Neuroscience
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Feeding behaviors are closely associated with chronic pain in adult rodents. Our recent study revealed that 2 h refeeding after 24 h fasting (i.e., refeeding) attenuates pain behavior under chronic inflammatory pain conditions. However, while brain circuits mediating fasting-induced analgesia have been identified, the underlying mechanism of refeeding-induced analgesia is still elusive. ⋯ We also found that refeeding reduced the enhanced excitability of aICCaMKII-NAcSD2R projecting neurons in this CFA model. Besides, chemogenetic inhibition of aICCaMKII-NAcSD2R neural circuit suppressed chronic pain behavior while activation of this circuit reversed refeeding-induced analgesia. Thus, the present study suggests that aICCaMKII-NAcSD2R neural circuit mediates refeeding-induced analgesia, thereby serving as a potential therapeutic target to manage chronic pain.
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Social interactions play an important role in our daily lives and can profoundly impact our health for better and worse. To better understand the neural circuitry underlying social behavior, we focused on neural circuits involving vasopressin neurons of the bed nucleus of the stria terminalis (BNST) and serotonin neurons of the dorsal raphe (DR). Previous research shows that BNST vasopressin neurons are activated in male mice by interaction with a female and that vasopressin indirectly excites serotonin neurons. ⋯ Electrophysiological data suggest that most DR Avpr1a neurons behave like fast spiking interneurons found in other brain regions. Examination of RNAseq and in situ hybridization data suggests that there are glutamatergic, GABAergic, and serotonergic subtypes of Avpr1a neurons in the DR. Together our data support a model in which a subset of vasopressin-responsive interneurons in the DR may relay stimulus specific social signals from the forebrain BNST to the serotonergic DR system, which could help direct prosocial stimulus specific behavioral responses.
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Age-related changes in cortical excitability linked to decreased attentional and inhibitory control.
Understanding age-related changes in cortical excitability and their relation to cognitive functions will help to improve interventions based on non-invasive brain stimulation that aim to support cognitive function in older adults. Here, we investigate the relationship between cortical excitability, executive function, and underlying neural activity in samples of healthy young and older adults. These participants performed a Simon task during electroencephalogram (EEG) recording. ⋯ Older adults also exhibited longer reaction times and N2pc and N2cc latencies, indicating that it took them longer to allocate attention to the target stimulus and inhibit the tendency to respond to the attended location. Finally, in older adults, cortical excitability alterations correlated with longer reaction times and N2pc latencies. These results suggest that age-related alterations in cortical excitability represent a dysfunctional change associated with physiological ageing.
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Itch (pruritus) is a common cutaneous symptom widely associated with many skin complaints, and chronic itch can be a severe clinical problem. The onset and perpetuation of itch are linked to cytokines, such as interleukin (IL)-31, IL-4, IL-13, IL-33, thymic stromal lymphopoietin, and tumor necrosis factor-alpha, and chemokines, such as chemokine (C-C motif) ligand 2 and C-X-C motif chemokine ligand 10. This review highlights research that has attempted to determine the attributes of various cytokines and chemokines concerning the development and modulation of itch. Through such research, clinical approaches targeting cytokines and/or chemokines may arise, which may further the development of itch therapeutics.
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Multiple Sclerosis (MS) has been shown to significantly impair brain connectivity, as alterations in functional and structural networks have been identified and associated with clinical status, particularly cognitive deficits. We aimed to identify structural connectivity changes in grey matter networks following cognitive rehabilitation (CR) in persons with MS (PwMS). Fifteen long-standing PwMS underwent a 5-week CR-program and five healthy controls (HC) were also investigated. ⋯ Before CR, PwMS displayed lower values for D in the left parietal lobe (p = 0.009) compared to HC. After CR, significant increases in Cl located in frontal (p = 0.024) and temporal (p = 0.026) regions in PwMS were accompanied by significant decreases in PL located in the right parietal lobe (p = 0.025) and BC globally (p = 0.010). Overall, CR may prevent a network worsening in long-standing PwMS by increasing local efficiency of the brain and therefore facilitating compensation mechanisms.