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Basket Cells (basket + cell)
Selected AbstractsA retrospective view on research in neuroscience in NorwayACTA NEUROLOGICA SCANDINAVICA, Issue 2008L. Gjerstad This brief historical review on neuroscience in Norway shows a comparatively high research activity with many important results. The Norwegian zoologist Fridtjof Nansen, who later became a famous Arctic explorer, was the first to formulate the neuron doctrine. ,The Oslo School of Neuroanatomy' contributed enormously to the understanding of the detailed anatomy and chemistry of the central nervous system. Norwegian neurophysiologists made important findings from studies of hippocampus including the inhibitory basket cell, the LTP phenomenon and the ,hippocampal-slice-technique'. In clinical neuroscience the description of Refsum's disease and studies of myasthenia gravis and multiple sclerosis have been of particular importance. Two of 13 centres of excellence in Norway selected in 2003 were from neuroscience, and The Norwegian Research Council has its own programme for neuroscience. The Norwegian Neurological Association arranges annual meetings to promote interest in neurological research. [source] Activity-dependent formation and functions of chondroitin sulfate-rich extracellular matrix of perineuronal netsDEVELOPMENTAL NEUROBIOLOGY, Issue 5 2007Alexander Dityatev Abstract Extracellular matrix molecules,including chondroitin sulfate proteoglycans, hyaluronan, and tenascin-R,are enriched in perineuronal nets (PNs) associated with subsets of neurons in the brain and spinal cord. In the present study, we show that similar cell type-dependent extracellular matrix aggregates are formed in dissociated cell cultures prepared from early postnatal mouse hippocampus. Starting from the 5th day in culture, accumulations of lattice-like extracellular structures labeled with Wisteria floribunda agglutinin were detected at the cell surface of parvalbumin-expressing interneurons, which developed after 2,3 weeks into conspicuous PNs localized around synaptic contacts at somata and proximal dendrites, as well as around axon initial segments. Physiological recording and intracellular labeling of PN-expressing neurons revealed that these are large fast-spiking interneurons with morphological characteristics of basket cells. To study mechanisms of activity-dependent formation of PNs, we performed pharmacological analysis and found that blockade of action potentials, transmitter release, Ca2+ permeable AMPA subtype of glutamate receptors or L-type Ca2+ voltage-gated channels strongly decreased the extracellular accumulation of PN components in cultured neurons. Thus, we suggest that Ca2+ influx via AMPA receptors and L-type channels is necessary for activity-dependent formation of PNs. To study functions of chondroitin sulfate-rich PNs, we treated cultures with chondroitinase ABC that resulted in a prominent reduction of several major PN components. Removal of PNs did not affect the number and distribution of perisomatic GABAergic contacts but increased the excitability of interneurons in cultures, implicating the extracellular matrix of PNs in regulation of interneuronal activity. © 2007 Wiley Periodicals, Inc. Develop Neurobiol, 2007 [source] Convergence of excitatory and inhibitory inputs onto CCK-containing basket cells in the CA1 area of the rat hippocampusEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 5 2004Ferenc Mátyás Abstract The number and distribution of excitatory and inhibitory inputs affect the integrative properties of neurons. These parameters have been studied recently for several hippocampal neuron populations. Besides parvalbumin- (PV) containing cells that include basket and axo-axonic cells, cholecystokinin (CCK)-containing interneurons also form a basket cell population with several properties distinct from PV cells. Here, at the light microscopic level, we reconstructed the entire dendritic tree of CCK-immunoreactive (IR) basket cells to describe their geometry, the total length and laminar distribution of their dendrites. This was followed by an electron microscopic analysis of serial ultrathin sections immunostained against ,-aminobutyric acid, to estimate the density of excitatory and inhibitory synapses on their somata, axon initial segments and different subclasses of dendrites. The dendritic tree of CCK-IR basket cells has an average length of 6300 µm and penetrates all layers. At the electron microscopic level, CCK basket cells receive dendritic inputs with a density of 80,230 per 100 µm. The ratio of inhibitory inputs is relatively high (35%) and increases towards the soma (83%). The total numbers of excitatory and inhibitory synapses converging onto CCK-IR cells are ,,8200. Comparison of the two, neurochemically distinct basket cells reveals that CCK-containing basket cells receive much less synaptic input than PV cells; however, the relative weight of inhibition is higher on CCK cells. Additional differences in their anatomical and physiological properties predict that CCK basket cells are under a more diverse, elaborate control than PV basket cells, and thus the function of the two populations must be different. [source] Analysis of the function of GABAB receptors on inhibitory