Author: "Brain and Behavior Research Foundation" - Searchworks@Jio Institute Digital Library Search Results

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112 results on '"Brain and Behavior Research Foundation"'

1. Melatonin Effects on Sleep and Circadian Rhythm in Youth and Young Adults With At-risk Symptoms

Author: University of Pennsylvania and Brain and Behavior Research Foundation (NARSAD Young Investigator Award, Grant Number 26742)
Published: 2023

2. Coexpression network analysis of the adult brain sheds light on the pathogenic mechanism of DDR1 in schizophrenia and bipolar disorder

Author: Brain and Behavior Research Foundation, Instituto de Salud Carlos III, Agència de Gestió d'Ajuts Universitaris i de Recerca, Muntané, Gerard [0000-0003-1541-8365], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Aranda, Selena, Muntané, Gerard, Vilella, Elisabet, Brain and Behavior Research Foundation, Instituto de Salud Carlos III, Agència de Gestió d'Ajuts Universitaris i de Recerca, Muntané, Gerard [0000-0003-1541-8365], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Aranda, Selena, Muntané, Gerard, and Vilella, Elisabet
Abstract: DDR1 has been linked to schizophrenia (SCZ) and bipolar disorder (BD) in association studies. DDR1 encodes 58 distinct transcripts, which can be translated into five isoforms (DDR1a-e) and are expressed in the brain. However, the transcripts expressed in each brain cell type, their functions and their involvement in SCZ and BD remain unknown. Here, to infer the processes in which DDR1 transcripts are involved, we used transcriptomic data from the human brain dorsolateral prefrontal cortex of healthy controls (N = 936) and performed weighted gene coexpression network analysis followed by enrichment analyses. Then, to explore the involvement of DDR1 transcripts in SCZ (N = 563) and BD (N = 222), we studied the association of coexpression modules with disease and performed differential expression and transcript significance analyses. Some DDR1 transcripts were distributed across five coexpression modules identified in healthy controls (MHC). MHC1 and MHC2 were enriched in the cell cycle and proliferation of astrocytes and OPCs; MHC3 and MHC4 were enriched in oligodendrocyte differentiation and myelination; and MHC5 was enriched in neurons and synaptic transmission. Most of the DDR1 transcripts associated with SCZ and BD pertained to MHC1 and MHC2. Altogether, our results suggest that DDR1 expression might be altered in SCZ and BD via the proliferation of astrocytes and OPCs, suggesting that these processes are relevant in psychiatric disorders.
Published: 2024

3. Synergistic effects of childhood adversity and polygenic risk in first-episode psychosis: the EU-GEI study

Author: European Commission, South-Eastern Norway Regional Health Authority, Brain and Behavior Research Foundation, Aas, Monica [0000-0002-2338-5826], Aas, Monica, Alameda, Luis, Di Forti, Marta, Quattrone, Diego, Dazzan, Paola, Trotta, Antonella, Ferraro, Laura, Rodríguez, Victoria, Vassos, Evangelos, Sham, Pak C., Tripoli, Giada, La Cascia, Caterina, La Barbera, Daniele, Tarricone, Ilaria, Muratori, Roberto, Berardi, Domenico, Lasalvia, Antonio, Tosato, Sarah, Szöke, Andrei, Llorca, Pierre-Michel, Arango, Celso, Tortelli, Andrea, Haan, Lieuwe de, Velthorst, Eva, Bobes, Julio, Bernardo, Miguel, Sanjuán, Julio, Santos, José Luis, Arrojo, Manuel, Del-Ben, Cristina Marta, Menezes, Paulo Rossi, Selten, Jean-Paul, Jones, Peter B., Jongsma, Hannah E., Kirkbride, James B., Rutten, Bart P. F., Os, Jim van, Gayer-Anderson, Charlotte, Murray, Robin M., Morgan, Craig, European Commission, South-Eastern Norway Regional Health Authority, Brain and Behavior Research Foundation, Aas, Monica [0000-0002-2338-5826], Aas, Monica, Alameda, Luis, Di Forti, Marta, Quattrone, Diego, Dazzan, Paola, Trotta, Antonella, Ferraro, Laura, Rodríguez, Victoria, Vassos, Evangelos, Sham, Pak C., Tripoli, Giada, La Cascia, Caterina, La Barbera, Daniele, Tarricone, Ilaria, Muratori, Roberto, Berardi, Domenico, Lasalvia, Antonio, Tosato, Sarah, Szöke, Andrei, Llorca, Pierre-Michel, Arango, Celso, Tortelli, Andrea, Haan, Lieuwe de, Velthorst, Eva, Bobes, Julio, Bernardo, Miguel, Sanjuán, Julio, Santos, José Luis, Arrojo, Manuel, Del-Ben, Cristina Marta, Menezes, Paulo Rossi, Selten, Jean-Paul, Jones, Peter B., Jongsma, Hannah E., Kirkbride, James B., Rutten, Bart P. F., Os, Jim van, Gayer-Anderson, Charlotte, Murray, Robin M., and Morgan, Craig
Abstract: [Background] A history of childhood adversity is associated with psychotic disorder, with an increase in risk according to the number of exposures. However, it is not known why only some exposed individuals go on to develop psychosis. One possibility is pre-existing polygenic vulnerability. Here, we investigated, in the largest sample of first-episode psychosis (FEP) cases to date, whether childhood adversity and high polygenic risk scores for schizophrenia (SZ-PRS) combine synergistically to increase the risk of psychosis, over and above the effect of each alone., [Methods] We assigned a schizophrenia-polygenic risk score (SZ-PRS), calculated from the Psychiatric Genomics Consortium (PGC2), to all participants in a sample of 384 FEP patients and 690 controls from the case–control component of the EU-GEI study. Only participants of European ancestry were included in the study. A history of childhood adversity was collected using the Childhood Trauma Questionnaire (CTQ). Synergistic effects were estimated using the interaction contrast ratio (ICR) [odds ratio (OR)exposure and PRS − ORexposure − ORPRS + 1] with adjustment for potential confounders., [Results] There was some evidence that the combined effect of childhood adversities and polygenic risk was greater than the sum of each alone, as indicated by an ICR greater than zero [i.e. ICR 1.28, 95% confidence interval (CI) −1.29 to 3.85]. Examining subtypes of childhood adversities, the strongest synergetic effect was observed for physical abuse (ICR 6.25, 95% CI −6.25 to 20.88)., [Conclusions] Our findings suggest possible synergistic effects of genetic liability and childhood adversity experiences in the onset of FEP, but larger samples are needed to increase precision of estimates.
Published: 2023

4. Association Between Childhood Adversity and Functional Outcomes in People With Psychosis: A Meta-analysis

Author: Fundación Alicia Koplowitz, Janssen Biotech, Deakin University, Rotary Club of Geelong, Brain and Behavior Research Foundation, Medical Research Council (UK), Christy, Angeline, Cavero, Daniela, Navajeeva, Sujeena, Murray-O'Shea, Rachel, Rodríguez, Victoria, Aas, Monica, Trotta, Giulia, Moudiab, Socayna, Garrido-Torres, Nathalia, Zamora, Blanca, Sideli, Lucia, Wrobel, Anna L., Salazar de Pablo, Gonzalo, Alameda, Luis, Fundación Alicia Koplowitz, Janssen Biotech, Deakin University, Rotary Club of Geelong, Brain and Behavior Research Foundation, Medical Research Council (UK), Christy, Angeline, Cavero, Daniela, Navajeeva, Sujeena, Murray-O'Shea, Rachel, Rodríguez, Victoria, Aas, Monica, Trotta, Giulia, Moudiab, Socayna, Garrido-Torres, Nathalia, Zamora, Blanca, Sideli, Lucia, Wrobel, Anna L., Salazar de Pablo, Gonzalo, and Alameda, Luis
Abstract: Despite the accepted link between childhood adversity (CA) and psychotic disorders, evidence on the relationship between CA and poor functional outcome remains less consistent and has never been reviewed quantitatively. The aim of this meta-analysis was to systematically examine the association between CA and functional outcomes in people with psychotic disorders.
Published: 2023

