Epigenetic basis of opiate suppression of Bdnf gene expression in the ventral tegmental area. Koo, JW; Mazei-Robison, MS; LaPlant, Q; Egervari, G; Braunscheidel, KM; Adank, DN; Ferguson, D; Feng, J; Sun, H; Scobie, KN; Damez-Werno, DM; Ribeiro, E; Peña, CJ; Walker, D; Bagot, RC; Cahill, ME; Anderson, SA; Labonté, B; Hodes, GE; Browne, H; Chadwick, B; Robison, AJ; Vialou, VF; Dias, C; Lorsch, Z; Mouzon, E; Lobo, MK; Dietz, DM; Russo, SJ; Neve, RL; Hurd, YL; Nestler, EJ Nature neuroscience
18
415-22
2015
Show Abstract
Brain-derived neurotrophic factor (BDNF) has a crucial role in modulating neural and behavioral plasticity to drugs of abuse. We found a persistent downregulation of exon-specific Bdnf expression in the ventral tegmental area (VTA) in response to chronic opiate exposure, which was mediated by specific epigenetic modifications at the corresponding Bdnf gene promoters. Exposure to chronic morphine increased stalling of RNA polymerase II at these Bdnf promoters in VTA and altered permissive and repressive histone modifications and occupancy of their regulatory proteins at the specific promoters. Furthermore, we found that morphine suppressed binding of phospho-CREB (cAMP response element binding protein) to Bdnf promoters in VTA, which resulted from enrichment of trimethylated H3K27 at the promoters, and that decreased NURR1 (nuclear receptor related-1) expression also contributed to Bdnf repression and associated behavioral plasticity to morphine. Our findings suggest previously unknown epigenetic mechanisms of morphine-induced molecular and behavioral neuroadaptations. | | | 25643298
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Extrasynaptic GABAA receptors in mediodorsal thalamic nucleus modulate fear extinction learning. Paydar, A; Lee, B; Gangadharan, G; Lee, S; Hwang, EM; Shin, HS Molecular brain
7
39
2014
Show Abstract
The gamma-amino-butyric acid (GABA) system is a critical mediator of fear extinction process. GABA can induce "phasic" or "tonic" inhibition in neurons through synaptic or extrasynaptic GABAA receptors, respectively. However, role of the thalamic "tonic GABA inhibition" in cognition has not been explored. We addressed this issue in extinction of conditioned fear in mice.Here, we show that GABAA receptors in the mediodorsal thalamic nucleus (MD) modulate fear extinction. Microinjection of gabazine, a GABAA receptor antagonist, into the MD decreased freezing behavior in response to the conditioned stimulus and thus facilitated fear extinction. Interestingly, microinjection of THIP (4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol), a preferential agonist for the δ-subunit of extrasynaptic GABAA receptors, into the MD attenuated fear extinction. In the opposite direction, an MD-specific knock-out of the extrasynaptic GABAA receptors facilitated fear extinction.Our results suggest that "tonic GABA inhibition" mediated by extrasynaptic GABAA receptors in MD neurons, suppresses fear extinction learning. These results raise a possibility that pharmacological control of tonic mode of GABAA receptor activation may be a target for treatment of anxiety disorders like post-traumatic stress disorder. | Immunohistochemistry | | 24886120
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Imaging activity in neurons and glia with a Polr2a-based and cre-dependent GCaMP5G-IRES-tdTomato reporter mouse. Gee, JM; Smith, NA; Fernandez, FR; Economo, MN; Brunert, D; Rothermel, M; Morris, SC; Talbot, A; Palumbos, S; Ichida, JM; Shepherd, JD; West, PJ; Wachowiak, M; Capecchi, MR; Wilcox, KS; White, JA; Tvrdik, P Neuron
83
1058-72
2014
Show Abstract
New strategies for introducing genetically encoded activity indicators into animal models facilitate the investigation of nervous system function. We have developed the PC::G5-tdT mouse line that expresses the GCaMP5G calcium indicator in a Cre-dependent fashion. Instead of targeting the ROSA26 locus, we inserted the reporter cassette nearby the ubiquitously expressed Polr2a gene without disrupting locus integrity. The indicator was tagged with IRES-tdTomato to aid detection of positive cells. This reporter system is effective in a wide range of developmental and cellular contexts. We recorded spontaneous cortical calcium waves in intact awake newborns and evaluated concentration-dependent responses to odorants in the adult olfactory bulb. Moreover, PC::G5-tdT effectively reports intracellular calcium dynamics in somas and fine processes of astrocytes and microglial cells. Through electrophysiological and behavioral analyses, we determined that GCaMP5G expression had no major impact on nervous system performance. PC::G5-tdT will be instrumental for a variety of brain mapping experiments. | | | 25155958
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Cerebellar cortical lamination and foliation require cyclin A2. Otero, JJ; Kalaszczynska, I; Michowski, W; Wong, M; Gygli, PE; Gokozan, HN; Griveau, A; Odajima, J; Czeisler, C; Catacutan, FP; Murnen, A; Schüller, U; Sicinski, P; Rowitch, D Developmental biology
385
328-39
2014
Show Abstract
