Long Term Synaptic Plasticity In Mouse Cerebellar Stellate Cells PDF Download

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Long-term Synaptic Plasticity in Mouse Cerebellar Stellate Cells

Long-term Synaptic Plasticity in Mouse Cerebellar Stellate Cells
Author: Lu Sun
Publisher:
Total Pages:
Release: 2009
Genre:
ISBN:
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The cerebellum is a brain structure essential for motor control and coordination, as well as motor learning and memory. The highly organized anatomy of the cerebellum makes it a good model for the study of network function. As the only output of the cerebellar cortex, Purkinje cells are considered as the cellular basis for certain types of motor learning. Purkinje cells receive excitatory synaptic inputs from parallel fibers and climbing fibers, and inhibitory inputs from GABAergic interneurons located at the molecular layer of the cerebellum. Since the activity of Purkinje cells is largely regulated by the synaptic integration, knowledge about cerebellar granule cells and interneurons is necessary for the understanding of the mechanism of motor learning and memory. Interneurons including stellate cells and basket cells obtain afferent excitatory inputs from parallel fibers and project inhibitory inputs onto Purkinje cells, and thus form a feed-forward inhibition network. The inhibition from the interneurons counteracts the excitatory effects from parallel fibers and prevents the Purkinje cells from being over excited. However, the synaptic plasticity of the interneurons remains elusive. Using stellate cell as a model, we investigated the function of glutamate receptors in the synaptic plasticity in interneurons and the consequent impact on the pattern of GABA release from interneuron axonal terminals, which directly determines the inhibition of Purkinje cells. We observed that the activation of extrasynaptic NMDA receptors could induce a new form of synaptic plasticity at the parallel fiber-to-stellate cell synapse, including a subtype switch of AMPA receptors from naturally GluR2-lacking (Ca2+-permeable) to GluR2-containing (Ca2+-impermeable). This plasticity is probably postsynaptically induced and requires protein kinase C (PKC) and the activity of protein interacting with PRKCA 1 (PICK1). In addition, previous studies showed that the activation of NMDA receptors directly triggered a long-lasting potentiation of GABA release at axonal terminals. Our work about the characterization of NMDA receptors in stellate cells suggested the possible expression of NR2B and NR2D subunits. However, blockade of single subtype of NMDA receptors did not affect the basal level of GABA release. Changes in synaptic transmission would alter the excitability of a cell and therefore affect the action potential firing pattern. We explored if action potential firing would in return regulate the synaptic efficacy. We found that blockade of spontaneous action potentials (sAPs) in stellate cells induced an increased expression of GluR2-containing AMPA receptors at the parallel fiber-to-stellate cell synapse. This effect might be transcription-independent, but requires intact protein synthesis machinery. Moreover, inhibition of calmodulin mimicked the effect of sAP blockade, indicating the sAP blockade-induced GluR2 expression may be mediated by a reduced calmodulin activity. Our study revealed mechanisms underlying long-term plasticity of AMPAR subtype at the parallel fiber-to-stellate cell synapse, and the potential functional significance. Our findings would gain the insight into cerebellar interneuron functions and their contribution to motor learning and memory.

Motor Learning and Synaptic Plasticity in the Cerebellum

Motor Learning and Synaptic Plasticity in the Cerebellum
Author: Paul J. Cordo
Publisher: Cambridge University Press
Total Pages: 78
Release: 1997-11-28
Genre: Medical
ISBN: 9780521597050
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This book is concerned with the involvement of the cerebellum in learning and remembering motor tasks. It is unique in discussing plasticity at both the cellular and at the behavioral level.