5. Corticotropin-releasing hormone signaling from prefrontal cortex to lateral septum suppresses interaction with familiar mice

Author: European Commission, European Research Council, Generalitat Valenciana, Brain and Behavior Research Foundation, National Science Foundation (US), Gatsby Charitable Foundation, De León Reyes, N. S., Sierra Diaz, Paula Andrea, Nogueira, Ramón, Ruiz-Pino, Antonia, Nomura, Yuki, Solis, Christopher A. de, Shulkin, Jay, Asok, Arun, Leroy, Felix, European Commission, European Research Council, Generalitat Valenciana, Brain and Behavior Research Foundation, National Science Foundation (US), Gatsby Charitable Foundation, De León Reyes, N. S., Sierra Diaz, Paula Andrea, Nogueira, Ramón, Ruiz-Pino, Antonia, Nomura, Yuki, Solis, Christopher A. de, Shulkin, Jay, Asok, Arun, and Leroy, Felix
Abstract: Social preference, the decision to interact with one member of the same species over another, is critical to optimize social interactions. Thus, adult rodents favor interacting with novel conspecifics over familiar ones, but whether this social preference stems from neural circuits facilitating interactions with novel individuals or suppressing interactions with familiar ones remains unknown. Here, we identify neurons in the infra-limbic area (ILA) of the mouse prefrontal cortex that express the neuropeptide corticotropin-releasing hormone (CRH) and project to the dorsal region of the rostral lateral septum (rLS). We show how release of CRH during familiar encounters disinhibits rLS neurons, thereby suppressing social interactions with familiar mice and contributing to social novelty preference. We further demonstrate how the maturation of CRH expression in ILA during the first 2 post-natal weeks enables the developmental shift from a preference for littermates in juveniles to a preference for novel mice in adults.
Published: 2023

6. GluN3A subunit tunes NMDA receptor synaptic trafficking and content during postnatal brain development

Author: Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Centre National de la Recherche Scientifique (France), Fondation pour la Recherche Médicale, Agence Nationale de la Recherche (France), EMBO, González-González, Inmaculada M., Gray, John A., Ferreira, Joana S., Conde-Dusman, María J., Bouchet, Delphine, Pérez-Otaño, Isabel, Groc, Laurent, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Centre National de la Recherche Scientifique (France), Fondation pour la Recherche Médicale, Agence Nationale de la Recherche (France), EMBO, González-González, Inmaculada M., Gray, John A., Ferreira, Joana S., Conde-Dusman, María J., Bouchet, Delphine, Pérez-Otaño, Isabel, and Groc, Laurent
Abstract: Signaling via N-methyl-d-aspartate receptors (NMDARs) is critical for the maturation of glutamatergic synapses, partly through a developmental switch from immature synapses expressing primarily GluN2B- and GluN3A-containing subtypes to GluN2A-rich mature ones. This subunit switch is thought to underlie the synaptic stabilization of NMDARs necessary for neural network consolidation. However, the cellular mechanisms controlling the NMDAR exchange remain unclear. Using a combination of single-molecule and confocal imaging and biochemical and electrophysiological approaches, we show that surface GluN3A-NMDARs form a highly diffusive receptor pool that is loosely anchored to synapses. Remarkably, changes in GluN3A subunit expression selectively alter the surface diffusion and synaptic anchoring of GluN2A- but not GluN2B-NMDARs, possibly through altered interactions with cell surface receptors. The effects of GluN3A on NMDAR surface diffusion are restricted to an early time window of postnatal development in rodents, allowing GluN3A subunits to control the timing of NMDAR signaling maturation and neuronal network refinements.
Published: 2023

7. Structural brain alterations associated with suicidal thoughts and behaviors in young people: results from 21 international studies from the ENIGMA Suicidal Thoughts and Behaviours consortium

Author: Universidad de Sevilla. Departamento de Psiquiatría, American Foundation for Suicide Prevention (AFSP), Australian National Health and Medical Research Council (NHMRC), Biotechnology Research Center, Brain and Behavior Research Foundation, CJ Martin Fellowship (NHMRC), Deborah E. Powell Center for Women's Health Seed Grant, University of Minnesota, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER) /Fondo Social Europeo "Invertir en tu futuro", Famous Doctors Project of Yunnan Province Plan, For the Love of Travis Foundation, Fundacion Instituto de Investigacion Marques de Valdecilla, Deutsche Forschungsgemeinschaft / German Research Foundation (DFG), Good Talk, Instituto de Salud Carlos III, Interdisziplinares Zentrum fur Klinische Forschung, UKJ, International Bipolar Foundation, Ministerio italiano de Salud, J. Jacobson Fund., Janette Mary O'Neil Research Fellowship, Keith Pettigrew Family Bequest, Klingenstein Third Generation Foundation, Lansdowne Foundation, Medical Faculty Munster, Innovative Medizinische Forschung, Medical Leader Foundation of Yunnan Province, Minnesota Medical Foundation, MQ Brighter Futures, MQ Brighter Futures Award, National Alliance for Research on Schizophrenia and Depression, National Center for Advancing Translational Sciences (CTSI), National Institutes of Health, National Center for Complementary and Integrative Health (NCCIH), National Institute of Mental Health (NIMH), NHMRC Career Development Fellowships, NIAAA, Program "Investissements d'avenir", Ray and Dagmar Dolby Family Fund., Social Safety and Resilience program of Leiden University, Stanford Center for Cognitive and Neurobiological Imaging, Stanford Maternal Child Health Research Institute, U.S. National Institute of Mental Health, UCSF Research Evaluation and Allocation Committee (REAC), University of Minnesota, Women's Health Research at Yale, van Velzen, Laura S., Dauvermann, Maria R., Colic, Lejla, Villa, Luca M., Savage, Hannah S., Toenders, Yara J., Crespo Facorro, Benedicto, Schmaal, Lianne, Universidad de Sevilla. Departamento de Psiquiatría, American Foundation for Suicide Prevention (AFSP), Australian National Health and Medical Research Council (NHMRC), Biotechnology Research Center, Brain and Behavior Research Foundation, CJ Martin Fellowship (NHMRC), Deborah E. Powell Center for Women's Health Seed Grant, University of Minnesota, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER) /Fondo Social Europeo "Invertir en tu futuro", Famous Doctors Project of Yunnan Province Plan, For the Love of Travis Foundation, Fundacion Instituto de Investigacion Marques de Valdecilla, Deutsche Forschungsgemeinschaft / German Research Foundation (DFG), Good Talk, Instituto de Salud Carlos III, Interdisziplinares Zentrum fur Klinische Forschung, UKJ, International Bipolar Foundation, Ministerio italiano de Salud, J. Jacobson Fund., Janette Mary O'Neil Research Fellowship, Keith Pettigrew Family Bequest, Klingenstein Third Generation Foundation, Lansdowne Foundation, Medical Faculty Munster, Innovative Medizinische Forschung, Medical Leader Foundation of Yunnan Province, Minnesota Medical Foundation, MQ Brighter Futures, MQ Brighter Futures Award, National Alliance for Research on Schizophrenia and Depression, National Center for Advancing Translational Sciences (CTSI), National Institutes of Health, National Center for Complementary and Integrative Health (NCCIH), National Institute of Mental Health (NIMH), NHMRC Career Development Fellowships, NIAAA, Program "Investissements d'avenir", Ray and Dagmar Dolby Family Fund., Social Safety and Resilience program of Leiden University, Stanford Center for Cognitive and Neurobiological Imaging, Stanford Maternal Child Health Research Institute, U.S. National Institute of Mental Health, UCSF Research Evaluation and Allocation Committee (REAC), University of Minnesota, Women's Health Research at Yale, van Velzen, Laura S., Dauvermann, Maria R., Colic, Lejla, Villa, Luca M., Savage, Hannah S., Toenders, Yara J., Crespo Facorro, Benedicto, and Schmaal, Lianne
Abstract: Identifying brain alterations associated with suicidal thoughts and behaviors (STBs) in young people is critical to understanding their development and improving early intervention and prevention. The ENIGMA Suicidal Thoughts and Behaviours (ENIGMA-STB) consortium analyzed neuroimaging data harmonized across sites to examine brain morphology associated with STBs in youth. We performed analyses in three separate stages, in samples ranging from most to least homogeneous in terms of suicide assessment instrument and mental disorder. First, in a sample of 577 young people with mood disorders, in which STBs were assessed with the Columbia Suicide Severity Rating Scale (C-SSRS). Second, in a sample of young people with mood disorders, in which STB were assessed using different instruments, MRI metrics were compared among healthy controls without STBs (HC; N = 519), clinical controls with a mood disorder but without STBs (CC; N = 246) and young people with current suicidal ideation (N = 223). In separate analyses, MRI metrics were compared among HCs (N = 253), CCs (N = 217), and suicide attempters (N = 64). Third, in a larger transdiagnostic sample with various assessment instruments (HC = 606; CC = 419; Ideation = 289; HC = 253; CC = 432; Attempt=91). In the homogeneous C-SSRS sample, surface area of the frontal pole was lower in young people with mood disorders and a history of actual suicide attempts (N = 163) than those without a lifetime suicide attempt (N = 323; FDR-p = 0.035, Cohen’s d = 0.34). No associations with suicidal ideation were found. When examining more heterogeneous samples, we did not observe significant associations. Lower frontal pole surface area may represent a vulnerability for a (non-interrupted and non-aborted) suicide attempt; however, more research is needed to understand the nature of its relationship to suicide risk.
Published: 2022

