Neuroscience
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Language is a remarkable cognitive ability that can be expressed through visual (written language) or auditory (spoken language) modalities. When visual characters and auditory speech convey conflicting information, individuals may selectively attend to either one of them. However, the dominant modality in such a competing situation and the neural mechanism underlying it are still unclear. ⋯ Results showed a prominent auditory dominance when audio-visual competition occurred. Specifically, higher accuracy (ACC), larger N400 amplitudes and more linkages in the posterior occipital-parietal areas were demonstrated in the auditory mismatch condition compared to that in the visual mismatch condition. Our research illustrates the superiority of the auditory speech over the visual characters, extending our understanding of the neural mechanisms of audio-visual competition in Chinese.
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Some studies have suggested that mitochondrial dysfunction and a superoxide imbalance could increase susceptibility to chronic stressful events, contributing to the establishment of chronic inflammation and the development of mood disorders. The mitochondrial superoxide imbalance induced by some molecules, such as rotenone, could be evolutionarily conserved, causing behavioral, immune, and neurological alterations in animals with a primitive central nervous system. ⋯ These data suggest that mitochondrial dysfunction could be an evolutionarily conserved element that induces inflammatory and behavioral changes related to chronic stress.
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Prenatal hypoxia (PH) is one of the most common adverse stimulation during pregnancy. The brain is fragile in the fetal period and sensitive to hypoxia. The offspring who have experienced PH may be at increased risk of developing neurodevelopmental disorders after birth and various neuropsychiatric diseases after adulthood. ⋯ The expression of the oxygen-sensitive subunit of hypoxia-inducible factor (Hif-1α) was significantly elevated, whereas Ten-eleven translocated methylcytosine dioxygenase 1 (Tet1) and c-Myc, which is closely related to cell proliferation, were significantly decreased in the hippocampus of the male offspring in the PH group. In addition, the PH group showed increased binding of Hif-1α to Tet1, and decreased binding of Tet1 to c-Myc, resulting in increased ubiquitinated degradation of c-Myc and decreased neurogenesis in the hippocampus of the male offspring. These findings suggest that Hif-1α regulates Tet1-c-Myc binding involved in depression-like behavior in PH offspring and Hif-1α can be used as a detection index of stress-related diseases.
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Parkinson's Disease (PD) is a neurogenerative disorder characterized by the death of dopaminergic neurons in the Substantia Nigra pars compacta (SNpc), leading to motor, cognitive, learning, and respiratory dysfunctions. New evidence revealed that breathing impairment in PD mainly results from oxidative stress (OS) that initiates apoptotic signaling in respiratory neurons. Here, we investigated the role of OS inhibition using apocynin (non-specific NADPH oxidase inhibitor) in a 6-OHDA PD animal model in the neural control of breathing. ⋯ After 20 days of apocynin treatment, neurodegeneration of respiratory nuclei and breathing dysfunction in 6-OHDA animals were prevented. Thus, OS contributes to respiratory neuron death, consequently leading to breathing dysfunction in the 6-OHDA PD animal model. Furthermore, these results present a new perspective for preventing the onset and progression of PD-related respiratory impairments.