevalence and comorbidities, but its treatments are limited. The serotonin 2C receptor (5-HT2CR), a G protein-coupled receptor, activates pro-opiomelanocortin (POMC) neurons in the arcuate nucleus of hypothalamus (ARH) to reduce appetite and weight gain. However, several 5-HT analogs targeting this receptor, e.g. lorcaserin, suffer from diminished efficacy to reduce weight after prolonged administration. Here we show that barbadin, a novel β-arrestin/β2-adaptin inhibitor, can prevent 5-HT2CR internalization in cells and potentiate long-term effects of lorcaserin to reduce appetite and body weight in male mice. Mechanistically, we demonstrate that barbadin co-treatment can effectively maintain the sensitivity of the 5-HT2CR in POMCARH neurons, despite prolonged lorcaserin exposure, thereby allowing these neurons to be activated through opening the transient receptor potential cation channels. Thus, our results prove the concept that inhibitio...May 24, 2021
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Journal ArticleNaltrexone is an opioid receptor antagonist approved for the treatment of alcohol and opioid use disorders at doses of 50–150 mg/d. Naltrexone has also been prescribed at much lower doses (3–6 mg/d) for the off-label treatment of inflammation and pain. Currently, a compelling mechanistic explanation for the reported efficacy of low-dose naltrexone (LDN) is lacking and none of the proposed mechanisms can explain patient reports of improved mood and sense of well-being. Here, we examined the possibility that LDN might alter the activity of the endogenous opioid system involving proopiomelanocortin (POMC) neurons in the arcuate nucleus of the hypothalamus (ARH) in male and female mice. Known actions of POMC neurons could account for changes in pain perception and mood. However, using electrophysiologic, imaging and peptide measurement approaches, we found no evidence for such a mechanism. LDN did not change the sensitivity of opioid receptors regulating POMC neurons, the production of the ꞵ-endorphin precurso...May 24, 2021
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Journal ArticleRestoration of lost function following a nervous system injury is limited in adulthood as the regenerative capacity of nervous system declines with age. Pharmacological approaches have not been very successful in alleviating the consequences of nervous system injury. On the contrary, physical activity and rehabilitation interventions are often beneficial to improve the health conditions in the patients with neuronal injuries. Using touch neuron circuit of Caenorhabditis elegans , we investigated the role of physical exercise in the improvement of functional restoration after axotomy. We found that a swimming session of 90 minutes following the axotomy of Posterior Lateral Microtubule (PLM) neuron can improve functional recovery in larval and adult stage animals. In older age, multiple exercise sessions were required to enhance the functional recovery. Genetic analysis of axon regeneration mutants showed that exercise-mediated enhancement of functional recovery depends on the ability of axon to regenerate. ...May 24, 2021
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Journal ArticleProlonged stress induces neural maladaptations in mesolimbic dopamine (DA) system and produces emotional and behavioral disorders. However, the effects of stress on activity of DA neurons are diverse and complex that hinge on the type, duration, intensity, and controllability of stressors. Here, controlling the duration, intensity, and type of the stressors to be identical, we observed effects of stressor controllability on the activity of substantia nigra compacta (SNc) DA neurons in mice. We found that both lack and loss of control over shock enhance the basal activity and intrinsic excitability of SNc DA neurons via modulation of Ih current, but not via corticosterone serum level. Moreover, loss of control over shock produces more significant enhancement in the basal activity of SNc DA neurons than that produced shock per se, and therefore attenuates the response to natural reward. This attenuation can be reversed by control over shock. These results indicate that although chronic stress per se tends to...May 21, 2021
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Journal ArticlePediatric traumatic brain injury (TBI) results in heightened risk for social deficits that can emerge during adolescence and adulthood. A moderate TBI in male and female rats on postnatal day 11 (equivalent to children below the age of 3) resulted in impairments in social novelty recognition, defined as the preference for interacting with a novel rat compared to a familiar rat, but not sociability, defined as the preference for interacting with a rat compared to an object in the three-chamber test when tested at 4-weeks (adolescence) and 8-weeks (adulthood) post-injury. The deficits in social recognition were not accompanied by deficits in novel object recognition memory and were associated with a decrease in the frequency of spontaneous inhibitory postsynaptic currents (IPSC) recorded from pyramidal neurons within layer II/III of the medial prefrontal cortex (mPFC). Whereas TBI did not affect the expression of oxytocin (OXT) or the oxytocin Receptor (OXT-R) mRNAs in the hypothalamus and mPFC respectively,...May 21, 2021