8. miR-137 and miR-122, two outer subventricular zone non-coding RNAs, regulate basal progenitor expansion and neuronal differentiation

Author: Swiss National Science Foundation, Brain and Behavior Research Foundation, European Research Council, EMBO, European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Tomasello, Ugo, Klingler, Esther, Niquille, Mathieu, Mule, Nandkishor, Santinha, Antonio J., Vevey, Laura de, Prados, Julien, Platt, Randall J., Borrell, Víctor, Jabaudon, Denis, Dayer, Alexandre, Swiss National Science Foundation, Brain and Behavior Research Foundation, European Research Council, EMBO, European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Tomasello, Ugo, Klingler, Esther, Niquille, Mathieu, Mule, Nandkishor, Santinha, Antonio J., Vevey, Laura de, Prados, Julien, Platt, Randall J., Borrell, Víctor, Jabaudon, Denis, and Dayer, Alexandre
Abstract: Cortical expansion in primate brains relies on enlargement of germinal zones during a prolonged developmental period. Although most mammals have two cortical germinal zones, the ventricular zone (VZ) and subventricular zone (SVZ), gyrencephalic species display an additional germinal zone, the outer subventricular zone (oSVZ), which increases the number and diversity of neurons generated during corticogenesis. How the oSVZ emerged during evolution is poorly understood, but recent studies suggest a role for non-coding RNAs, which allow tight genetic program regulation during development. Here, using in vivo functional genetics, single-cell RNA sequencing, live imaging, and electrophysiology to assess progenitor and neuronal properties in mice, we identify two oSVZ-expressed microRNAs (miRNAs), miR-137 and miR-122, which regulate key cellular features of cortical expansion. miR-137 promotes basal progenitor self-replication and superficial layer neuron fate, whereas miR-122 decreases the pace of neuronal differentiation. These findings support a cell-type-specific role of miRNA-mediated gene expression in cortical expansion.
Published: 2022

9. Top-down regulation of motivated behaviors via lateral septum sub-circuits

Author: European Commission, European Research Council, Generalitat Valenciana, Brain and Behavior Research Foundation, Agence Nationale de la Recherche (France), Fondation Fyssen, Besnard, Antoine, Leroy, Felix, European Commission, European Research Council, Generalitat Valenciana, Brain and Behavior Research Foundation, Agence Nationale de la Recherche (France), Fondation Fyssen, Besnard, Antoine, and Leroy, Felix
Abstract: How does cognition regulate innate behaviors? While the cognitive functions of the cortex have been extensively studied, we know much less about how cognition can regulate innate motivated behaviors to fulfill physiological, safety and social needs. Selection of appropriate motivated behaviors depends on external stimuli and past experiences that helps to scale priorities. With its abundant inputs from neocortical and allocortical regions, the lateral septum (LS) is ideally positioned to integrate perception and experience signals in order to regulate the activity of hypothalamic and midbrain nuclei that control motivated behaviors. In addition, LS receives numerous subcortical modulatory inputs, which represent the animal internal states and also participate in this regulation. In this perspective, we argue that LS sub-circuits regulate distinct motivated behaviors by integrating neural activity from neocortical, allocortical and neuromodulatory inputs. In addition, we propose that lateral inhibition between LS sub-circuits may allow the emergence of functional units that orchestrates competing motivated behaviors.
Published: 2022

10. Multimodal cues displayed by submissive rats promote prosocial choices by dominants

Author: Brain and Behavior Research Foundation, BIAL Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Fundación Carolina, Fundación la Caixa, Munyua Gachomba, Michael Joe, Esteve-Agraz, Joan, Caref, Kevin, Sanz Maroto, Aroa, Bortolozzo-Gleich, Maria Helena, Laplagne, Diego Andrés, Márquez, Cristina, Brain and Behavior Research Foundation, BIAL Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Fundación Carolina, Fundación la Caixa, Munyua Gachomba, Michael Joe, Esteve-Agraz, Joan, Caref, Kevin, Sanz Maroto, Aroa, Bortolozzo-Gleich, Maria Helena, Laplagne, Diego Andrés, and Márquez, Cristina
Abstract: Animals often display prosocial behaviors, performing actions that benefit others. Although prosociality is essential for social bonding and cooperation, we still know little about how animals integrate behavioral cues from those in need to make decisions that increase their well-being. To address this question, we used a two-choice task where rats can provide rewards to a conspecific in the absence of self-benefit and investigated which conditions promote prosociality by manipulating the social context of the interacting animals. Although sex or degree of familiarity did not affect prosocial choices in rats, social hierarchy revealed to be a potent modulator, with dominant decision-makers showing faster emergence and higher levels of prosocial choices toward their submissive cage mates. Leveraging quantitative analysis of multimodal social dynamics prior to choice, we identified that pairs with dominant decision-makers exhibited more proximal interactions. Interestingly, these closer interactions were driven by submissive animals that modulated their position and movement following their dominants and whose 50-kHz vocalization rate correlated with dominants’ prosociality. Moreover, Granger causality revealed stronger bidirectional influences in pairs with dominant focals and submissive recipients, indicating increased behavioral coordination. Finally, multivariate analysis highlighted body language as the main information dominants use on a trial-by-trial basis to learn that their actions have effects on others. Our results provide a refined understanding of the behavioral dynamics that rats use for action-selection upon perception of socially relevant cues and navigate social decision-making.
Published: 2022

11. GluN3A excitatory glycine receptors control adult cortical and amygdalar circuits

Author: Agence Nationale de la Recherche (France), European Commission, European Research Council, Brain and Behavior Research Foundation, National Institutes of Health (US), Bossi, Simon, Dhanasobhon, Dhanasak, Ellis-Davies, Graham C.R., Frontera, Jimena, Brito Van Velze, Marcel de, Lourenço, Joana, Murillo, Alvaro, Luján, Rafael, Casado, Mariano, Pérez-Otaño, Isabel, Bacci, Alberto, Popa, Daniela, Paolitti, Pierre, Rebola, Nelson, Agence Nationale de la Recherche (France), European Commission, European Research Council, Brain and Behavior Research Foundation, National Institutes of Health (US), Bossi, Simon, Dhanasobhon, Dhanasak, Ellis-Davies, Graham C.R., Frontera, Jimena, Brito Van Velze, Marcel de, Lourenço, Joana, Murillo, Alvaro, Luján, Rafael, Casado, Mariano, Pérez-Otaño, Isabel, Bacci, Alberto, Popa, Daniela, Paolitti, Pierre, and Rebola, Nelson
Abstract: GluN3A is an atypical glycine-binding subunit of NMDA receptors (NMDARs) whose actions in the brain are mostly unknown. Here, we show that the expression of GluN3A subunits controls the excitability of mouse adult cortical and amygdalar circuits via an unusual signaling mechanism involving the formation of excitatory glycine GluN1/GluN3A receptors (eGlyRs) and their tonic activation by extracellular glycine. eGlyRs are mostly extrasynaptic and reside in specific neuronal populations, including the principal cells of the basolateral amygdala (BLA) and SST-positive interneurons (SST-INs) of the neocortex. In the BLA, tonic eGlyR currents are sensitive to fear-conditioning protocols, are subject to neuromodulation by the dopaminergic system, and control the stability of fear memories. In the neocortex, eGlyRs control the in vivo spiking of SST-INs and the behavior-dependent modulation of cortical activity. GluN3A-containing eGlyRs thus represent a novel and widespread signaling modality in the adult brain, with attributes that strikingly depart from those of conventional NMDARs.
Published: 2022

