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Author: Julie Dzung Luu Publisher: ISBN: 9781339259222 Category : Languages : en Pages :
Book Description
Understanding of how neural circuits process information from the environment, produce a percept of the external stimuli, and then evoke a behavioral response has been an ultimate goal in neuroscience. To achieve this long-standing goal, we must first understand how neural circuits are established. The functionality of a mature sensory system is highly dependent on the proper formation of precise neuronal connections that convey information about environmental stimuli to specific regions of the central nervous system. The formation of neural circuitry in the developing animal occurs in a series of regulated steps. Developing neuronal precursors first undergo a series of progressive events such as cell division, cell differentiation, cell migration, neuronal extension via elongation of their axon branches, axon guidance, and establishment of synapses. During these progressive events, neurons extend an exuberant number of axons and form an excess of broad connections. The developing nervous system will subsequently undergo a series of regressive events such as cell death, synapse elimination, and pruning of axons. These regressive events refine the immature broadly patterned neural connectivity into a mature precise neural network. Perturbations of axon pruning may result in abnormal neuronal connections, which in turn can lead to deleterious behavioral effects associated with several neuropsychological disorders. The focus of my dissertation research is on the study of regulatory mechanisms underlying axon pruning during the formation of neural circuitry in the mammalian central nervous system, specifically layer 5 pyramidal corticopontine and corticospinal neurons in the visual cortex (V1). I extensively investigate the development of V1 layer 5 pyramidal neurons because both small-scale pruning of visual corticopontine terminal zone (TZ) axons and large-scale stereotyped axon pruning of visual corticospinal tract (CST) axons occur within the same cells. Surprisingly, the precise timing of development and refinement of corticopontine and corticospinal projections of V1 layer 5 pyramidal neurons are not characterized, the mechanisms for small-scale pruning of visual corticopontine TZ axons are completely unknown, and the mechanisms for large-scale stereotyped pruning of visual CST axons are incompletely determined. For my dissertation research, I investigate the development and refinement of corticopontine and corticospinal projections from V1 layer 5 pyramidal neurons. Specifically in Chapter 2, I investigate whether both small-scale pruning of visual corticopontine TZ and large-scale pruning of visual CST axons are regulated by the same set of molecular and neural activity mechanisms or differentially regulated. I will show that both small- and large-scale stereotyped pruning of V1 efferent axons are simultaneously and coordinately regulated by the same set of mechanisms: 1) Semaphorin-3F (Sema3F) signaling through Neuropilin-2 (NPN2), Plexin-A3 (PLA3), and Plexin-A4 (PLA4) co-receptors, and 2) spontaneous retinal waves, not extrinsic visually-evoked activity. By using mouse genetics and comparative approaches, I will also present several lines of evidence to demonstrate that it is the initiation of Stage 3 spontaneous retinal waves, rather than the entire duration, that is necessary for both small-scale visual corticopontine terminal axon pruning and large-scale stereotyped visual CST pruning. In Chapter 3, I investigate the development of corticospinal projections from V1 layer 5 pyramidal neurons into the spinal cord and determine whether visual CST axons descend in multiple spinal cord locations. I will demonstrate that visual CST axons initially extend into both dorsal contralateral and ventral ipsilateral spinal cord and that subsequent large-scale stereotyped pruning will eliminate visual CST axons from both spinal cord locations. I will show that subsequent large-scale stereotyped pruning of dorsal contralateral visual CST axons is regulated by both Sema3F signaling and spontaneous retinal waves interacting along the same pathway, whereas large-scale stereotyped pruning of ventral ipsilateral visual CST axons is regulated by spontaneous retinal waves but not Sema3F signaling.Thus overall, my research has elucidated molecular and neural activity mechanisms regulating axon pruning of layer 5 V1 efferent neurons to advance understanding of regulatory mechanisms underlying axon pruning during the formation of neural circuitry in the mammalian central nervous system.