Synaptic Plasticity

Synaptic Plasticity
Author: M. Baudry
Publisher: MIT Press
Total Pages: 292
Release: 1993
Genre: Neuroplasticity
ISBN: 9780262023597
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An up-to-date overview of the current status of research on the full scope of synaptic plasticity, including synaptic remodeling in response to damage, long-term depression and long-term potentiation, and learning and memory.Synaptic Plasticity presents an up-to-date overview of the current status of research on the full scope of synaptic plasticity, including synaptic remodeling in response to damage, long-term depression and long-term potentiation, and learning and memory. The contributions are written by leading experts in the field and cover approaches from biochemical, anatomical, physiological, behavioral, and computational levels. They offer hypotheses concerning the molecular and cellular mechanisms that are responsible for the various manifestations of synaptic plasticity and propose models explaining how these cellular events can be linked to the functional and behavioral expressions of these adaptive principles. ContentsIntroduction - Molecular Correlates of Activity-dependent Development and Synaptic Plasticity, S. Hockfield - Molecular Sorting in Neurons, 0. Steward - Molecular and Morphological Responses to Deafferentation in Rodents, C. E. Finch, T. H. McNeill - Forms of Long-term Potentiation Induced by NMDA and Non-NMDA Receptor Activation, T. Teyler, L. Grover - Long-term Potentiation: Biochemical Mechanisms, M. Baudry, G. Lynch - Cerebellar Mechanisms of Long-Term Depression, M. Ito - Long-term Depression: Related Mechanisms in Cerebellum, Neocortex, and Hippocampus, A. Artola, W. Singer - Theory of Synaptic Plasticity in Visual Cortex, N. Intrator, M. F. Bear, L. N. Cooper, M. A. Paradiso - A Theoretical and Experimental Strategy for Realizing a Biologically Based Model of the Hippocampus, T. W. Berger et al - Synaptic Plasticity, Learning, and Memory, S. P. Rose - Synaptic Plasticity and Memory Storage, R. F. Thompson et al

Cerebellar Learning

Cerebellar Learning
Author:
Publisher: Elsevier
Total Pages: 312
Release: 2014-06-07
Genre: Science
ISBN: 0444634266
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Progress in Brain Research is the most acclaimed and accomplished series in neuroscience, firmly established as an extensive documentation of the advances in contemporary brain research. The volumes, some of which are derived from important international symposia, contain authoritative reviews and original articles by invited specialists. The rigorous editing of the volumes assures that they will appeal to all laboratory and clinical brain research workers in the various disciplines: neuroanatomy, neurophysiology, neuropharmacology, neuroendocrinology, neuropathology, basic neurology, biological psychiatry, and the behavioral sciences. This volume, The Cerebellum and Memory Formation: Structure, Computation and Function, covers topics including feedback control of cerebellar learning; cortico-cerebellar organization and skill acquisition; cerebellar plasticity and learning in the oculomotor system, and more. Leading authors review the state-of-the-art in their field of investigation, and provide their views and perspectives for future research The volume reflects current thinking about the ways in which the cerebellum can engage in learning, and the contributors come from a variety of research fields The chapters express perspectives from different levels of analysis that range from molecular and cellular mechanisms through to long-range systems that allow the cerebellum to communicate with other brain areas

Role of Cerebellar LTP at Parallel Fiber

Role of Cerebellar LTP at Parallel Fiber
Author: Julie Lefort
Publisher:
Total Pages: 0
Release: 2014
Genre:
ISBN:
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Spatial navigation can be divided into two processes: building a spatial representation from the environment exploration and using this representation to produce an adapted trajectory toward a goal. During the environment exploration, external and self-motion information (i.e. vestibular and proprioceptive) are combined to form the spatial map. It has long been suggested that the cerebellum participates in spatial navigation but its role has often been confined to motor execution. Our team has studied L7-PKCI mice which lack a plasticity mechanism (long term depression (LTD)) at parallel fiber-Purkinje cell synapses in the cerebellar cortex. These works have shown that L7-PKCI mice present a deficit in trajectory optimization as well as in the maintenance of the cognitive map in the hippocampus. Indeed in these mice, the firing properties of hippocampal place cells are affected specifically when mice have to rely on self-motion information, i.e. when exploring the environment in the dark.A these same synapses, another type of plasticity (long term potentiation (LTP)) has been described, and allows (with LTD) the bidirectional modulation of the synaptic efficiency. Bidirectional plasticity is a key element of the 'adaptive filter' theoretical models of cerebellar information processing. According to these models, a lack of LTP or LTD should similarly affect bidirectional plasticity and result in comparable deficits. To test this prediction, we investigated the functional consequences of a deficit of LTP at parallel fiber-Purkinje cell synapses using the L7-PP2B mice model, specifically impaired for this plasticity.In spite of a mild motor adaptation deficit, revealed on the rotarod task, spatial learning of L7-PP2B mice was not impaired in the watermaze task. Hippocampal place cell properties of L7-PP2B mice were characterized during exploration of a circular arena, following different experimental manipulations. In contrast to mice lacking cerebellar LTD, place cells properties of L7-PP2B mice were not impaired when mice had to rely on self-motion cues, i.e. in the dark. Surprisingly, L7-PP2B place cells displayed instability in the absence of any proximal cue manipulation in 23 % of the recording sessions. This instability occurred in an unpredictable way in a familiar environment and was characterized each time by a coherent angular rotation of the whole set of recorded place cells. These data suggest that, in the absence of cerebellar LTP, hippocampal spatial representation cannot be reliably anchored to the proximal cue. These results along with those from L7PKCI mice, indicate that the cerebellum contributes to both hippocampal representation and subsequent navigation abilities and that LTP and LTD are likely to play different roles in these processes.

