Neuroscience
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Stress-related mood disorders like anxiety and depression are more prevalent in women than men and are often associated with hypothalamic-pituitary-adrenal (HPA) axis dysregulation. Androgen actions through androgen receptors (ARs) decrease HPA axis responses and stress-associated behaviors. Corticotropin releasing factor (CRF) and its binding to CRF receptor 1 (CRFR1) is also critical for regulation of the HPA axis, anxiety, and depression. ⋯ Following restraint stress GDX-blank mice showed fewer c-Fos/CRFR1 co-localized neurons in the MePD compared to gonad intact and GDX-DHT groups indicating decreased stress-induced activation of CRFR1 neurons following GDX. Higher plasma corticosterone (CORT) was found in GDX males compared to GDX-DHT and sham males following restraint stress, with a negative correlation between PVN CRFR1+ neurons and corticosterone levels 30- and 90-min following restraint. Together these findings show androgens can directly alter CRFR1 levels in the brain which may have implications for sex differences in regulation of the HPA axis and stress-related behaviors.
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Peripheral nerve injury (PNI) is a common disease that causes the partial loss of sensory, exercise, and autonomic nervous function. In clinical practice, accurate end-to-end neurorrhaphy of the epineurium without tension is the ideal treatment when there is no nerve defect. We have confirmed that peripheral blood mononuclear cells (PBMCs) can effectively improve nerve regeneration and motor function recovery after PNI. ⋯ We then used TMT labeling quantitative proteomics to explore the underlying mechanism by which PBMCs ameliorated sciatic nerve injury. Results showed that PBMCs regulated 40 differential proteins and the regulated proteins were primarily involved in the complement and coagulation cascade pathways, the notch signaling pathway, the renin angiotensin system, DNA replication, histidine metabolism, β-alanine metabolism, and other types of O-glycan biosynthesis. Immunohistochemical results supported our findings on the changes in expression of Kininogen 1 and Psen1, the relationships between PNI and the notch pathway and the complement and coagulation level pathways.
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Somatosensory neurons detect vital information about the environment and internal status of the body, such as temperature, touch, itch, and proprioception. The circuit mechanisms controlling the coding of somatosensory information and the generation of appropriate behavioral responses are not clear yet. ⋯ In this study we describe and validate a rabies tracing approach for mapping mouse spinal circuits receiving sensory input from distinct, genetically defined, modalities. We analyzed the anatomical organization of spinal circuits involved in coding of thermal and mechanical stimuli and showed that somatosensory information from distinct modalities is relayed to partially overlapping ensembles of interneurons displaying stereotyped laminar organization, thus highlighting the importance of positional features and population coding for the processing and integration of somatosensory information.
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The medial olivocochlear (MOC) system is thought to be responsible for modulation of peripheral hearing through descending (efferent) pathways. This study investigates the connection between peripheral hearing function and auditory attention tasks of different degrees of difficulty. Peripheral hearing function was evaluated by analyzing the amount of change in otoacoustic emissions (OAEs) by contralateral acoustic stimulation (CAS), a well-known effect of the MOC system. ⋯ There was also no effect on OAE latency, nor was there any difference in noise level or number of rejected trials. However, we observed that the changes in OAEs by CAS for easy and hard tasks were correlated with the magnitude of the P3 wave in the ERP. This suggests there might be some sort of mutual compensation mechanism - presently unknown - between periphery and cortex.
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Although various studies have reported a high prevalence of depression among Parkinson's disease (PD) patients, the pathophysiological mechanism of depression in PD (DPD) is still unclear. The core region of the reward network, the ventral striatum (VS), is critical in the occurrence and development of DPD. This study aimed to explore the altered functional connectivity (FC) of VS subregions in DPD. ⋯ The hyperconnectivity between vCa_L and the MOG. L might be viewed as a compensatory mechanism for depression in the early stage of PD. This study provides new insight into the neural mechanism of depression in the early stage of PD and contributes to explore the potential neuroimaging markers for DPD.