Author: Julie Dzung Luu Publisher: ISBN: 9781339259222 Category : Languages : en Pages :
Book Description
Understanding of how neural circuits process information from the environment, produce a percept of the external stimuli, and then evoke a behavioral response has been an ultimate goal in neuroscience. To achieve this long-standing goal, we must first understand how neural circuits are established. The functionality of a mature sensory system is highly dependent on the proper formation of precise neuronal connections that convey information about environmental stimuli to specific regions of the central nervous system. The formation of neural circuitry in the developing animal occurs in a series of regulated steps. Developing neuronal precursors first undergo a series of progressive events such as cell division, cell differentiation, cell migration, neuronal extension via elongation of their axon branches, axon guidance, and establishment of synapses. During these progressive events, neurons extend an exuberant number of axons and form an excess of broad connections. The developing nervous system will subsequently undergo a series of regressive events such as cell death, synapse elimination, and pruning of axons. These regressive events refine the immature broadly patterned neural connectivity into a mature precise neural network. Perturbations of axon pruning may result in abnormal neuronal connections, which in turn can lead to deleterious behavioral effects associated with several neuropsychological disorders. The focus of my dissertation research is on the study of regulatory mechanisms underlying axon pruning during the formation of neural circuitry in the mammalian central nervous system, specifically layer 5 pyramidal corticopontine and corticospinal neurons in the visual cortex (V1). I extensively investigate the development of V1 layer 5 pyramidal neurons because both small-scale pruning of visual corticopontine terminal zone (TZ) axons and large-scale stereotyped axon pruning of visual corticospinal tract (CST) axons occur within the same cells. Surprisingly, the precise timing of development and refinement of corticopontine and corticospinal projections of V1 layer 5 pyramidal neurons are not characterized, the mechanisms for small-scale pruning of visual corticopontine TZ axons are completely unknown, and the mechanisms for large-scale stereotyped pruning of visual CST axons are incompletely determined. For my dissertation research, I investigate the development and refinement of corticopontine and corticospinal projections from V1 layer 5 pyramidal neurons. Specifically in Chapter 2, I investigate whether both small-scale pruning of visual corticopontine TZ and large-scale pruning of visual CST axons are regulated by the same set of molecular and neural activity mechanisms or differentially regulated. I will show that both small- and large-scale stereotyped pruning of V1 efferent axons are simultaneously and coordinately regulated by the same set of mechanisms: 1) Semaphorin-3F (Sema3F) signaling through Neuropilin-2 (NPN2), Plexin-A3 (PLA3), and Plexin-A4 (PLA4) co-receptors, and 2) spontaneous retinal waves, not extrinsic visually-evoked activity. By using mouse genetics and comparative approaches, I will also present several lines of evidence to demonstrate that it is the initiation of Stage 3 spontaneous retinal waves, rather than the entire duration, that is necessary for both small-scale visual corticopontine terminal axon pruning and large-scale stereotyped visual CST pruning. In Chapter 3, I investigate the development of corticospinal projections from V1 layer 5 pyramidal neurons into the spinal cord and determine whether visual CST axons descend in multiple spinal cord locations. I will demonstrate that visual CST axons initially extend into both dorsal contralateral and ventral ipsilateral spinal cord and that subsequent large-scale stereotyped pruning will eliminate visual CST axons from both spinal cord locations. I will show that subsequent large-scale stereotyped pruning of dorsal contralateral visual CST axons is regulated by both Sema3F signaling and spontaneous retinal waves interacting along the same pathway, whereas large-scale stereotyped pruning of ventral ipsilateral visual CST axons is regulated by spontaneous retinal waves but not Sema3F signaling.Thus overall, my research has elucidated molecular and neural activity mechanisms regulating axon pruning of layer 5 V1 efferent neurons to advance understanding of regulatory mechanisms underlying axon pruning during the formation of neural circuitry in the mammalian central nervous system.