12. A novel role for the lateral habenula in fear learning

Author: Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Brain and Behavior Research Foundation, Canadian Institutes of Health Research, Natural Sciences and Engineering Research Council of Canada, Fonds de la Recherche en Sante du Québec, Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Sachella, Tomas E., Ihidoype, Marina R., Proulx, Christophe D., Pafundo DE, Medina, Jorge H., Méndez, Pablo, Piriz, Joaquin, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Brain and Behavior Research Foundation, Canadian Institutes of Health Research, Natural Sciences and Engineering Research Council of Canada, Fonds de la Recherche en Sante du Québec, Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Sachella, Tomas E., Ihidoype, Marina R., Proulx, Christophe D., Pafundo DE, Medina, Jorge H., Méndez, Pablo, and Piriz, Joaquin
Abstract: Fear is an extreme form of aversion that underlies pathological conditions such as panic or phobias. Fear conditioning (FC) is the best-understood model of fear learning. In FC the context and a cue are independently associated with a threatening unconditioned stimulus (US). The lateral habenula (LHb) is a general encoder of aversion. However, its role in fear learning remains poorly understood. Here we studied in rats the role of the LHb in FC using optogenetics and pharmacological tools. We found that inhibition or activation of the LHb during entire FC training impaired both cued and contextual FC. In contrast, optogenetic inhibition of the LHb restricted to cue and US presentation impaired cued but not contextual FC. In either case, simultaneous activation of contextual and cued components of FC, by the presentation of the cue in the training context, recovered the conditioned fear response. Our results support the notion that the LHb is required for the formation of independent contextual and cued fear memories, a previously uncharacterized function for this structure, that could be critical in fear generalization.
Published: 2022