afferent neurons of Purkinje cells in the cerebellar cortex of the ratEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2002Marta Than Abstract Purkinje cells, the output neurons of the cerebellar cortex, receive inhibitory input from basket, stellate and neighbouring Purkinje cells. The aim of the present study was to clarify the role of GABAB receptors on neurons giving inhibitory input to Purkinje cells. In sagittal slices prepared from the cerebellar vermis of the rat, the GABAB receptor agonist baclofen lowered the frequency and amplitude of spontaneous inhibitory postsynaptic currents (IPSCs) recorded in Purkinje cells. These effects were prevented by the GABAB receptor antagonist CGP 55845. Two mechanisms were involved in the depression of the inhibitory input to Purkinje cells. The first mechanism was suppression of the firing of basket, stellate and Purkinje cells. The second mechanism was presynaptic inhibition of GABA release from terminals of the afferent axons. This was indicated by the finding that baclofen decreased the amplitude of IPSCs occurring in Purkinje cells synchronously with action potentials recorded in basket cells. A further support for the presynaptic inhibition is the observation that baclofen decreased the amplitude of autoreceptor currents which are due to activation of GABAA autoreceptors at axon terminals of basket cells by synaptically released GABA. The presynaptic inhibition was partly due to direct inhibition of the vesicular release mechanism, because baclofen lowered the frequency of miniature IPSCs recorded in Purkinje cells in the presence of cadmium and in the presence of tetrodotoxin plus ionomycin. The results show that activation of GABAB receptors decreased GABAA receptor-mediated synaptic input to cerebellar Purkinje cells both by lowering the firing rate of the inhibitory input neurons and by inhibiting GABA release from their axon terminals with a presynaptic mechanism. [source] Differential sensitivity to Zolpidem of IPSPs activated by morphologically identified CA1 interneurons in slices of rat hippocampusEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 2 2000Alex M. Thomson Abstract Hippocampal pyramidal cells express several ,-subunits, which determine the affinity of GABAA (,-aminobutyric acid) receptors for benzodiazepine site ligands. This study asked whether inhibitory postsynaptic potentials (IPSPs) elicited by specific interneuronal subclasses were differentially sensitive to the ,1-preferring agonist Zolpidem, i.e. whether different receptors mediate different inhibitory connections. Paired intracellular recordings in which the presynaptic cell was an interneuron and the postsynaptic cell a CA1 pyramid were performed in slices of adult rat hippocampus. Resultant IPSPs were challenged with Zolpidem, cells filled with biocytin and identified morphologically. IPSPs elicited by fast spiking (FS) basket cells (n = 9) were enhanced more than IPSPs elicited by regular spiking (RS) basket cells (n = 10). At FS basket cell synapses the efficacy of Zolpidem was equivalent to that of Diazepam, while RS basket cell IPSPs are enhanced 50% less by Zolpidem than by Diazepam. Thus, while ,1 subunits may dominate at synapses supplied by FS basket cells, RS basket cell synapses also involve ,2/3 subunits. Two bistratified cell IPSPs tested with Zolpidem did not increase in amplitude, despite powerful enhancements of bistratified cell IPSPs by Diazepam, consistent with previous indications that these synapses utilize ,5-containing receptors. Enhancements of basket cell IPSPs by Zolpidem and Diazepam were bi- or triphasic with steep amplitude increases separated by plateaux, occurring 10,15, 25,30 and 45,55 min after adding the drug to the bath. The entire enhancement was, however, blocked by the antagonist Flumazenil (n = 7). Flumazenil, either alone (n = 3), or after Zolpidem, reduced IPSP amplitude to ,,90% of control, suggesting that ,4-containing receptors were not involved. [source] Mu opioid receptors are in discrete hippocampal interneuron subpopulationsHIPPOCAMPUS, Issue 2 2002Carrie T. Drake Abstract In the rat hippocampal formation, application of mu opioid receptor (MOR) agonists disinhibits principal cells, promoting excitation-dependent processes such as epileptogenesis and long-term potentiation. However, the precise location of MORs in particular inhibitory circuits, has not been determined, and the roles of MORs in endogenous functioning are unclear. To address these issues, the distribution of MOR-like immunoreactivity (-li) was examined in several populations of inhibitory hippocampal neurons in the CA1 region using light and electron microscopy. We found that MOR-li was present in many parvalbumin-containing basket cells, but absent from cholecystokinin-labeled basket cells. MOR-li was also commonly in interneurons containing somatostatin-li or neuropeptide Y-li that resembled the "oriens,lacunosum-moleculare" (O-LM) interneurons innervating pyramidal cell distal dendrites. Finally, MOR-li was in some vasoactive intestinal peptide- or calretinin-containing profiles resembling interneurons that primarily innervate other interneurons. These findings indicate that MOR-containing neurons form a neurochemically and functionally heterogeneous