The mammalian genome encodes two A-type cyclins, which are considered potentially redundant yet essential regulators of the cell cycle. Here, we tested requirements for cyclin A1 and cyclin A2 function in cerebellar development. Compound conditional loss of cyclin A1/A2 in neural progenitors resulted in severe cerebellar hypoplasia, decreased proliferation of cerebellar granule neuron progenitors (CGNP), and Purkinje (PC) neuron dyslamination. Deletion of cyclin A2 alone showed an identical phenotype, demonstrating that cyclin A1 does not compensate for cyclin A2 loss in neural progenitors. Cyclin A2 loss lead to increased apoptosis at early embryonic time points but not at post-natal time points. In contrast, neural progenitors of the VZ/SVZ did not undergo increased apoptosis, indicating that VZ/SVZ-derived and rhombic lip-derived progenitor cells show differential requirements to cyclin A2. Conditional knockout of cyclin A2 or the SHH proliferative target Nmyc in CGNP also resulted in PC neuron dyslamination. Although cyclin E1 has been reported to compensate for cyclin A2 function in fibroblasts and is upregulated in cyclin A2 null cerebella, cyclin E1 expression was unable to compensate for loss-of cyclin A2 function. | Western Blotting | | 24184637
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G9a influences neuronal subtype specification in striatum. Maze, I; Chaudhury, D; Dietz, DM; Von Schimmelmann, M; Kennedy, PJ; Lobo, MK; Sillivan, SE; Miller, ML; Bagot, RC; Sun, H; Turecki, G; Neve, RL; Hurd, YL; Shen, L; Han, MH; Schaefer, A; Nestler, EJ Nature neuroscience
17
533-9
2014
Show Abstract
Cocaine-mediated repression of the histone methyltransferase (HMT) G9a has recently been implicated in transcriptional, morphological and behavioral responses to chronic cocaine administration. Here, using a ribosomal affinity purification approach, we found that G9a repression by cocaine occurred in both Drd1-expressing (striatonigral) and Drd2-expressing (striatopallidal) medium spiny neurons. Conditional knockout and overexpression of G9a within these distinct cell types, however, revealed divergent behavioral phenotypes in response to repeated cocaine treatment. Our studies further indicated that such developmental deletion of G9a selectively in Drd2 neurons resulted in the unsilencing of transcriptional programs normally specific to striatonigral neurons and in the acquisition of Drd1-associated projection and electrophysiological properties. This partial striatopallidal to striatonigral 'switching' phenotype in mice indicates a new role for G9a in contributing to neuronal subtype identity and suggests a critical function for cell type-specific histone methylation patterns in the regulation of behavioral responses to environmental stimuli. | Immunohistochemistry | | 24584053
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Germ-line recombination activity of the widely used hGFAP-Cre and nestin-Cre transgenes. Zhang, J; Dublin, P; Griemsmann, S; Klein, A; Brehm, R; Bedner, P; Fleischmann, BK; Steinhäuser, C; Theis, M PloS one
8
e82818
2013
Show Abstract
Herein we demonstrate with PCR, immunodetection and reporter gene approaches that the widely used human Glial Fibrillary Acidic Protein (hGFAP)-Cre transgene exhibits spontaneous germ-line recombination activity in leading to deletion in brain, heart and tail tissue with high frequency. The ectopic activity of hGFAP-Cre requires a rigorous control. We likewise observed that a second widely used nestin-Cre transgene shows germ-line deletion. Here we describe procedures to identify mice with germ-line recombination mediated by the hGFAP-Cre and nestin-Cre transgenes. Such control is essential to avoid pleiotropic effects due to germ-line deletion of loxP-flanked target genes and to maintain the CNS-restricted deletion status in transgenic mouse colonies. | | | 24349371
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Axon position within the corpus callosum determines contralateral cortical projection. Zhou, J; Wen, Y; She, L; Sui, YN; Liu, L; Richards, LJ; Poo, MM Proceedings of the National Academy of Sciences of the United States of America
110
E2714-23
2013
Show Abstract
How developing axons in the corpus callosum (CC) achieve their homotopic projection to the contralateral cortex remains unclear. We found that axonal position within the CC plays a critical role in this projection. Labeling of nearby callosal axons in mice showed that callosal axons were segregated in an orderly fashion, with those from more medial cerebral cortex located more dorsally and subsequently projecting to more medial contralateral cortical regions. The normal axonal order within the CC was grossly disturbed when semaphorin3A/neuropilin-1 signaling was disrupted. However, the order in which axons were positioned within the CC still determined their contralateral projection, causing a severe disruption of the homotopic contralateral projection that persisted at postnatal day 30, when the normal developmental refinement of contralateral projections is completed in wild-type (WT) mice. Thus, the orderly positioning of axons within the CC is a primary determinant of how homotopic interhemispheric projections form in the contralateral cortex. | | | 23812756