13. Mapping genomic loci implicates genes and synaptic biology in schizophrenia

Author: Medical Research Council (UK), National Natural Science Foundation of China, Royal Society (UK), Chinese Academy of Sciences, Shanghai Science and Technology Committee, Research Council of Norway, European Commission, Fundação de Amparo à Pesquisa do Estado de São Paulo, Ministerio de Ciencia e Innovación (España), Instituto de Salud Carlos III, Comunidad de Madrid, Fundación Alicia Koplowitz, Fundación Alonso Lozano, Mental Health Research UK, Wellcome Trust, Brain and Behavior Research Foundation, NIHR Biomedical Research Centre (UK), University College London, Generalitat Valenciana, Trubetskoy, Vassily, Pardiñas, Antonio F., Qi, Ting, Panagiotaropoulou, Georgia, Awasthi, Swapnil, Bigdeli, Tim B., Bryois, Julien, Chen, Chia-Yen, Dennison, Charlotte A., Hall, Lynsey S., Lam, Max, Curtis, Charles, Nikitina-Zake, Liene, Davidson, Michael, Joa, Inge, Davis, Kenneth L., Yolken, Robert, Murray, Robin M., de Haan, Lieuwe, Legge, Sophie E., Serretti, Alessandro, van Os, Jim, Smoller, Jordan W., Agartz, Ingrid, Alizadeh, Behrooz Z., Degenhardt, Franziska, DeLisi, Lynn E., Demontis, Ditte, Dickerson, Faith, Zai, Clement C., Dikeos, Dimitris, Dinan, Timothy, Henskens, Frans A., Vaaler, Arne, Noto, Cristiano, Nimgaonkar, Vishwajit, Rautanen, Anna, Lehrer, Douglas S., Djurovic, Srdjan, Duan, Jubao, Julià, Antonio, Stahl, Eli A., Zhou, Wei, Vawter, Marquis P., Toncheva, Draga, Webb, Bradley T., Ducci, Giuseppe, Dudbridge, Frank, Eriksson, Johan G., Fañanas Saura, Lourdes, Goldstein, Jacqueline I., Faraone, Stephen V., Lencer, Rebecca, Moreno, Carmen, Bacanu, Silviu A., Fiorentino, Alessia, Calkins, Monica E., Mitjans, Marina, Forstner, Andreas, Nuechterlein, Keith H., Frank, Josef, Tsuang, Debby W., Freimer, Nelson B., Tooney, Paul A., Belangero, Sintia Iole, Weinberger, Daniel R., Fromer, Menachem, Ge,Tian, Adolfsson, Rolf, Hakonarson, Hakon, Zhu, Feng, Frustaci, Alessandra, Nöthen, Markus M., Gadelha, Ary, Genovese, Giulio, Gershon, Elliot S., Quattrone, Diego, Kähler, Anna K., Kam-Thong, Tony, van Amelsvoort, Therese, Vilella, Elisabet, Molden, Espen, O'Brien, Niamh Louise, Zimprich, Fritz, Kamatani, Yoichiro, Braun, Alice, Melegh, Bela, Pirinen, Matti, Karachanak-Yankova, Sena, Ophoff, Roel A., Kebir, Oussama, Lerer, Bernard, Nordentoft, Merete, Fanous, Ayman H., Reichenberg, Abraham, Li, Miaoxin, Periyasamy, Sathish, Lieberman, Jeffrey, Werge, Thomas, Light, Gregory A., Limborska, Svetlana, Tosato, Sarah, Liu, Chih-Min, Olincy, Ann, Magnusson, Sigurdur, Gareeva, Anna, Bressan, Rodrigo Affonseca, Lönnqvist, Jouko, Roe, Cheryl, Cheng, Wei, Athanasiu, Lavinia, Gutiérrez, Blanca, Harvey, Carol, Loughland, Carmel M., Lubinski, Jan, Luykx, Jurjen J., Lynham, Amy, Gawlik, Micha, Macek, Milan, Mackinnon, Andrew, Buxbaum, Joseph D., Tura, Gian Battista, Bromet, Evelyn J., Atbaşoğlu, Eşref Cem, Roffman, Joshua L., Magnusson, Patrik K. E., Maher, Brion S., Ota, Vanessa Kiyomi, Paciga, Sara A., Gejman, Pablo V., Arango, Celso, Forti, Marta Di, Maier, Wolfgang, Richards, Alexander L., Malaspina, Dolores, Mallet, Jacques, Metspalu, Andres, Marder, Stephen R., Li, Zhiqiang, Takahashi, Atsushi, Marsal, Sara, Kučinskiene, Zita Ausrele, Suvisaari, Jaana, Martin, Alicia R., Turetsky, Bruce I., Martorell, Lourdes, Palotie, Aarno, Mattheisen, Manuel, Baune, Bernhard T., Saka, Meram C., McCarley, Robert W., Giusti-Rodríguez, Paola, Riley, Brien P., Murphy, Kieran C., Gill, Michael, McDonald, Colm, Bruggeman, Richard, McGrath, John J., Sidorenko, Julia, Medeiros, Helena, Pantelis, Christos, Grove, Jakob, Campion, Dominique, Pato, Carlos N., Svrakic, Dragan M., Üçok, Alp, Glatt, Stephen J., Papadimitriou, George N., Khrunin, Andrey, Straub, Richard E., Parellada, Mara, Buckley, Peter F., Paunio, Tiina, Roth, Julian, Morgan, Vera A., Wildenauer, Dieter B., Ayub, Muhammad, Rothermundt, Matthias, Weiser, Mark, Rutten, Bart P. F., Saker-Delye, Safaa, Salomaa, Veikko, Børglum, Anders D., Sanjuán, Julio, van Winkel, Ruud, González Peñas, Javier, Yu, Xin, Kim, Sung-Wan, Santoro, Marcos Leite, Benner, Christian, Ikeda, Masashi, Morley, Christopher P., Zeng, Jian, Savitz, Adam, Schall, Ulrich, Scott, Rodney J., Voloudakis, Georgios, Yue, Weihua, Seidman, Larry J., Sharp, Sally Isabel, Alptekin, Köksal, Klovins, Janis, Amin, Farooq, Bertolino, Alessandro, Shi, Jianxin, Siever, Larry J., Atkinson, Elizabeth G., Buckner, Randy L., Holmans, Peter A., Rivera, Margarita, Sigurdsson, Engilbert, González-Pinto, Ana, Sim, Kang, Skarabis, Nora, Stroup, T Scott, Slominsky, Petr, Guillin, Olivier, Wang, Shi-Heng, So, Hon-Cheong, Quested, Digby, Sobell, Janet L., Braff, David, Zhang, Wen, Bybjerg-Grauholm, Jonas, Söderman, Erik, Rujescu, Dan, Chambert, Kimberley D., Stain, Helen J., Melle, Ingrid, Carr, Vaughan J, Pocklington, Andrew J., Steen, Nils Eiel, Harwood, Janet, Steixner-Kumar, Agnes A., Gopal, Srihari, Stögmann, Elisabeth, Veijola, Juha, Watanabe, Kyoko, Sham, Pak C., Cahn, Wiepke, Bramon, Elvira, Roussos, Panos, Waddington, John, Perkins, Diana O., Pato, Michele T., Walter, Henrik, Kondratiev, Nikolay, Waterreus, Anna, Al Eissa, Mariam, Bobes, Julio, Golimbet, Vera, Black, Donald W., Als, Thomas D., Bray, Nicholas J., Breen, Gerome, Buccola, Nancy G., Sanders, Alan R., Byerley, William F., Cervilla, Jorge A., Michie, Patricia T., Pfuhlmann, Bruno, Chen, Wei J., Hong, Kyung Sue, O'Neill, F Anthony, Terao, Chikashi, Green, Michael F., Cloninger, C. Robert, Crespo-Facorro, Benedicto, Donohoe, Gary, Gülöksüz, Sinan, Freedman, Robert, Albus, Margot, Hayward, Caroline, Pietiläinen, Olli, Herms, Stefan, Hultman, Christina M., Galletly, Cherrie, Gandal, Michael J., Hahn, Eric, Konte, Bettina, Castle, David, Gennarelli, Massimo, Milani, Lili, Hougaard, David M., Hwu, Hai-Gwo, Pulver, Ann E., Jablensky, Assen V., Molina, Esther, Qin, Shengying, McCarroll, Steven A., Moran, Jennifer L., Azevedo, Maria Helena, Gur, Rachel E., Kraft, Julia, Mors, Ole, Catts, Stanley V., Lazzeroni, Laura C., Mortensen, Preben B., Streit, Fabian, Kusumawardhani, Agung, Alexander, Madeline, Godard, Stephanie, Müller-Myhsok, Bertram, Milanova, Vihra, Neil, Amanda L., Cichon, Sven, Giannitelli, Marianna, Cheung, Eric F. C., Kubo, Michiaki, Schwab, Sibylle G., Collier, David A., Williams, Nigel M., Morris, Derek W., Corvin, Aiden, Pimm, Jonathan, Curtis, David, Haroutunian, Vahram, Keller, Matthew C., Vassos, Evangelos, Hyman, Steven E., Iwata, Nakao, Jönsson, Erik G., Kahn, René S., Chan, Raymond C. K., Kennedy, James L., Shi, Yongyong, Adams, Mark, Witt, Stephanie H., Khusnutdinova, Elza, Verhage, Matthijs, Xu, Shuhua, Wu, Yang, Kirov, George, Arolt, Volker, Knowles, James A., Moltó, Maria Dolores, Krebs, Marie-Odile, Hartmann, Annette M., Nestadt, Gerald, Wormley, Brandon K., Bass, Nicholas J., Laurent-Levinson, Claudine, Lee, Jimmy, Muntané, Gerard, Porteous, David, Kuzelova-Ptackova, Hana, Lencz, Todd, Subramaniam, Mythily, Levinson, Douglas F., Li, Qingqin S., Liu, Jianjun, Swerdlow, Neal R., Cairns, Murray J., Malhotra, Anil K., Malhotra, Dheeraj, Iyegbe, Conrad, Mondelli, Valeria, Kim, Minsoo, Arrojo, Manuel, Landi, Stefano, McIntosh, Andrew M., Petryshen, Tracey L., Radant, Allen D., Frei, Oleksandr, Mesholam-Gately, Raquelle I., McQuillin, Andrew, Sugar, Catherine A., Menezes, Paulo Rossi, St Clair, David, Meier, Sandra, Powell, John, Chaumette, Boris, Stefansson, Hreinn, Domenici, Enrico, Bonassi, Stefano, Stefánsson, Kári, Wu, Jing Qin, Tsuang, Ming T., Myin-Germeys, Inez, Pellegrino, Renata, Visscher, Peter M., Yang, Jian, Posthuma, Danielle, Andreassen, Ole A., Koopmans, Frank, Kendler, Kenneth S., Chong, Siow Ann, Gur, Ruben C., Ehrenreich, Hannelore, Owen, Michael J., Rietschel, Marcella, Gratten, Jacob, Wray, Naomi R., Hoffmann, Per, Daly, Mark J., Szatkiewicz, Jin P., Huang, Hailiang, Nenadić, Igor, Torretta, Silvia, Escott-Price, Valentina, Neale, Benjamin M., Begemann, Martin, Thibaut, Florence, Agerbo, Esben, Rampino, Antonio, Sullivan, Patrick F., Schulze, Thomas G., Ripke, Stephan, Walters, James T. R., O'Donovan, Michael C., Kučinskas, Vaidutis, Belliveau, Richard A., Bene, Judit, Oh, Sang-Yun, Ta, Thi Minh Tam, Greenwood, Tiffany A., Howrigan, Daniel P., Rapaport, Mark H., Benyamin, Beben, Mowry, Bryan J., Giegling, Ina, Strengman, Eric, Bergen, Sarah E., Silverman, Jeremy M., Blasi, Giuseppe, Cohen, David, Stone, William S., Xu, Zhida, Lee, Phil H., Consoli, Angèle, Kelly, Brian J.., Cordeiro, Quirino, Esko, Tõnu, Costas, Javier, Medical Research Council (UK), National Natural Science Foundation of China, Royal Society (UK), Chinese Academy of Sciences, Shanghai Science and Technology Committee, Research Council of Norway, European Commission, Fundação de Amparo à Pesquisa do Estado de São Paulo, Ministerio de Ciencia e Innovación (España), Instituto de Salud Carlos III, Comunidad de Madrid, Fundación Alicia Koplowitz, Fundación Alonso Lozano, Mental Health Research UK, Wellcome Trust, Brain and Behavior Research Foundation, NIHR Biomedical Research Centre (UK), University College London, Generalitat Valenciana, Trubetskoy, Vassily, Pardiñas, Antonio F., Qi, Ting, Panagiotaropoulou, Georgia, Awasthi, Swapnil, Bigdeli, Tim