Hippocampus
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Neurocalcin (NC) is a recently described calcium-binding protein isolated and characterized from bovine brain. NC belongs to the neural calcium-sensor proteins defined by the photoreceptor cell-specific protein recoverin that have been proposed to be involved in the regulation of calcium-dependent phosphorylation in signal transduction pathways. We analyzed the distribution and morphology of the NC-immunoreactive (IR) neurons in the rat dorsal hippocampus and the coexistence of NC with GABA and different neurochemical markers which label perisomatic inhibitory cells [parvalbumin (PV) and cholecystokinin (CCK)], mid-proximal dendritic inhibitory cells [calbindin D28k (CB)], distal dendritic inhibitory cells [somatostatin (SOM) and neuropeptide Y (NPY)], and interneurons specialized to innervate other interneurons [calretinin (CR) and vasoactive intestinal polypeptide (VIP)]. ⋯ We conclude that NC is exclusively expressed by interneurons in the rat hippocampus. NC-IR cells are a morphologically and neurochemically heterogeneous subset of GABAergic non-principal cells, which, on the basis of the known termination pattern of the colocalizing markers, are also functionally heterogeneous and are mainly involved in feed-forward dendritic inhibition in the commissural-associational and Schaffer collateral termination zones (CB containing cells), in innervation of other interneurons (CR- and VIP-containing cells), and in perisomatic inhibition (CCK-containing cells). NC is never present in perisomatic inhibitory PV-containing cells, or in feed-back distal dendritic inhibitory SOM/NPY-containing cells.
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Long-term potentiation (LTP) of excitatory synaptic responses of principal neurons in the hippocampus is accompanied by changes in GABAergic inhibition mediated by interneurons. The impact of inhibition on LTP of excitatory postsynaptic responses in CA1 pyramidal cells was assessed by monitoring changes in field potentials evoked by Schaffer collateral stimulation in hippocampal slices in vitro. First, to determine the effect of inhibition on population EPSPs, slices were exposed to the GABA(A) receptor antagonist bicuculline (10 microM). ⋯ These results suggest that a long-lasting enhancement of inhibition in pyramidal cells was also induced following theta-patterned stimulation in normal ACSF. Since suppression of inhibition did not uncover a significantly larger potentiation following 100 Hz tetanization, the influence of inhibition on LTP of excitatory responses appears to be stimulation-dependent. In conclusion, theta-patterned stimulation appears to be more effective at inducing plasticity within inhibitory circuits, and this plasticity may partially offset concurrent increases in the excitability of the CA1 network.
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The combination of central fluid percussion traumatic brain injury (TBI) followed 24 h later by a bilateral entorhinal cortical deafferentation (BEC) produces profound cognitive morbidity. We recently showed that MK-801 given prior to TBI in this insult improved spatial memory for up to 15 days. In the present study we examine whether MK-801 treatment of the BEC component in the combined insult model affects cognitive recovery. ⋯ Immunocytochemical localization of parvalbumin showed that chronic administration of MK-801 in the combined insult cases attenuated the injury-induced dendritic atrophy of inhibitory neurons in the dentate gyrus and area CA1. Synaptophysin immunobinding revealed that chronic MK-801 treatment of the BEC component of the combined insult normalized the distribution of presynaptic terminals within the dentate gyrus. These results suggest that cognitive deficits produced by head trauma involving both neuroexcitation and deafferentation can be attenuated with chronic application of glutamatergic antagonists during the period of deafferentation injury and that this attenuation is correlated with axo-dendritic integrity.
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Corticotropin-releasing hormone (CRH) excites hippocampal neurons and induces death of selected CA3 pyramidal cells in immature rats. These actions of CRH require activation of specific receptors that are abundant in CA3 during early postnatal development. Given the dramatic effects of CRH on hippocampal neurons and the absence of CRH-containing afferents to this region, we hypothesized that a significant population of CRHergic neurons exists in developing rat hippocampus. ⋯ These results confirm the identity of hippocampal CRH-ir cells as GABAergic interneurons. Further, a subpopulation of neurons immunoreactive for both CRH and parvalbumin and located within and adjacent to the principal cell layers consists of basket and chandelier cells. Thus, axon terminals of CRH-ir interneurons are strategically positioned to influence the excitability of the principal hippocampal neurons via release of both CRH and GABA.
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In urethane-anesthetized rats, cortical regions which provide distal dendritic excitation of the dentate gyrus and CA1 of the dorsal hippocampus were studied using current source density analysis. Electrical stimulation of the lateral perforant path (LPP) in the lateral angular bundle, lateral entorhinal cortex (LEC), and amygdala-entorhinal transition (TR) resulted in a current sink in the outer molecular layer of the dentate gyrus accompanied by proximal sources; this sink-source pattern is distinctly different from the source-sink-source pattern evoked by medial perforant path stimulation. The progressive decrease of the sink latency following stimulation of the TR, LEC, and LPP (11.6, 7.8, and 3.6 ms, respectively, at the dorsal blade of the dentate gyrus) suggests a possible sequence of orthodromic activation of these structures. ⋯ We conclude that the PRh does not provide a significant excitatory input to the DG or CA1. We have found distinct dendritic excitation of the dentate gyrus by the lateral versus medial perforant paths, and by fiber (LPP and MPP) versus cortical (LEC and TR) stimulation. We also emphasize that processing in the entorhinal cortex is important in the temporal shaping of the signals afferent to the hippocampus.