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Neural crest contribution to lingual mesenchyme, epithelium and developing taste papillae and taste buds. Liu, HX; Komatsu, Y; Mishina, Y; Mistretta, CM Developmental biology
368
294-303
2012
Show Abstract
The epithelium of mammalian tongue hosts most of the taste buds that transduce gustatory stimuli into neural signals. In the field of taste biology, taste bud cells have been described as arising from "local epithelium", in distinction from many other receptor organs that are derived from neurogenic ectoderm including neural crest (NC). In fact, contribution of NC to both epithelium and mesenchyme in the developing tongue is not fully understood. In the present study we used two independent, well-characterized mouse lines, Wnt1-Cre and P0-Cre that express Cre recombinase in a NC-specific manner, in combination with two Cre reporter mouse lines, R26R and ZEG, and demonstrate a contribution of NC-derived cells to both tongue mesenchyme and epithelium including taste papillae and taste buds. In tongue mesenchyme, distribution of NC-derived cells is in close association with taste papillae. In tongue epithelium, labeled cells are observed in an initial scattered distribution and progress to a clustered pattern between papillae, and within papillae and early taste buds. This provides evidence for a contribution of NC to lingual epithelium. Together with previous reports for the origin of taste bud cells from local epithelium in postnatal mouse, we propose that NC cells migrate into and reside in the epithelium of the tongue primordium at an early embryonic stage, acquire epithelial cell phenotypes, and undergo cell proliferation and differentiation that is involved in the development of taste papillae and taste buds. Our findings lead to a new concept about derivation of taste bud cells that include a NC origin. | | | 22659543
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Fusion of intestinal epithelial cells with bone marrow derived cells is dispensable for tissue homeostasis. de Jong, JH; Rodermond, HM; Zimberlin, CD; Lascano, V; De Sousa E Melo, F; Richel, DJ; Medema, JP; Vermeulen, L Scientific reports
2
271
2012
Show Abstract
The epithelial lining of the intestine is characterized by an immense cellular turn-over ascertaining an extensive regenerative capacity. Multiple reports suggest that besides the local intestinal stem cell pool, circulating cells of bone marrow origin (BMDCs) contribute to this process by fusing with the epithelial lineage. However, the functional relevance of these observations is unknown. In the present study we employ a model system in which we cannot only detect cell fusion but also examine the functional importance of this process in vivo. Our results indicate that fusion between BMDCs and intestinal epithelial cells is an extremely rare event under physiological conditions. More importantly, by employing a system in which fusion-derived cells can be specifically deleted after extensive tissue damage, we present evidence that cell fusion is not relevant for tissue regeneration. Our data decisively demonstrates that intestinal epithelial homeostasis and regeneration is not dependent on cell fusion involving BMDCs. | | | 22355783
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Ferroxidase hephaestin's cell-autonomous role in the retinal pigment epithelium. Wolkow, N; Song, D; Song, Y; Chu, S; Hadziahmetovic, M; Lee, JC; Iacovelli, J; Grieco, S; Dunaief, JL The American journal of pathology
180
1614-24
2012
Show Abstract
Hephaestin (Heph) is a ferroxidase protein that converts ferrous to ferric iron to facilitate cellular iron export by ferroportin. Many tissues express either Heph or its homologue, ceruloplasmin (Cp), but the retina expresses both. In mice, a combined systemic mutation of Heph and systemic knockout of Cp (Cp(-/-), Heph(sla/sla)) causes retinal iron accumulation and retinal degeneration, with features of human age-related macular degeneration; however, the role of Heph and Cp in the individual retinal cells is unclear. Herein, we used conditional knockout mice to study Heph's role in retinal pigment epithelial (RPE) and photoreceptor cells. Loss of both Heph and Cp from RPE cells alone results in RPE cell iron accumulation and degeneration. We found, however, that RPE iron accumulation in these conditional knockout mice is not as great as in systemic knockout mice. Photoreceptor-specific Heph knockout indicates that the additional iron in the RPE cells does not result from loss of ferroxidases in the photoreceptors, and Cp and Heph play minor roles in photoreceptors. Instead, loss of ferroxidases in other retinal cells causes retinal iron accumulation and transfer of iron to the RPE cells. Cp and Heph are necessary for iron export from the retina but are not essential for iron import into the retina. Thus, our studies, revise how we think about iron import and export from the retina. | | | 22342521
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