B., Bryois, Julien, Chen, Chia-Yen, Dennison, Charlotte A., Hall, Lynsey S., Lam, Max, Curtis, Charles, Nikitina-Zake, Liene, Davidson, Michael, Joa, Inge, Davis, Kenneth L., Yolken, Robert, Murray, Robin M., de Haan, Lieuwe, Legge, Sophie E., Serretti, Alessandro, van Os, Jim, Smoller, Jordan W., Agartz, Ingrid, Alizadeh, Behrooz Z., Degenhardt, Franziska, DeLisi, Lynn E., Demontis, Ditte, Dickerson, Faith, Zai, Clement C., Dikeos, Dimitris, Dinan, Timothy, Henskens, Frans A., Vaaler, Arne, Noto, Cristiano, Nimgaonkar, Vishwajit, Rautanen, Anna, Lehrer, Douglas S., Djurovic, Srdjan, Duan, Jubao, Julià, Antonio, Stahl, Eli A., Zhou, Wei, Vawter, Marquis P., Toncheva, Draga, Webb, Bradley T., Ducci, Giuseppe, Dudbridge, Frank, Eriksson, Johan G., Fañanas Saura, Lourdes, Goldstein, Jacqueline I., Faraone, Stephen V., Lencer, Rebecca, Moreno, Carmen, Bacanu, Silviu A., Fiorentino, Alessia, Calkins, Monica E., Mitjans, Marina, Forstner, Andreas, Nuechterlein, Keith H., Frank, Josef, Tsuang, Debby W., Freimer, Nelson B., Tooney, Paul A., Belangero, Sintia Iole, Weinberger, Daniel R., Fromer, Menachem, Ge,Tian, Adolfsson, Rolf, Hakonarson, Hakon, Zhu, Feng, Frustaci, Alessandra, Nöthen, Markus M., Gadelha, Ary, Genovese, Giulio, Gershon, Elliot S., Quattrone, Diego, Kähler, Anna K., Kam-Thong, Tony, van Amelsvoort, Therese, Vilella, Elisabet, Molden, Espen, O'Brien, Niamh Louise, Zimprich, Fritz, Kamatani, Yoichiro, Braun, Alice, Melegh, Bela, Pirinen, Matti, Karachanak-Yankova, Sena, Ophoff, Roel A., Kebir, Oussama, Lerer, Bernard, Nordentoft, Merete, Fanous, Ayman H., Reichenberg, Abraham, Li, Miaoxin, Periyasamy, Sathish, Lieberman, Jeffrey, Werge, Thomas, Light, Gregory A., Limborska, Svetlana, Tosato, Sarah, Liu, Chih-Min, Olincy, Ann, Magnusson, Sigurdur, Gareeva, Anna, Bressan, Rodrigo Affonseca, Lönnqvist, Jouko, Roe, Cheryl, Cheng, Wei, Athanasiu, Lavinia, Gutiérrez, Blanca, Harvey, Carol, Loughland, Carmel M., Lubinski, Jan, Luykx, Jurjen J., Lynham, Amy, Gawlik, Micha, Macek, Milan, Mackinnon, Andrew, Buxbaum, Joseph D., Tura, Gian Battista, Bromet, Evelyn J., Atbaşoğlu, Eşref Cem, Roffman, Joshua L., Magnusson, Patrik K. E., Maher, Brion S., Ota, Vanessa Kiyomi, Paciga, Sara A., Gejman, Pablo V., Arango, Celso, Forti, Marta Di, Maier, Wolfgang, Richards, Alexander L., Malaspina, Dolores, Mallet, Jacques, Metspalu, Andres, Marder, Stephen R., Li, Zhiqiang, Takahashi, Atsushi, Marsal, Sara, Kučinskiene, Zita Ausrele, Suvisaari, Jaana, Martin, Alicia R., Turetsky, Bruce I., Martorell, Lourdes, Palotie, Aarno, Mattheisen, Manuel, Baune, Bernhard T., Saka, Meram C., McCarley, Robert W., Giusti-Rodríguez, Paola, Riley, Brien P., Murphy, Kieran C., Gill, Michael, McDonald, Colm, Bruggeman, Richard, McGrath, John J., Sidorenko, Julia, Medeiros, Helena, Pantelis, Christos, Grove, Jakob, Campion, Dominique, Pato, Carlos N., Svrakic, Dragan M., Üçok, Alp, Glatt, Stephen J., Papadimitriou, George N., Khrunin, Andrey, Straub, Richard E., Parellada, Mara, Buckley, Peter F., Paunio, Tiina, Roth, Julian, Morgan, Vera A., Wildenauer, Dieter B., Ayub, Muhammad, Rothermundt, Matthias, Weiser, Mark, Rutten, Bart P. F., Saker-Delye, Safaa, Salomaa, Veikko, Børglum, Anders D., Sanjuán, Julio, van Winkel, Ruud, González Peñas, Javier, Yu, Xin, Kim, Sung-Wan, Santoro, Marcos Leite, Benner, Christian, Ikeda, Masashi, Morley, Christopher P., Zeng, Jian, Savitz, Adam, Schall, Ulrich, Scott, Rodney J., Voloudakis, Georgios, Yue, Weihua, Seidman, Larry J., Sharp, Sally Isabel, Alptekin, Köksal, Klovins, Janis, Amin, Farooq, Bertolino, Alessandro, Shi, Jianxin, Siever, Larry J., Atkinson, Elizabeth G., Buckner, Randy L., Holmans, Peter A., Rivera, Margarita, Sigurdsson, Engilbert, González-Pinto, Ana, Sim, Kang, Skarabis, Nora, Stroup, T Scott, Slominsky, Petr, Guillin, Olivier, Wang, Shi-Heng, So, Hon-Cheong, Quested, Digby, Sobell, Janet L., Braff, David, Zhang, Wen, Bybjerg-Grauholm, Jonas, Söderman, Erik, Rujescu, Dan, Chambert, Kimberley D., Stain, Helen J., Melle, Ingrid, Carr, Vaughan J, Pocklington, Andrew J., Steen, Nils Eiel, Harwood, Janet, Steixner-Kumar, Agnes A., Gopal, Srihari, Stögmann, Elisabeth, Veijola, Juha, Watanabe, Kyoko, Sham, Pak C., Cahn, Wiepke, Bramon, Elvira, Roussos, Panos, Waddington, John, Perkins, Diana O., Pato, Michele T., Walter, Henrik, Kondratiev, Nikolay, Waterreus, Anna, Al Eissa, Mariam, Bobes, Julio, Golimbet, Vera, Black, Donald W., Als, Thomas D., Bray, Nicholas J., Breen, Gerome, Buccola, Nancy G., Sanders, Alan R., Byerley, William F., Cervilla, Jorge A., Michie, Patricia T., Pfuhlmann, Bruno, Chen, Wei J., Hong, Kyung Sue, O'Neill, F Anthony, Terao, Chikashi, Green, Michael F., Cloninger, C. Robert, Crespo-Facorro, Benedicto, Donohoe, Gary, Gülöksüz, Sinan, Freedman, Robert, Albus, Margot, Hayward, Caroline, Pietiläinen, Olli, Herms, Stefan, Hultman, Christina M., Galletly, Cherrie, Gandal, Michael J., Hahn, Eric, Konte, Bettina, Castle, David, Gennarelli, Massimo, Milani, Lili, Hougaard, David M., Hwu, Hai-Gwo, Pulver, Ann E., Jablensky, Assen V., Molina, Esther, Qin, Shengying, McCarroll, Steven A., Moran, Jennifer L., Azevedo, Maria Helena, Gur, Rachel E., Kraft, Julia, Mors, Ole, Catts, Stanley V., Lazzeroni, Laura C., Mortensen, Preben B., Streit, Fabian, Kusumawardhani, Agung, Alexander, Madeline, Godard, Stephanie, Müller-Myhsok, Bertram, Milanova, Vihra, Neil, Amanda L., Cichon, Sven, Giannitelli, Marianna, Cheung, Eric F. C., Kubo, Michiaki, Schwab, Sibylle G., Collier, David A., Williams, Nigel M., Morris, Derek W., Corvin, Aiden, Pimm, Jonathan, Curtis, David, Haroutunian, Vahram, Keller, Matthew C., Vassos, Evangelos, Hyman, Steven E., Iwata, Nakao, Jönsson, Erik G., Kahn, René S., Chan, Raymond C. K., Kennedy, James L., Shi, Yongyong, Adams, Mark, Witt, Stephanie H., Khusnutdinova, Elza, Verhage, Matthijs, Xu, Shuhua, Wu, Yang, Kirov, George, Arolt, Volker, Knowles, James A., Moltó, Maria Dolores, Krebs, Marie-Odile, Hartmann, Annette M., Nestadt, Gerald, Wormley, Brandon K., Bass, Nicholas J., Laurent-Levinson, Claudine, Lee, Jimmy, Muntané, Gerard, Porteous, David, Kuzelova-Ptackova, Hana, Lencz, Todd, Subramaniam, Mythily, Levinson, Douglas F., Li, Qingqin S., Liu, Jianjun, Swerdlow, Neal R., Cairns, Murray J., Malhotra, Anil K., Malhotra, Dheeraj, Iyegbe, Conrad, Mondelli, Valeria, Kim, Minsoo, Arrojo, Manuel, Landi, Stefano, McIntosh, Andrew M., Petryshen, Tracey L., Radant, Allen D., Frei, Oleksandr, Mesholam-Gately, Raquelle I., McQuillin, Andrew, Sugar, Catherine A., Menezes, Paulo Rossi, St Clair, David, Meier, Sandra, Powell, John, Chaumette, Boris, Stefansson, Hreinn, Domenici, Enrico, Bonassi, Stefano, Stefánsson, Kári, Wu, Jing Qin, Tsuang, Ming T., Myin-Germeys, Inez, Pellegrino, Renata, Visscher, Peter M., Yang, Jian, Posthuma, Danielle, Andreassen, Ole A., Koopmans, Frank, Kendler, Kenneth S., Chong, Siow Ann, Gur, Ruben C., Ehrenreich, Hannelore, Owen, Michael J., Rietschel, Marcella, Gratten, Jacob, Wray, Naomi R., Hoffmann, Per, Daly, Mark J., Szatkiewicz, Jin P., Huang, Hailiang, Nenadić, Igor, Torretta, Silvia, Escott-Price, Valentina, Neale, Benjamin M., Begemann, Martin, Thibaut, Florence, Agerbo, Esben, Rampino, Antonio, Sullivan, Patrick F., Schulze, Thomas G., Ripke, Stephan, Walters, James T. R., O'Donovan, Michael C., Kučinskas, Vaidutis, Belliveau, Richard A., Bene, Judit, Oh, Sang-Yun, Ta, Thi Minh Tam, Greenwood, Tiffany A., Howrigan, Daniel P., Rapaport, Mark H., Benyamin, Beben, Mowry, Bryan J., Giegling, Ina, Strengman, Eric, Bergen, Sarah E., Silverman, Jeremy M., Blasi, Giuseppe, Cohen, David, Stone, William S., Xu, Zhida, Lee, Phil H., Consoli, Angèle, Kelly, Brian J.., Cordeiro, Quirino, Esko, Tõnu, and Costas, Javier
Abstract: Schizophrenia has a heritability of 60-80%1, much of which is attributable to common risk alleles. Here, in a two-stage genome-wide association study of up to 76,755 individuals with schizophrenia and 243,649 control individuals, we report common variant associations at 287 distinct genomic loci. Associations were concentrated in genes that are expressed in excitatory and inhibitory neurons of the central nervous system, but not in other tissues or cell types. Using fine-mapping and functional genomic data, we identify 120 genes (106 protein-coding) that are likely to underpin associations at some of these loci, including 16 genes with credible causal non-synonymous or untranslated region variation. We also implicate fundamental processes related to neuronal function, including synaptic organization, differentiation and transmission. Fine-mapped candidates were enriched for genes associated with rare disruptive coding variants in people with schizophrenia, including the glutamate receptor subunit GRIN2A and transcription factor SP4, and were also enriched for genes implicated by such variants in neurodevelopmental disorders. We identify biological processes relevant to schizophrenia pathophysiology; show convergence of common and rare variant associations in schizophrenia and neurodevelopmental disorders; and provide a resource of prioritized genes and variants to advance mechanistic studies.
Published: 2022

