New neurons restore structural and behavioral abnormalities in a rat model of PTSD

Schoenfeld, Timothy J.; Rhee, Diane; Martin, L. A.; Smith, Jesse A.; Sonti, Anup N.; Padmanaban, Varun; Cameron, Heather A.

doi:10.1002/hipo.23087

Cited by 26 publications

(24 citation statements)

References 68 publications

(114 reference statements)

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“…DCX, a marker of immature granule neurons (Brown et al, 2003;Snyder et al, 2009), was used to qualitatively assess the presence of ongoing neurogenesis in WT and TK rats. As expected, based on previous work using this transgenic rat model (Cahill, Cole, Yu, Clemans-Gibbon, & Snyder, 2018;Galinato et al, 2018;Karlsson et al, 2018;Opendak et al, 2016;Schoenfeld et al, 2019), treatment with valganciclovir completely eliminated new neurons in TK rats but not WT rats ( Figure 1). All wild type rats had numerous DCX+ cells, and all TK rats had ≤1 DCX+ cells per section, so no rats were excluded for problems with genotyping or drug treatment.…”

Section: Adult Neurogenesis Is Completely Inhibited In Tk Ratssupporting

confidence: 86%

“…The increase in corticosterone release following mint exposure and the known effects of new neurons on stress responses (Opendak et al, 2016; Schoenfeld et al, 2019; Snyder et al, 2011) suggest that mint odor may alter behavior by acting as a stressor. However, corticosterone release occurs in response to emotional arousal regardless of whether the provoking stimulus is a stressor/threat (Koolhaas et al, 2011; Woodson, Macintosh, Fleshner, & Diamond, 2003).…”

Section: Discussionmentioning

confidence: 99%

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Adult neurogenesis alters response to an aversive distractor in a labyrinth maze without affecting spatial learning or memory

et al. 2020

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Adult neurogenesis has been implicated in learning and memory of complex spatial environments. However, new neurons also play a role in nonmnemonic behavior, including the stress response and attention shifting. Many commonly used spatial tasks are very simple, and unsuitable for detecting neurogenesis effects, or are aversively motivated, making it difficult to dissociate effects on spatial learning and memory from effects on stress. We have therefore created a novel complex spatial environment, the flex maze, to enable reward-mediated testing of spatial learning in a flexibly configurable labyrinth. Using a pharmacogenetic method to completely inhibit neurogenesis in adulthood, we found that rats lacking new neurons (TK rats) and wild type controls completed and remembered most mazes equally well. However, control rats were slower to complete peppermint-scented mazes than other mazes, while neurogenesis-deficient rats showed no effect of mint on maze behavior, completing these mazes significantly faster than control rats. Additional testing found that wild type and TK rats showed similar detection of, avoidance of, and glucocorticoid response to the mint odor. These results suggest that spatial learning and memory in a labyrinth task is unaffected by the loss of new neurons, but that these cells affect the ability of an aversive stimulus to distract rats from completing the maze.

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Section: Adult Neurogenesis Is Completely Inhibited In Tk Ratssupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Adult neurogenesis alters response to an aversive distractor in a labyrinth maze without affecting spatial learning or memory

et al. 2020

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“…According to the neurogenic hypothesis of depression, impaired adult hippocampal neurogenesis would be inhibited by stress, and be a causal factor for triggering depressive episodes; while antidepressant treatments would induce therapeutic effect by restoring normal hippocampal neurogenesis [171]. There are studies suggesting that decreased neurogenesis is not a major contributor to the MDD development, but it may be associated to cognitive impairments induced by stress and observed in patients with depression [172,173]. In line with this prospect, mice lacking adult hippocampal neurogenesis are not more susceptible to stress [174] or do not present more depressive-related behavior [175,176].…”

