The lizard cerebral cortex as a model to study neuronal regeneration.
Carlos Lopez-Garcia,A. Molowny,Juan Nacher,Xavier Ponsoda,Francisco J. Sancho-Bielsa,Gregori Alonso-Llosa +5 more
TLDR
The lizard cerebral cortex is a good model to study neuronal regeneration and the complex factors that regulate its neurogenetic, migratory and neo-synaptogenetic events.Abstract:
The medial cerebral cortex of lizards, an area homologous to the hippocampal fascia dentata, shows delayed postnatal neurogenesis, i.e., cells in the medial cortex ependyma proliferate and give rise to immature neurons, which migrate to the cell layer. There, recruited neurons differentiate and give rise to zinc containing axons directed to the rest of cortical areas, thus resulting in a continuous growth of the medial cortex and its zinc-enriched axonal projection. This happens along the lizard life span, even in adult lizards, thus allowing one of their most important characteristics: neuronal regeneration. Experiments in our laboratory have shown that chemical lesion of the medial cortex (affecting up to 95% of its neurons) results in a cascade of events: first, massive neuronal death and axonal-dendritic retraction and, secondly, triggered ependymal-neuroblast proliferation and subsequent neo-histogenesis and regeneration of an almost new medial cortex, indistinguishable from a normal undamaged one. This is the only case to our knowledge of the regeneration of an amniote central nervous centre by new neuron production and neo-histogenesis. Thus the lizard cerebral cortex is a good model to study neuronal regeneration and the complex factors that regulate its neurogenetic, migratory and neo-synaptogenetic events.read more
Citations
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Proliferation, neurogenesis and regeneration in the non-mammalian vertebrate brain
TL;DR: The level of adult neurogenesis in vertebrates correlates with the capacity to regenerate injury, for example fish and amphibians exhibit the most widespread adult Neurogenesis and also the greatest capacity to regeneration central nervous system injuries.
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What is the mammalian dentate gyrus good for
TL;DR: How the mammalian dentate operates, in space and time, and whether evolution, in other vertebrate lineages, has offered alternative solutions to the same computational problems is understood.
Forefront review what is the mammalian dentate gyrus good for
TL;DR: In the mammalian hippocampus, the dentate gyrus (DG) is characterized by sparse and powerful unidirectional projections to CA3 pyramidal cells, the so-called mossy fi- bers (MF).
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Brain size and limits to adult neurogenesis
TL;DR: It is hypothesize that the increase in size and topographical complexity in larger brains may severely limit the long‐term contribution of new neurons born close to, or in, the ventricular wall.
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New scenarios for neuronal structural plasticity in non-neurogenic brain parenchyma: the case of cortical layer II immature neurons.
Luca Bonfanti,Juan Nacher +1 more
TL;DR: This review focuses on a population of immature, non-newly generated neurons in layer II of the cerebral cortex, which were previously thought to be newly generated since they heavily express the polysialylated form of the neural cell adhesion molecule and doublecortin.
References
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Journal ArticleDOI
Learning enhances adult neurogenesis in the hippocampal formation.
TL;DR: It is reported that the number of adult-generated neurons doubles in the rat dentate gyrus in response to training on associative learning tasks that require the hippocampus, which indicates that adult- generated hippocampal neurons are specifically affected by, and potentially involved in, associative memory formation.
Journal ArticleDOI
Neurogenesis in the adult is involved in the formation of trace memories
TL;DR: It is shown that a substantial reduction in the number of newly generated neurons in the adult rat impairs hippocampal-dependent trace conditioning, a task in which an animal must associate stimuli that are separated in time.
Journal ArticleDOI
Dentate Granule Cell Neurogenesis Is Increased by Seizures and Contributes to Aberrant Network Reorganization in the Adult Rat Hippocampus
Jack M. Parent,Timothy W. Yu,Rebecca T. Leibowitz,Daniel H. Geschwind,Robert S. Sloviter,Daniel H. Lowenstein +5 more
TL;DR: Observations indicate that prolonged seizure discharges stimulate dentate granule cell neurogenesis, and that hippocampal network plasticity associated with epileptogenesis may arise from aberrant connections formed by newly born dentategranule cells.
Journal ArticleDOI
Restricted proliferation and migration of postnatally generated neurons derived from the forebrain subventricular zone
TL;DR: The SVZa appears to constitute a specialized source of neuronal progenitor cells that differentiated into granule cells and periglomerular cells of the olfactory bulb-the two major types of interneurons.
Journal ArticleDOI
Autoradiographic and histological studies of postnatal neurogenesis. IV. Cell proliferation and migration in the anterior forebrain, with special reference to persisting neurogenesis in the olfactory bulb
TL;DR: The results established that the major target structure of cell production in the subependymal layer of the lateral ventricle in young‐adult rats is the olfactory bulb, with only moderate contribution made to the anterior neocortex and basal ganglia.