M. Felicia Davatolhagh scite author profile

Nr4a1 and Nr4a2 are transcription factors and immediate early genes belonging to the nuclear receptor Nr4a family. In this study, we examine their role in long-term memory formation for object location and object recognition. Using siRNA to block expression of either Nr4a1 or Nr4a2, we found that Nr4a2 is necessary for both long-term memory for object location and object recognition. In contrast, Nr4a1 appears to be necessary only for object location. Indeed, their roles in these different types of long-term memory may be dependent on their expression in the brain, as NR4A2 was found to be expressed in hippocampal neurons (associated with object location memory) as well as in the insular and perirhinal cortex (associated with object recognition memory), whereas NR4A1 showed minimal neuronal expression in these cortical areas. These results begin to elucidate how NR4A1 and NR4A2 differentially contribute to object location versus object recognition memory.[Supplemental material is available for this article.]It is well established that long-term memory (LTM) formation requires transcription (for review, see Alberini 2009). Transcription regulated specifically by cAMP responsive element binding protein (CREB) has been shown to be essential for long-term memory (Bourtchuladze et al. 1994;Yin et al. 1994;Guzowski and McGaugh 1997;Pittenger et al. 2002;Sekeres et al. 2010; but see Balschun et al. 2003). Two CREB-dependent immediate early genes that have been implicated in LTM are Nr4a1 and Nr4a2 (Pena de Ortiz et al. 2000; von Hertzen and Giese 2005a,b;Colon-Cesario et al. 2006). Nr4a1 (Nur77) and Nr4a2 (Nurr1) are members of the nuclear steroid/thyroid hormone receptor superfamily that bind in an apparently ligand-independent manner to Nerve Growth Factor1-B (NGFI-B) response elements (Baker et al. 2003;Wang et al. 2003).Expression of both Nr4a1 and Nr4a2 has been shown to increase in the hippocampus following learning. Nr4a1 expression increased in the CA1 region of the hippocampus during context shock memory consolidation, and Nr4a2 increased in CA1 and CA3 pyramidal cell layers of the rat hippocampus following a spatial discrimination task (Pena de Ortiz et al. 2000; von Hertzen and Giese 2005a,b;Keeley et al. 2006;Hawk and Abel 2011). An exception to these findings was a study from Malkani and Rosen (2000) who found increased Nr4a1 expression in the cortex and amygdala following context shock memory consolidation, but failed to see a change in area CA1 of the hippocampus. These patterns of expression suggest a role for the Nr4a family in learning and memory.Transcription of both Nr4a1 and Nr4a2 appear to be regulated by chromatin modification via histone acetylation and deacetylation. Histone deacetylase (HDAC) activity was shown to interfere with formation of the pre-initiation complex at the Nr4a1 promoter, suggesting that acetylation is necessary for its transcription (Fass et al. 2003). In addition, during memory consolidation, the HDAC inhibitor Trichostatin A (TSA) maintained the expression of both Nr4a1 ...

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Identifying specific prefrontal neurons that contribute to autism-associated abnormalities in physiology and social behavior

Brumback

et al. 2017

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Functional imaging and gene expression studies both implicate the medial prefrontal cortex (mPFC), particularly deep-layer projection neurons, as a potential locus for autism pathology. Here, we explored how specific deep-layer prefrontal neurons contribute to abnormal physiology and behavior in mouse models of autism. First, we find that across three etiologically distinct models-in utero valproic acid (VPA) exposure, CNTNAP2 knockout and FMR1 knockout-layer 5 subcortically projecting (SC) neurons consistently exhibit reduced input resistance and action potential firing. To explore how altered SC neuron physiology might impact behavior, we took advantage of the fact that in deep layers of the mPFC, dopamine D2 receptors (D2Rs) are mainly expressed by SC neurons, and used D2-Cre mice to label D2R+ neurons for calcium imaging or optogenetics. We found that social exploration preferentially recruits mPFC D2R+ cells, but that this recruitment is attenuated in VPA-exposed mice. Stimulating mPFC D2R+ neurons disrupts normal social interaction. Conversely, inhibiting these cells enhances social behavior in VPA-exposed mice. Importantly, this effect was not reproduced by nonspecifically inhibiting mPFC neurons in VPA-exposed mice, or by inhibiting D2R+ neurons in wild-type mice. These findings suggest that multiple forms of autism may alter the physiology of specific deep-layer prefrontal neurons that project to subcortical targets. Furthermore, a highly overlapping population-prefrontal D2R+ neurons-plays an important role in both normal and abnormal social behavior, such that targeting these cells can elicit potentially therapeutic effects.

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Striatal Low-Threshold Spiking Interneurons Regulate Goal-Directed Learning

Holly

Davatolhagh

Choi

et al. 2019

Neuron

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Integrated anatomical and physiological mapping of striatal afferent projections

Choi

Holly

Davatolhagh

et al. 2018

Eur J of Neuroscience

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The dorsomedial striatum, a key site of reward-sensitive motor output, receives extensive afferent input from cortex, thalamus and midbrain. These projections are integrated by striatal microcircuits containing both spiny projection neurons and local circuit interneurons. To explore target cell specificity of these projections, we compared inputs onto D1-dopamine receptor-positive spiny neurons, parvalbumin-positive fast-spiking interneurons and somatostatin-positive low-threshold-spiking interneurons, using cell type-specific rabies virus tracing and optogenetic-mediated projection neuron recruitment in mice. While the relative proportion of retrogradely labelled projection neurons was similar between target cell types, the convergence of inputs was systematically higher for projections onto fast-spiking interneurons. Rabies virus is frequently used to assess cell-specific anatomical connectivity but it is unclear how this correlates to synaptic connectivity and efficacy. To test this, we compared tracing data with target cell-specific measures of synaptic efficacy for anterior cingulate cortex and parafascicular thalamic projections using novel quantitative optogenetic measures. We found that target-specific patterns of convergence were extensively modified according to region of projection neuron origin and postsynaptic cell type. Furthermore, we observed significant divergence between cell type-specific anatomical connectivity and measures of excitatory synaptic strength, particularly for low-threshold-spiking interneurons. Taken together, this suggests a basic uniform connectivity map for striatal afferent inputs upon which presynaptic-postsynaptic interactions impose substantial diversity of physiological connectivity.

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BDNF rescues BAF53b-dependent synaptic plasticity and cocaine-associated memory in the nucleus accumbens

et al. 2016

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Recent evidence implicates epigenetic mechanisms in drug-associated memory processes. However, a possible role for one major epigenetic mechanism, nucleosome remodelling, in drug-associated memories remains largely unexplored. Here we examine mice with genetic manipulations targeting a neuron-specific nucleosome remodelling complex subunit, BAF53b. These mice display deficits in cocaine-associated memory that are more severe in BAF53b transgenic mice compared with BAF53b heterozygous mice. Similar to the memory deficits, theta-induced long-term potentiation (theta-LTP) in the nucleus accumbens (NAc) is significantly impaired in slices taken from BAF53b transgenic mice but not heterozygous mice. Further experiments indicate that theta-LTP in the NAc is dependent on TrkB receptor activation, and that BDNF rescues theta-LTP and cocaine-associated memory deficits in BAF53b transgenic mice. Together, these results suggest a role for BAF53b in NAc neuronal function required for cocaine-associated memories, and also that BDNF/TrkB activation in the NAc may overcome memory and plasticity deficits linked to BAF53b mutations.

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