Author: Reem Khalil Publisher: ISBN: 9781303536755 Category : Languages : en Pages : 458
Book Description
Visual cortical areas are presumed to subserve different perceptual functions as a result of their rich network of interareal anatomical circuits. Interareal circuits have been shown to undergo extensive remodeling in the postnatal period. Revealing the timing of when brain circuits mature may help us assign particular neural substrates to particular visual functions. To illuminate perceptual development, we assessed the postnatal anatomical refinement of interareal feedforward and feedback projections in ferret visual cortex. We also described the developmental trajectory of zinc levels in ferret visual cortex, reflecting a subset of glutamatergic interareal feedforward and feedback processes. We find that the period of major reorganization in feedback circuits, feedforward circuits, as well as the dramatic decline in zinc levels in ferret visual cortex occurs in the month following eye opening. In chapter 1, we demonstrated that zinc histochemistry can be reliably used to distinguish visual cortical areas in juvenile visual cortex and further reveals circuit refinement. We show that the postnatal decline in levels of synaptic zinc follows a broadly similar timecourse in multiple areas of ferret visual cortex. In chapter 2, we assessed the developmental refinement of feedback projections between primary visual cortex and extrastriate areas in the juvenile ferret brain. We reveal substantial refinement in the spatial organization of feedback projections arising from multiple visual areas to primary visual cortex of the ferret during the period after eye opening. We find that while certain aspects of feedback circuitry refine with a similar timecourse in all areas, other aspects refine asynchronously. In chapter 3, we investigated the postnatal development of feedforward projections from V1 to different target areas. Before eye opening, at 4 weeks postnatal, synaptic bouton density is very high, and interbouton interval along individual axons is quite short. In all areas examined, both bouton density decreased, and interbouton interval increased substantially from 6 weeks to 8 weeks postnatal. Therefore, feedback and feedforward cortical circuits appear to share a broadly similar developmental trajectory. Our findings are consistent with the notion that visual experience is necessary and crucial in the refinement of these cortical circuits. Furthermore, our findings suggest that at least some aspects of cortical maturation occur largely synchronously in multiple visual areas.
Author: Man Ho Wong Publisher: ISBN: Category : Languages : en Pages :
Book Description
Circuit refinement is an important developmental process ensuring correct wiring of synaptic connections. During circuit refinement, favorable connections are generated or strengthened while unfavored ones are weakened or eliminated. Such rewiring of synaptic connections during development is not a random but a sophisticated process with activity or experience-dependent plasticity involved. Alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR)-silent synapses, lacking AMPARs and therefore not transmitting at resting potential, act as the substrates for plasticity and lik...
Author: Jeffery A. Winer Publisher: Springer Science & Business Media ISBN: 1441900748 Category : Science Languages : en Pages : 711
Book Description
There has been substantial progress in understanding the contributions of the auditory forebrain to hearing, sound localization, communication, emotive behavior, and cognition. The Auditory Cortex covers the latest knowledge about the auditory forebrain, including the auditory cortex as well as the medial geniculate body in the thalamus. This book will cover all important aspects of the auditory forebrain organization and function, integrating the auditory thalamus and cortex into a smooth, coherent whole. Volume One covers basic auditory neuroscience. It complements The Auditory Cortex, Volume 2: Integrative Neuroscience, which takes a more applied/clinical perspective.
Author: Retina Research Foundation (U.S.). Symposium Publisher: MIT Press ISBN: 9780262121545 Category : Neuroreguladores Languages : en Pages : 330
Book Description
Development of the Visual System presents a selection of current studies that clearly illustrate principles of visual system development. These range from retinal development in fish and frogs to the effects of abnormal visual experience on the primary visual cortex of the cat. The book is unique in addressing four specific and fundamental aspects of development: cell lineage and cell fate, specificity and targeting of axons, specification of visual cortex, and correlates of the critical period. Encompassing technical advances in cellular and molecular biology and in video imaging and microscopy, contributions in each of these areas provide new information at the cellular and molecular levels to complement the now classic descriptions of visual development previously available at the level of neural systems.ContributorsKaren L. Allendoerfer, David M. Altshuler, Antonella Antonini, Seymour Benzer, Edward M. Callaway, Constance L. Cepko, Hollis T. Cline, Max S. Cynader, N. W. Daw, Scott E. Fraser, K. Fox, Eckhard Friauf, Anirvan Ghosh, R. W. Guillery, William A. Harris, Christine E. Holt, Lawrence C. Katz, Susan McConnell, Pamela A. Raymond, Thomas A. Reh, Carla J. Shatz, Michael P. Stryker, Claudia A. 0. Stuermer, Mriganka Sur, David L. Turner, T. N. Wiesel
Author: Judith M. Rumsey Publisher: Cambridge University Press ISBN: 1139476750 Category : Medical Languages : en Pages : 473
Book Description
Modern neuroimaging offers tremendous opportunities for gaining insights into normative development and a wide array of developmental neuropsychiatric disorders. Focusing on ontogeny, this text covers basic processes involved in both healthy and atypical maturation, and also addresses the range of neuroimaging techniques most widely used for studying children. This book will enable you to understand normative structural and functional brain maturation and the mechanisms underlying basic developmental processes; become familiar with current knowledge and hypotheses concerning the neural bases of developmental neuropsychiatric disorders; and learn about neuroimaging techniques, including their unique strengths and limitations. Coverage includes normal developmental processes, atypical processing in developmental neuropsychiatric disorders, ethical issues, neuroimaging techniques and their integration with psychopharmacologic and molecular genetic research approaches, and future directions. This comprehensive volume is an essential resource for neurologists, neuropsychologists, psychiatrists, pediatricians, and radiologists concerned with normal development and developmental neuropsychiatric disorders.