Section: Mechanisms Regulated By P2x7 Receptor Signaling With Relementioning

confidence: 99%

P2X7 Receptor Signaling in Stress and Depression

Ribeiro

Roncalho

Glaser

et al. 2019

IJMS

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Stress exposure is considered to be the main environmental cause associated with the development of depression. Due to the limitations of currently available antidepressants, a search for new pharmacological targets for treatment of depression is required. Recent studies suggest that adenosine triphosphate (ATP)-mediated signaling through the P2X7 receptor (P2X7R) might play a prominent role in regulating depression-related pathology, such as synaptic plasticity, neuronal degeneration, as well as changes in cognitive and behavioral functions. P2X7R is an ATP-gated cation channel localized in different cell types in the central nervous system (CNS), playing a crucial role in neuron-glia signaling. P2X7R may modulate the release of several neurotransmitters, including monoamines, nitric oxide (NO) and glutamate. Moreover, P2X7R stimulation in microglia modulates the innate immune response by activating the NLR family pyrin domain containing 3 (NLRP3) inflammasome, consistent with the neuroimmune hypothesis of MDD. Importantly, blockade of P2X7R leads to antidepressant-like effects in different animal models, which corroborates the findings that the gene encoding for the P2X7R is located in a susceptibility locus of relevance to depression in humans. This review will discuss recent findings linked to the P2X7R involvement in stress and MDD neuropathophysiology, with special emphasis on neurochemical, neuroimmune, and neuroplastic mechanisms.

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“…We tried to check at 2 weeks post-treatment not only how the newly generated cells by OCT4 committed to their fate according to the microenvironment of early-HD stage but also these cells affect early behavior recovery. Because newly proliferated cells in adult concerned behavior at a later time point, more than a month after the injury [ 43 ]. We suggest that newly generated NSCs and OPCs by OCT4 affect early behavior recovery at 8 weeks of age.…”

Section: Resultsmentioning

confidence: 99%

“…Namely, in situ expression of OCT4 in the SVZ increased the number of newly generated NSCs (Nestin + BrdU + cells) and OPCs (NG2 + BrdU + cells) but not the number of newly generated neurons (βIII-tubulin + BrdU + cells) and astrocytes (GFAP + BrdU + cells) in HD mice at 6 weeks of age ( Figure 2 A–D). Newly proliferated cells in adult affected behavior at a later time point, more than a month after injury [ 43 ]. Therefore, we suggest that the increased number of NSCs and OPCs during initial 2 weeks affected the recovery of neuromuscular function at 8 weeks of age.…”

Section: Discussionmentioning

confidence: 99%

In Vivo Expression of Reprogramming Factor OCT4 Ameliorates Myelination Deficits and Induces Striatal Neuroprotection in Huntington’s Disease

Nam

Kim

et al. 2021

Genes

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White matter atrophy has been shown to precede the massive loss of striatal GABAergic neurons in Huntington’s disease (HD). This study investigated the effects of in vivo expression of reprogramming factor octamer-binding transcription factor 4 (OCT4) on neural stem cell (NSC) niche activation in the subventricular zone (SVZ) and induction of cell fate specific to the microenvironment of HD. R6/2 mice randomly received adeno-associated virus 9 (AAV9)-OCT4, AAV9-Null, or phosphate-buffered saline into both lateral ventricles at 4 weeks of age. The AAV9-OCT4 group displayed significantly improved behavioral performance compared to the control groups. Following AAV9-OCT4 treatment, the number of newly generated NSCs and oligodendrocyte progenitor cells (OPCs) significantly increased in the SVZ, and the expression of OPC-related genes and glial cell-derived neurotrophic factor (GDNF) significantly increased. Further, amelioration of myelination deficits in the corpus callosum was observed through electron microscopy and magnetic resonance imaging, and striatal DARPP32+ GABAergic neurons significantly increased in the AAV9-OCT4 group. These results suggest that in situ expression of the reprogramming factor OCT4 in the SVZ induces OPC proliferation, thereby attenuating myelination deficits. Particularly, GDNF released by OPCs seems to induce striatal neuroprotection in HD, which explains the behavioral improvement in R6/2 mice overexpressing OCT4.

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New neurons restore structural and behavioral abnormalities in a rat model of PTSD

Cited by 26 publications

References 68 publications

Adult neurogenesis alters response to an aversive distractor in a labyrinth maze without affecting spatial learning or memory

Adult neurogenesis alters response to an aversive distractor in a labyrinth maze without affecting spatial learning or memory

P2X7 Receptor Signaling in Stress and Depression

In Vivo Expression of Reprogramming Factor OCT4 Ameliorates Myelination Deficits and Induces Striatal Neuroprotection in Huntington’s Disease

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