14. Enkephalin release from VIP interneurons in the hippocampal CA2/3a region mediates heterosynaptic plasticity and social memory

Author: Brain and Behavior Research Foundation, Howard Hughes Medical Institute, Leroy, Felix, Solis, Christopher A. de, Boyle, Lara M., Bock, Tobias, Lofaro, Olivia M., Buss, Eric W., Asok, Arun, Kandel, Eric R., Siegelbaum, Steven A., Brain and Behavior Research Foundation, Howard Hughes Medical Institute, Leroy, Felix, Solis, Christopher A. de, Boyle, Lara M., Bock, Tobias, Lofaro, Olivia M., Buss, Eric W., Asok, Arun, Kandel, Eric R., and Siegelbaum, Steven A.
Abstract: The hippocampus contains a diverse array of inhibitory interneurons that gate information flow through local cortico-hippocampal circuits to regulate memory storage. Although most studies of interneurons have focused on their role in fast synaptic inhibition mediated by GABA release, different classes of interneurons express unique sets of neuropeptides, many of which have been shown to exert powerful effects on neuronal function and memory when applied pharmacologically. However, relatively little is known about whether and how release of endogenous neuropeptides from inhibitory cells contributes to their behavioral role in regulating memory formation. Here we report that vasoactive intestinal peptide (VIP)-expressing interneurons participate in social memory storage by enhancing information transfer from hippocampal CA3 pyramidal neurons to CA2 pyramidal neurons. Notably, this action depends on release of the neuropeptide enkephalin from VIP neurons, causing long-term depression of feedforward inhibition onto CA2 pyramidal cells. Moreover, VIP neuron activity in the CA2 region is increased selectively during exploration of a novel conspecific. Our findings, thus, enhance our appreciation of how GABAergic neurons can regulate synaptic plasticity and mnemonic behavior by demonstrating that such actions can be mediated by release of a specific neuropeptide, rather than through classic fast inhibitory transmission.
Published: 2021

15. Novel competition test for food rewards reveals stable dominance status in adult male rats

Author: Brain and Behavior Research Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Commission, Fundaçâo Champalimaud, Costa, Diana F., Moita, Marta A., Márquez, Cristina, Brain and Behavior Research Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Commission, Fundaçâo Champalimaud, Costa, Diana F., Moita, Marta A., and Márquez, Cristina
Abstract: Social hierarchy is a potent modulator of behavior, that is typically established through overt agonistic interactions between individuals in the group. Once established, social ranks are maintained through subtler interactions allowing the redirection of energy away from agonistic interactions towards other needs. The available tasks for assessing social rank in rats allow the study of the mechanisms by which social hierarches are formed in early phases but fail to assess the maintenance of established hierarchies between stable pairs of animals, which might rely on distinct neurobiological mechanisms. Here we present and validate a novel trial-based dominancy assay, the modified Food Competition test, where established social hierarchies can be identified in the home cage of non-food deprived pairs of male rats. In this task, we introduce a small conflict in the home cage, where access to a new feeder containing palatable pellets can only be gained by one animal at a time. We found that this subtle conflict triggered asymmetric social interactions and resulted in higher consumption of food by one of the animals in the pair, which reliably predicted hierarchy in other tests. Our findings reveal stable dominance status in pair-housed rats and provide a novel tool for the evaluation of established social hierarchies, the modified Food Competition test, that is robust and easy to implement.
Published: 2021

16. Ligand-independent activity of the ghrelin receptor modulates AMPA receptor trafficking and supports memory formation