Inhibitory Synaptic Plasticity

Inhibitory Synaptic Plasticity
Author: Melanie A. Woodin
Publisher: Springer Science & Business Media
Total Pages: 191
Release: 2010-11-02
Genre: Medical
ISBN: 1441969780
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This volume will explore the most recent findings on cellular mechanisms of inhibitory plasticity and its functional role in shaping neuronal circuits, their rewiring in response to experience, drug addiction and in neuropathology. Inhibitory Synaptic Plasticity will be of particular interest to neuroscientists and neurophysiologists.

Handbook of the Cerebellum and Cerebellar Disorders

Handbook of the Cerebellum and Cerebellar Disorders
Author: Mario Manto
Publisher: Springer
Total Pages: 0
Release: 2012-08-04
Genre: Medical
ISBN: 9789400713321
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Our knowledge of cerebellar functions and cerebellar disorders, called ataxias, is increasing considerably. Studies of the cerebellum are now a central focus in neuroscience. During the last four decades, many laboratories worldwide have dedicated their research activities to understanding the roles of the cerebellum in motor control, cognitive processes and biology of mental processes, behavioral symptoms, and emotion. It is now accepted that the cerebellum acts as a cognitive operator in learning, perception, and attention. Moreover, major improvements in our assessment of in vivo cerebellar architecture using imaging techniques have occurred. A typical example is the accurate description of cerebellar anatomy during fetal development with MRI, a progress which has direct impacts on patient care. These advances have been associated with discoveries of new clinical disorders, in particular in the field of genetic ataxias. More than 20 new genes have been identified these last 10 years. Only for dominant ataxias, more than 30 diseases have now been unravelled. The number of ataxic disorders will increase with aging, the cerebellum being the structure of the brain with the most important loss of neurons with age. More than 300 different cerebellar disorders are encountered during daily practice, but we are missing a single source of information explaining their pathogenesis. Despite the immense amount of knowledge acquired about the cerebellar circuitry these last years, a large book covering the neuroscience of the cerebellum is missing. The goal of this endeavour is to bring up to date information relevant for basic science and also for clinical activities. To reach this goal, the most renowned authors are gathered in a unique and in-depth book with a format of a handbook. We emphasize the connections between molecular findings, imaging features, behavioural/neuropsychological aspects, and clinical implications.

Cerebellar Cortex

Cerebellar Cortex
Author: S.L. Palay
Publisher: Springer Science & Business Media
Total Pages: 361
Release: 2012-12-06
Genre: Medical
ISBN: 3642655815
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The origins of this book go back to the first electron microscopic studies of the central nervous system. The cerebellar cortex was from the first an object of close study in the electron microscope, repeating in modern cytology and neuroanatomy the role it had in the hands of RAMON y CAJAL at the end of the nineteenth century. The senior author vividly remembers a day early in 1953 when GEORGE PALADE, with whom he was then working, showed him an electron micrograph of a cerebellar glomerulus, saying "That is what the synapse should look like. " It is true that the tissue was swollen and the mitochondria were exploded, but all of the essentials of synaptic structure were visible. At that time small fragments of tissue, fixed by immersion in osmium tetroxide and embedded in methacrylate, were laboriously sectioned with glass knives without any predetermined orientation and then examined in the electron microscope. After much searching, favorably preserved areas' were studied at the cytological level in order to recognize the parts of neurons and characterize them. Such procedures, dependent upon random sections and uncontrollable selection by a highly erratic technique of preservation, precluded any systematic investigation of the organization of a particular nucleus or region of the central nervous system. It was difficult enough to distinguish neurons from the neuroglia.