Hippocampal neurogenesis is not enhanced by lifelong reduction of glucocorticoid levels

Brunson, Kristen L.; Baram, Tallie Z.; Bender, Roland A.

doi:10.1002/hipo.20074

Cited by 29 publications

(17 citation statements)

References 78 publications

(125 reference statements)

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“…After Gould and colleagues (35)(36)(37) reported an increase in adult hippocampal neurogenesis in adrenalectomized rats, adrenal hormones were believed to quite generally suppress adult neurogenesis with some reports, including those on exercise effects on adult neurogenesis, challenging that paradigm (38,39).…”

Section: Discussionmentioning

confidence: 97%

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

et al. 2009

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To understand the link between peripheral immune activation and neuronal precursor biology, we investigated the effect of T-cell activation on adult hippocampal neurogenesis in female C57Bl/6 mice. A peripheral adaptive immune response triggered by adjuvant-induced rheumatoid arthritis (2 microg/microl methylated BSA) or staphylococcus enterotoxin B (EC(50) of 0.25 microg/ml per 20 g body weight) was associated with a transient increase in hippocampal precursor cell proliferation and neurogenesis as assessed by immunohistochemistry and confocal microscopy. Both treatments were paralleled by an increase in corticosterone levels in the hippocampus 1- to 2-fold over the physiological amount measured by quantitative radioimmunoassay. In contrast, intraperitoneal administration of the innate immune response activator lipopolysaccaride (EC(50) of 0.5 microg/ml per 20 g body weight) led to a chronic 5-fold increase of hippocampal glucocorticoid levels and a decrease of adult neurogenesis. In vitro exposure of murine neuronal progenitor cells to corticosterone triggered either cell death at high (1.5 nM) or proliferation at low (0.25 nM) concentrations. This effect could be blocked using a viral vector system expressing a transdomain of the glucocorticoid receptor. We suggest an evolutionary relevant communication route for the brain to respond to environmental stressors like inflammation mediated by glucocorticoid levels in the hippocampus.

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Section: Discussionmentioning

confidence: 97%

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

et al. 2009

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“…Because we used DAB as a chromogen, BrdU‐IR cells include newborn neurons and newborn glial cells. In a study that identified the phenotypes of BrdU‐IR cells, it was shown that the proportion of glial cells among newly born cells is approximately 10% (Brunson, Baram, & Bender, 2005). The same proportion between newborn neurons and newborn glial cells was also reported in rats under a 60% dietary restriction (Yanai, 2007).…”

Section: Discussionmentioning

confidence: 99%

Dietary restriction inhibits spatial learning ability and hippocampal cell proliferation in rats¹

2008

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Abstract:We investigated the effect of dietary restriction on spatial learning ability and hippocampal cell proliferation in adult rats using two spatial learning tasks and immunohistochemical staining with 5-bromo-2 ′ -deoxyuridine (BrdU). Sixteen rats were divided into restricted or ad lib feeding groups at 70 days of age, and were trained in the delayedmatching-to-place (DMTP) task (a working memory task) from 93 days of age, and then the Morris water maze task (a reference memory task). Dietary restriction had no effect on the DMTP task with 30 s delay and on the water maze task. However, in the DMTP task with 30 min delay, restricted rats performed significantly more poorly than ad lib rats. Quantitative analysis of hippocampal cell proliferation revealed that the density of newborn cells in restricted rats was significantly lower than that in ad lib rats. These results suggest that a loss of proliferating capacity in the hippocampus may be a candidate for an anatomical and biological basis for the cognitive decline caused by dietary restriction.

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“…Corticotropin‐releasing hormone (CRH) is a neuromodulatory peptide released from hippocampal interneurons in response to stress. Early life seizures have been shown to enhance hippocampal CRH mRNA expression in adulthood (Brunson et al., 2001b), and excessive CRH (Chen et al., 2004) and early life stress (Brunson et al., 2005) have been shown to lead to reductions in dendritic length and arborization as well as progressive cognitive deficits.…”

Section: Effects Of Seizures and Epileptogenesis On The Developing Brainmentioning

confidence: 99%

Molecular mechanisms of cognitive and behavioral comorbidities of epilepsy in children

Brooks‐Kayal

2011

Epilepsia

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SUMMARYIntellectual and developmental disabilities (IDDs) such as autistic spectrum disorders (ASDs) and epilepsies are heterogeneous disorders that have diverse etiologies and pathophysiologies. The high rate of co-occurrence of these disorders, however, suggests potentially shared underlying mechanisms. A number of well-known genetic disorders share epilepsy, intellectual disability, and autism as prominent phenotypic features, including tuberous sclerosis complex, Rett syndrome, and fragile X syndrome. In addition, mutations of several genes involved in neurodevelopment, including ARX, DCX, neuroligins, and neuropilin 2 have been identified in children with epilepsy, IDDs, ASDs, or a combination of thereof. Finally, in animal models, early life seizures can result in cellular and molecular changes that could contribute to learning and behavioral disabilities. Increased understanding of the common genetic, molecular, and cellular mechanisms of IDDs, ASDs, and epilepsy may provide insight into their underlying pathophysiology and elucidate new therapeutic approaches for these conditions.

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Hippocampal neurogenesis is not enhanced by lifelong reduction of glucocorticoid levels

Cited by 29 publications

References 78 publications

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

Dietary restriction inhibits spatial learning ability and hippocampal cell proliferation in rats¹

Molecular mechanisms of cognitive and behavioral comorbidities of epilepsy in children

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Hippocampal neurogenesis is not enhanced by lifelong reduction of glucocorticoid levels

Cited by 29 publications

References 78 publications

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

Adaptive peripheral immune response increases proliferation of neural precursor cells in the adult hippocampus

Dietary restriction inhibits spatial learning ability and hippocampal cell proliferation in rats1

Molecular mechanisms of cognitive and behavioral comorbidities of epilepsy in children

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Dietary restriction inhibits spatial learning ability and hippocampal cell proliferation in rats¹