Spatial learning sculpts the dendritic arbor of adult-born hippocampal neurons

Tronel, Sophie; Fabre, Annabelle; Charrier, Vanessa; Oliet, Stéphane H. R.; Gage, Fred H.; Abrous, Djoher Nora

doi:10.1073/pnas.0914613107

Cited by 181 publications

(196 citation statements)

References 51 publications

(76 reference statements)

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“…Blockade of N-methyl-D-aspartate (NMDA) receptors does not disrupt learning-induced changes in cell numbers (Tronel et al 2010). These results are consistent with the role of NMDA during the developmental period (Rajan and Cline 1998;Sin et al 2002;Niell et al 2004;Prithviraj and Inglis 2008).…”

Section: Mechanismssupporting

confidence: 76%

“…Interestingly, there is no critical time window for experience-induced dendritic plasticity of adult-born neurons as spatial learning sculpts the dendritic arbor of adult-born neurons even when they are several months old (Lemaire et al 2012). The effects of learning are specific for neurons born during adulthood as neurons born during development remained unchanged after learning (Tronel et al 2010;Lemaire et al 2012). …”

Section: Neurogenesis and Hippocampal Memory Systemmentioning

confidence: 99%

“…However, this does not exclude the possibility that neuromodulators may act differently on developmental and adult-born neurons. When focusing on their structural plasticity, adult-born, but not developmentally generated, neurons are able to reshape in response to learning (Tronel et al 2010;Lemaire et al 2012), suggesting that these dissimilarities confer them different functions. Some studies, indeed, highlighted a specific behavioral signature for neurons born in development ( pups or juvenile) versus adulthood (Wei et al 2011;Nakashiba et al 2012;Tronel et al 2014).…”

Section: Developmental Versus Adult Neurogenesismentioning

confidence: 99%

“…To address this issue, one can examine the dendritic arbor and spine density as measures of the available postsynaptic space that indirectly reflects the presence of inputs (Tronel et al 2010). Two neuronal populations were examined: (1) the population comprising new neurons generated 1 wk before the start of the training and whose survival was promoted by learning, and (2) the youngest population comprising newly born neurons generated 3 d before training or during the early phase of training that were spared by the apoptotic wave.…”

Section: Effect On Dendritic Developmentmentioning

confidence: 99%

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Interaction between Neurogenesis and Hippocampal Memory System: New Vistas

Abrous

Wojtowicz

2015

Cold Spring Harb Perspect Biol

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During the last decade, the questions on the functionality of adult neurogenesis have changed their emphasis from if to how the adult-born neurons participate in a variety of memory processes. The emerging answers are complex because we are overwhelmed by a variety of behavioral tasks that apparently require new neurons to be performed optimally. With few exceptions, the hippocampal memory system seems to use the newly generated neurons for multiple roles. Adult neurogenesis has given the dentate gyrus new capabilities not previously thought possible within the scope of traditional synaptic plasticity. Looking at these new developments from the perspective of past discoveries, the science of adult neurogenesis has emerged from its initial phase of being, first, a surprising oddity and, later, exciting possibility, to the present state of being an integral part of mainstream neuroscience. The answers to many remaining questions regarding adult neurogenesis will come along only with our growing understanding of the functionality of the brain as a whole. This, in turn, will require integration of multiple levels of organization from molecules and cells to circuits and systems, ultimately resulting in comprehension of behavioral outcomes.

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Section: Mechanismssupporting

confidence: 76%

Section: Neurogenesis and Hippocampal Memory Systemmentioning

confidence: 99%

Section: Developmental Versus Adult Neurogenesismentioning

confidence: 99%

Section: Effect On Dendritic Developmentmentioning

confidence: 99%

See 2 more Smart Citations

Interaction between Neurogenesis and Hippocampal Memory System: New Vistas

Abrous

Wojtowicz

2015

Cold Spring Harb Perspect Biol

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“…It has been proposed that these unique characteristics may make new neurons within this critical period more sensitive to life experience. In particular, it has been shown that learning or experiencing an enriched environment determines the survival, dendritic development, and population response of the new neurons (22)(23)(24)(25)(26). This exceptional plasticity of the young neurons may be particularly useful for information processing (27,28).…”

Section: Discussionmentioning

confidence: 99%

Conditional reduction of adult neurogenesis impairs bidirectional hippocampal synaptic plasticity

Massa

Koehl

Wiesner

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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Adult neurogenesis is a process by which the brain produces new neurons once development has ceased. Adult hippocampal neurogenesis has been linked to the relational processing of spatial information, a role attributed to the contribution of newborn neurons to long-term potentiation (LTP). However, whether newborn neurons also influence long-term depression (LTD), and how synaptic transmission and plasticity are affected as they incorporate their network, remain to be determined. To address these issues, we took advantage of a genetic model in which a majority of adult-born neurons can be selectively ablated in the dentate gyrus (DG) and, most importantly, in which neurogenesis can be restored on demand. Using electrophysiological recordings, we show that selective reduction of adult-born neurons impairs synaptic transmission at medial perforant pathway synapses onto DG granule cells. Furthermore, LTP and LTD are largely compromised at these synapses, probably as a result of an increased induction threshold. Whereas the deficits in synaptic transmission and plasticity are completely rescued by restoring neurogenesis, these synapses regain their ability to express LTP much faster than their ability to express LTD. These results demonstrate that both LTP and LTD are influenced by adult neurogenesis. They also indicate that as newborn neurons integrate their network, the ability to express bidirectional synaptic plasticity is largely improved at these synapses. These findings establish that adult neurogenesis is an important process for synaptic transmission and bidirectional plasticity in the DG, accounting for its role in efficiently integrating novel incoming information and in forming new memories.

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Spine morphogenesis in newborn granule cells is differentially regulated in the outer and middle molecular layers

Zhao

Jou

Wolff

et al. 2014

J of Comparative Neurology

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New neurons are continuously added to the hippocampus of adult mammals. Their survival and integration into the circuitry are highly dependent on experience. Here we show that mushroom spine formation in newborn granule cells was modulated by experience and that dendritic segments in different areas of the molecular layer were differentially regulated. Specifically, spines of new neurons in the outer molecular layer of the dentate gyrus were more readily influenced by non-spatial features in the living environment. Those in the middle molecular layer were more likely to be influenced by the size of the living environment. Therefore, the activity of cortical inputs into newborn granule cells may be reflected in the formation of mushroom spines in different dendritic segments in the molecular layer.

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Spatial learning sculpts the dendritic arbor of adult-born hippocampal neurons

Cited by 181 publications

References 51 publications

Interaction between Neurogenesis and Hippocampal Memory System: New Vistas

Interaction between Neurogenesis and Hippocampal Memory System: New Vistas

Conditional reduction of adult neurogenesis impairs bidirectional hippocampal synaptic plasticity

Spine morphogenesis in newborn granule cells is differentially regulated in the outer and middle molecular layers

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