Author: Brian Hopkins Publisher: ISBN: 110710341X Category : Language Arts & Disciplines Languages : en Pages : 993
Book Description
Updated and expanded to 124 entries, The Cambridge Encyclopedia of Child Development remains the authoritative reference in the field.
Author: Nicole M. Gage Publisher: Academic Press ISBN: 012803839X Category : Medical Languages : en Pages : 566
Book Description
Fundamentals of Cognitive Neuroscience: A Beginner's Guide, Second Edition, is a comprehensive, yet accessible, beginner’s guide on cognitive neuroscience. This text takes a distinctive, commonsense approach to help newcomers easily learn the basics of how the brain functions when we learn, act, feel, speak and socialize. This updated edition includes contents and features that are both academically rigorous and engaging, including a step-by-step introduction to the visible brain, colorful brain illustrations, and new chapters on emerging topics in cognition research, including emotion, sleep and disorders of consciousness, and discussions of novel findings that highlight cognitive neuroscience’s practical applications. Written by two leading experts in the field and thoroughly updated, this book remains an indispensable introduction to the study of cognition. Winner of a 2019 Textbook Excellence Award (College) (Texty) from the Textbook and Academic Authors Association Presents an easy-to-read introduction to mind-brain science based on a simple functional diagram linked to specific brain functions Provides new, up-to-date, colorful brain images directly from research labs Contains "In the News" boxes that describe the newest research and augment foundational content Includes both a student and instructor website with basic terms and definitions, chapter guides, study questions, drawing exercises, downloadable lecture slides, test bank, flashcards, sample syllabi and links to multimedia resources
Author: Philip Salapatek Publisher: ISBN: 9780126151527 Category : Psychology Languages : en Pages : 416
Book Description
More than a decade has passed since the publication in 1975 of Cohen and Salapatek's compendium on infant perception. Since that time the field has grown considerably, with the result that where there were substantive omissions in many sub-areas of the field 10 years ago--such as developmental anatomy, effector mechanisms in vision, visual psychophysics, color perception, and cross-modal integration--it is possible now to8prepare new volumes in which topics ranging from sensory to cognitive processes are treated systematically without any glaring omissions. Hence, the Handbook of Infant Perception.**contributors are among the leading researchers in their fields**comprehensive coverage of the range of topics from sensation to cognition**coherent state-of-the-field presentation
Author: Henry Kennedy Publisher: Springer ISBN: 3319277774 Category : Medical Languages : en Pages : 173
Book Description
This book has brought together leading investigators who work in the new arena of brain connectomics. This includes ‘macro-connectome’ efforts to comprehensively chart long-distance pathways and functional networks; ‘micro-connectome’ efforts to identify every neuron, axon, dendrite, synapse, and glial process within restricted brain regions; and ‘meso-connectome’ efforts to systematically map both local and long-distance connections using anatomical tracers. This book highlights cutting-edge methods that can accelerate progress in elucidating static ‘hard-wired’ circuits of the brain as well as dynamic interactions that are vital for brain function. The power of connectomic approaches in characterizing abnormal circuits in the many brain disorders that afflict humankind is considered. Experts in computational neuroscience and network theory provide perspectives needed for synthesizing across different scales in space and time. Altogether, this book provides an integrated view of the challenges and opportunities in deciphering brain circuits in health and disease.
Author: Julie Dzung Luu
Author: Julie Dzung Luu
Author: Reem Khalil
Author: Man Ho Wong
Author: Jeffery A. Winer
Author: Retina Research Foundation (U.S.). Symposium
Author: Judith M. Rumsey
Author: Brian Hopkins
Author: Nicole M. Gage
Author: Philip Salapatek
Author: Henry Kennedy