Neuroscience
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The frontal eye field (FEF) has a strong influence on saccadic eye movements with the head restrained. With the head unrestrained, eye saccades combine with head movements to produce large gaze shifts, and microstimulation of the FEF evokes both eye and head movements. To test whether the dorsomedial FEF provides commands for the entire gaze shift or its separate eye and head components, we recorded extracellular single-unit activity in monkeys trained to make large head-unrestrained gaze shifts. ⋯ For the remaining 13 neurons, the NOS was strongly correlated with the head movement amplitude, but burst temporal parameters were most strongly correlated with eye movement temporal metrics (head-eye-related burst neurons, HEBNs). These results suggest that FEF units do not encode a command for the unified gaze shift only; instead, different units may carry signals related to the overall gaze shift or its eye and/or head components. Moreover, the HEBNs exhibit bursts whose magnitude and timing may encode a head displacement signal and a signal that influences the timing of the eye saccade, thereby serving as a mechanism for coordinating the eye and head movements of a gaze shift.
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The Müller glial cells exhibit stem cell properties and express neuronal markers following experimentally induced retinal injury. However, it is not known whether Müller glia respond similarly to degenerative neuronal loss caused by genetic mutation. Here, we asked whether Müller cells dedifferentiate and express neuronal proteins in rd1 mouse, a naturally occurring mutant model of inherited retinal degeneration. ⋯ We did not find the expression of PKCα, β-III-tubulin or recoverin in Müller cells in adult rd1 mouse. These results suggested that Müller cells in rd1 mouse express proteins specific to retinal neurons that are the primary targets of the mutation in this mouse. Although the functional significance of rhodopsin expression by Müller cells is unclear, these results have implications for novel therapeutic strategies for retinal degeneration.
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The bed nucleus of the stria terminalis (BNST) plays a critical role in regulating the behavioral response to stress. Stressors that activate the BNST also activate serotonergic (5-HT) systems. Hence, maladaptive changes of 5-HT receptor expression may contribute to stress-induced anxiety disorders. ⋯ Significantly USS decreased 5-HT(1A) protein level, and increased the level of Deaf-1. USS also increased 5-HT(1B) transcript expression in Type III neurons, as well as 5-HT(7) expression in Type I and II neurons. These data suggest that cell type-specific disruption of 5-HT receptor expression in BNST(ALG) neurons may contribute to stress-induced anxiety disorders.
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Protocadherin 9 (Pcdh9) is a member of the protocadherin family, which includes many members involved in various phenomena, such as cell-cell adhesion, neural projection, and synapse formation. Here, we identified Pcdh9 protein in the mouse brain and examined its distribution during neural development. Pcdh9, with a molecular weight of approximately 180 kDa, was localized at cell-cell contact sites in COS-1 cells transfected with Pcdh9 cDNA. ⋯ In the mature retina, Pcdh9 immunoreactivity was detected in distinct sublaminae of the inner and outer plexiform layers. In the dorsal root ganglion, only certain subsets of neurons showed Pcdh9 immunoreactivity. These results suggest that Pcdh9 might be involved in formation of specific neural circuits during neural development.
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The reserve pool (RP) and readily releasable pool (RRP) of synaptic vesicles within presynaptic nerve terminals, at crayfish and larval Drosophila neuromuscular junctions (NMJs), were examined for physiological differentiation into distinctly separate functional groups. These NMJs are glutamatergic and produce graded excitatory postsynaptic potentials (EPSPs). The packaging of glutamate was perturbed by blocking the vesicular glutamate transporter (VGlut) with bafilomycin A1. ⋯ When stimulation frequency is high (40 Hz) the RP is recruited to the RRP and dampens subsequent recruitment with 5-HT. The higher output synapses of the larval Drosophila NMJ when stimulated at 1 Hz or 5 Hz and exposed to 4 μM of bafilomycin A1 showed a depression rate of 50% within ∼10 min with controls lasting ∼40 min. After low frequency depression and/or exposure to bafilomycin A1 a burst of higher frequency (10 Hz) can recruit vesicles from the RP to the RRP.