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Journal ArticleThe long cellular architecture of neurons requires regulation in part through transport and anchoring events to distribute intracellular organelles. During development, cellular and sub-cellular events such as organelle additions and their recruitment at specific sites on the growing axons occur over different time scales and often show inter-animal variability thus making it difficult to identify specific phenomena in population averages. To measure the variability in sub-cellular events such as organelle positions, we developed a microfluidic device to feed and immobilize C. elegans for high-resolution imaging over several days. The microfluidic device enabled long-term imaging of individual animals and allowed us to investigate organelle density using mitochondria as a testbed in a growing neuronal process in vivo . Sub-cellular imaging of an individual neuron in multiple animals, over 36 hours in our microfluidic device, shows the addition of new mitochondria along the neuronal process and an increase ...May 21, 2021
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Journal ArticleAlpha oscillations in sensory cortex, under frontal control, desynchronize during attentive preparation. Here, in a selective attention study with simultaneous EEG in humans of either sex, we first demonstrate that diminished anticipatory alpha synchrony between the mid-frontal region of the dorsal attention network and ventral visual sensory cortex (frontal-sensory synchrony (FSS)) significantly correlates with greater task performance. Then, in a double-blind, randomized controlled study in healthy adults, we implement closed-loop neurofeedback of the anticipatory alpha FSS signal over ten days of training. We refer to this closed-loop experimental approach of rapid neurofeedback (NF) integrated within a cognitive task as cognitive neurofeedback (cNF). We show that cNF results in significant trial-by-trial modulation of the anticipatory alpha FSS measure during training, concomitant plasticity of stimulus-evoked alpha/theta responses, as well as transfer of benefits to response time improvements on a sta...May 21, 2021
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Journal ArticleMisophonia is a common disorder characterized by the experience of strong negative emotions of anger and anxiety in response to certain everyday sounds, such as those generated by other people eating, drinking and breathing. The commonplace nature of these ‘trigger’ sounds makes misophonia a devastating disorder for sufferers and their families. How such innocuous sounds trigger this response is unknown. Since most trigger sounds are generated by orofacial movements (e.g. chewing) in others, we hypothesized that the mirror neuron system related to orofacial movements could underlie misophonia. We analysed resting state fMRI (rs-fMRI) connectivity (N=33, 16 females) and sound-evoked fMRI responses (N=42, 29 females) in misophonia sufferers and controls. We demonstrate that, compared to controls, the misophonia group show no difference in auditory cortex responses to trigger sounds, but do show: (i) stronger rs-fMRI connectivity between both auditory and visual cortex and the ventral pre-motor cortex respons...May 21, 2021
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Journal ArticleProtein phosphatase 2B (PP2B) is critical for synaptic plasticity and learning, but the molecular mechanisms involved remain unclear. Here we identified different types of proteins that interact with PP2B, among which structural proteins of the postsynaptic densities (PSDs) of Purkinje cells (PCs) in mice of either se. Deleting PP2B reduced expression of PSD proteins and the relative thickness of PSD at parallel fiber to PC synapses, whereas re-expression of inactive PP2B partly restored the impaired distribution of nanoclusters of PSD proteins, together indicating a structural role of PP2B. In contrast, lateral mobility of surface glutamate receptors solely depended on PP2B phosphatase activity. Finally, the level of motor learning co-varied with both the enzymatic and non-enzymatic function of PP2B. Thus, PP2B controls synaptic function and learning both through its action as a phosphatase and as a structural protein facilitating synapse integrity. SIGNIFICANCE STATEMENT Phosphatases are generally con...May 21, 2021