subset of hippocampal GABAergic neurons. MORs are most frequently on interneurons that are specialized to inhibit pyramidal cells, and are on a limited number of interneurons that target other interneurons. Moreover, the distribution of MORs to different neuronal types in several laminae, some relatively far from endogenous opioids, suggests normal functional roles that are different from the actions seen with exogenous agonists such as morphine. Hippocampus 2002;12:119,136. © 2002 Wiley-Liss, Inc. [source] Modeling hippocampal theta oscillation: Applications in neuropharmacology and robot navigationINTERNATIONAL JOURNAL OF INTELLIGENT SYSTEMS, Issue 9 2006Tamás Kiss This article introduces a biologically realistic mathematical, computational model of theta (,5 Hz) rhythm generation in the hippocampal CA1 region and some of its possible further applications in drug discovery and in robotic/computational models of navigation. The model shown here uses the conductance-based description of nerve cells: Populations of basket cells, alveus/lacunosum-moleculare interneurons, and pyramidal cells are used to model the hippocampal CA1 and a fast-spiking GABAergic interneuron population for modeling the septal influence. Results of the model show that the septo-hippocampal feedback loop is capable of robust theta rhythm generation due to proper timing of pyramidal cells and synchronization within the basket cell network via recurrent connections. © 2006 Wiley Periodicals, Inc. Int J Int Syst 21: 903,917, 2006. [source] Modulation and function of the autaptic connections of layer V fast spiking interneurons in the rat neocortexTHE JOURNAL OF PHYSIOLOGY, Issue 12 2010William M. Connelly Neocortical fast-spiking (FS) basket cells form dense autaptic connections that provide inhibitory GABAergic feedback after each action potential. It has been suggested that these autaptic connections are used because synaptic communication is sensitive to neuromodulation, unlike the voltage-sensitive potassium channels in FS cells. Here we show that layer V FS interneurons form autaptic connections that are largely perisomatic, and without perturbing intracellular Cl, homeostasis, that perisomatic GABAergic currents have a reversal potential of ,78 ± 4 mV. Using variance,mean analysis, we demonstrate that autaptic connections have a mean of 14 release sites (range 4,26) with a quantal amplitude of 101 ± 16 pA and a probability of release of 0.64 (Vcommand=,70 mV, [Ca2+]o= 2 mm, [Mg2+]o= 1 mm). We found that autaptic GABA release is sensitive to GABAB and muscarinic acetylcholine receptors, but not a range of other classical neuromodulators. Our results indicate that GABA transporters do not regulate FS interneuron autapses, yet autaptically released GABA does not act at GABAB or extrasynaptic GABAA receptors. This research confirms that the autaptic connections of FS cells are indeed susceptible to modulation, though only via specific GABAergic and cholinergic mechanisms. [source] Efficient Ca2+ buffering in fast-spiking basket cells of rat hippocampusTHE JOURNAL OF PHYSIOLOGY, Issue 8 2008Yexica Aponte Fast-spiking parvalbumin-expressing basket cells (BCs) represent a major type of inhibitory interneuron in the hippocampus. These cells inhibit principal cells in a temporally precise manner and are involved in the generation of network oscillations. Although BCs show a unique expression profile of Ca2+ -permeable receptors, Ca2+ -binding proteins and Ca2+ -dependent signalling molecules, physiological Ca2+ signalling in these interneurons has not been investigated. To study action potential (AP)-induced dendritic Ca2+ influx and buffering, we combined whole-cell patch-clamp recordings with ratiometric Ca2+ imaging from the proximal apical dendrites of rigorously identified BCs in acute slices, using the high-affinity Ca2+ indicator fura-2 or the low-affinity dye fura-FF. Single APs evoked dendritic Ca2+ transients with small amplitude. Bursts of APs evoked Ca2+ transients with amplitudes that increased linearly with AP number. Analysis of Ca2+ transients under steady-state conditions with different fura-2 concentrations and during loading with 200 ,m fura-2 indicated that the endogenous Ca2+ -binding ratio was ,200 (,S= 202 ± 26 for the loading experiments). The peak amplitude of the Ca2+ transients measured directly with 100 ,m fura-FF was 39 nm AP,1. At ,23°C, the decay time constant of the Ca2+ transients was 390 ms, corresponding to an extrusion rate of ,600 s,1. At 34°C, the decay time constant was 203 ms and the corresponding extrusion rate was ,1100 s,1. At both temperatures, continuous theta-burst activity with three to five APs per theta cycle, as occurs in vivo during exploration, led to a moderate increase in the global Ca2+ concentration that was proportional to AP number, whereas more intense stimulation was required to reach micromolar Ca2+ concentrations and to shift Ca2+ signalling into a non-linear regime. In conclusion, dentate gyrus BCs show a high endogenous Ca2+ -binding ratio, a small AP-induced dendritic Ca2+ influx, and a relatively slow Ca2+ extrusion. These specific buffering properties of BCs will sharpen the time course of local Ca2+ signals, while prolonging the decay of global Ca2+ signals. [source] | ||||||||||