Author: Brain and Behavior Research Foundation, Fundação para a Ciência e a Tecnologia (Portugal), Ribeiro, Luis F., Catarino, Tatiana, Carvalho, Mário, Cortes, Luísa, Santos, Sandra D., Opazo, Patricio O., Ribeiro, Lyn R., Oliveiros, Bárbara, Choquet, Daniel, Esteban, José A., Peça, João, Carvalho, Ana Luisa, Brain and Behavior Research Foundation, Fundação para a Ciência e a Tecnologia (Portugal), Ribeiro, Luis F., Catarino, Tatiana, Carvalho, Mário, Cortes, Luísa, Santos, Sandra D., Opazo, Patricio O., Ribeiro, Lyn R., Oliveiros, Bárbara, Choquet, Daniel, Esteban, José A., Peça, João, and Carvalho, Ana Luisa
Abstract: The biological signals of hunger, satiety, and memory are interconnected. The role of the hormone ghrelin in regulating feeding and memory makes ghrelin receptors attractive targets for associated disorders. We investigated the effects of the high ligand-independent activity of the ghrelin receptor GHS-R1a on the physiology of excitatory synapses in the hippocampus. Blocking this activity produced a decrease in the synaptic content of AMPA receptors in hippocampal neurons and a reduction in GluA1 phosphorylation at Ser. Reducing the ligand-independent activity of GHS-R1a increased the surface diffusion of AMPA receptors and impaired AMPA receptor–dependent synaptic delivery induced by chemical long-term potentiation. Accordingly, we found that blocking this GHS-R1a activity impaired spatial and recognition memory in mice. These observations support a role for the ligand-independent activity of GHS-R1a in regulating AMPA receptor trafficking under basal conditions and in the context of synaptic plasticity that underlies learning.
Published: 2021

17. Chronic alcohol consumption alters extracellular space geometry and transmitter diffusion in the brain

Author: Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, Generalitat Valenciana, Czech Science Foundation, Deutsche Forschungsgemeinschaft, MINISTERIO DE ECONOMIA Y EMPRESA, Agencia Estatal de Investigación, National Institutes of Health, EEUU, Brain and Behavior Research Foundation, Slovak Research and Development Agency, Ministerio de Economía y Competitividad, Ministerio de Sanidad, Servicios Sociales e Igualdad, Bundesministerium für Bildung und Forschung, Alemania, MINISTERIO DE CIENCIA E INNOVACIÓN - Secretaría de Estado de Investigación Dirección General de Cooperación Internacional y Relaciones Institucionales, De Santis, Silvia, Cosa-Liñán, Alejandro, Garcia-Hernandez, Raquel, Dmytrenko, Lesia, Vargova, Lydia, Vorisek, Ivan, Stopponi, Serena, Bach, Patrick, Kirsch, Peter, Kiefer, Falk, Ciccocioppo, Roberto, Sykova, Eva, Moratal, David, Sommer, Wolfgang H., Canals, Santiago, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, Generalitat Valenciana, Czech Science Foundation, Deutsche Forschungsgemeinschaft, MINISTERIO DE ECONOMIA Y EMPRESA, Agencia Estatal de Investigación, National Institutes of Health, EEUU, Brain and Behavior Research Foundation, Slovak Research and Development Agency, Ministerio de Economía y Competitividad, Ministerio de Sanidad, Servicios Sociales e Igualdad, Bundesministerium für Bildung und Forschung, Alemania, MINISTERIO DE CIENCIA E INNOVACIÓN - Secretaría de Estado de Investigación Dirección General de Cooperación Internacional y Relaciones Institucionales, De Santis, Silvia, Cosa-Liñán, Alejandro, Garcia-Hernandez, Raquel, Dmytrenko, Lesia, Vargova, Lydia, Vorisek, Ivan, Stopponi, Serena, Bach, Patrick, Kirsch, Peter, Kiefer, Falk, Ciccocioppo, Roberto, Sykova, Eva, Moratal, David, Sommer, Wolfgang H., and Canals, Santiago
Abstract: [EN] Already moderate alcohol consumption has detrimental long-term effects on brain function. However, how alcohol produces its potent addictive effects despite being a weak reinforcer is a poorly understood conundrum that likely hampers the development of successful interventions to limit heavy drinking. In this translational study, we demonstrate widespread increased mean diffusivity in the brain gray matter of chronically drinking humans and rats. These alterations appear soon after drinking initiation in rats, persist into early abstinence in both species, and are associated with a robust decrease in extracellular space tortuosity explained by a microglial reaction. Mathematical modeling of the diffusivity changes unveils an increased spatial reach of extrasynaptically released transmitters like dopamine that may contribute to alcohol's progressively enhanced addictive potency
Published: 2020

18. Hippocampal CA2 sharp-wave ripples reactivate and promote social memory

Author: NVIDIA Corporation, EMBO, National Institutes of Health (US), Brain and Behavior Research Foundation, National Institute of Mental Health (US), Oliva, Azahara, Fernández-Ruiz, Antonio, Leroy, Felix, Siegelbaum, Steven A., NVIDIA Corporation, EMBO, National Institutes of Health (US), Brain and Behavior Research Foundation, National Institute of Mental Health (US), Oliva, Azahara, Fernández-Ruiz, Antonio, Leroy, Felix, and Siegelbaum, Steven A.
Abstract: The consolidation of spatial memory depends on the reactivation (‘replay’) of hippocampal place cells that were active during recent behaviour. Such reactivation is observed during sharp-wave ripples (SWRs)—synchronous oscillatory electrical events that occur during non-rapid-eye-movement (non-REM) sleep and whose disruption impairs spatial memory. Although the hippocampus also encodes a wide range of non-spatial forms of declarative memory, it is not yet known whether SWRs are necessary for such memories. Moreover, although SWRs can arise from either the CA3 or the CA2 region of the hippocampus, the relative importance of SWRs from these regions for memory consolidation is unknown. Here we examine the role of SWRs during the consolidation of social memory—the ability of an animal to recognize and remember a member of the same species—focusing on CA2 because of its essential role in social memory. We find that ensembles of CA2 pyramidal neurons that are active during social exploration of previously unknown conspecifics are reactivated during SWRs. Notably, disruption or enhancement of CA2 SWRs suppresses or prolongs social memory, respectively. Thus, SWR-mediated reactivation of hippocampal firing related to recent experience appears to be a general mechanism for binding spatial, temporal and sensory information into high-order memory representations, including social memory.
Published: 2020

19. Temporal dynamics and neuronal specificity of Grin3a expression in the mouse forebrain

Author: Ministerio de Economía y Competitividad (España), Ministerio de Educación y Ciencia (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, National Institute of Child Health and Human Development (US), Murillo, Alvaro, Navarro, Ana I., Puelles, Eduardo, Zhang, Yajun, Petros, Timothy J., Pérez-Otaño, Isabel, Ministerio de Economía y Competitividad (España), Ministerio de Educación y Ciencia (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, National Institute of Child Health and Human Development (US), Murillo, Alvaro, Navarro, Ana I., Puelles, Eduardo, Zhang, Yajun, Petros, Timothy J., and Pérez-Otaño, Isabel
Abstract: GluN3A subunits endow N-Methyl-D-Aspartate receptors (NMDARs) with unique biophysical, trafficking, and signaling properties. GluN3A-NMDARs are typically expressed during postnatal development, when they are thought to gate the refinement of neural circuits by inhibiting synapse maturation, and stabilization. Recent work suggests that GluN3A also operates in adult brains to control a variety of behaviors, yet a full spatiotemporal characterization of GluN3A expression is lacking. Here, we conducted a systematic analysis of Grin3a (gene encoding mouse GluN3A) mRNA expression in the mouse brain by combining high-sensitivity colorimetric and fluorescence in situ hybridization with labeling for neuronal subtypes. We find that, while Grin3a mRNA expression peaks postnatally, significant levels are retained into adulthood in specific brain regions such as the amygdala, medial habenula, association cortices, and high-order thalamic nuclei. The time-course of emergence and down-regulation of Grin3a expression varies across brain region, cortical layer of residence, and sensory modality, in a pattern that correlates with previously reported hierarchical gradients of brain maturation and functional specialization. Grin3a is expressed in both excitatory and inhibitory neurons, with strong mRNA levels being a distinguishing feature of somatostatin interneurons. Our study provides a comprehensive map of Grin3a distribution across the murine lifespan and paves the way for dissecting the diverse functions of GluN3A in health and disease.
Published: 2020

20. Programming effects of peripubertal stress on spatial learning

Author: Brain and Behavior Research Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), Swiss National Science Foundation, National Centres of Competence in Research (Switzerland), Tzanoulinou, S., Gantelet, E., Sandi, C., Márquez, Cristina, Brain and Behavior Research Foundation, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), Swiss National Science Foundation, National Centres of Competence in Research (Switzerland), Tzanoulinou, S., Gantelet, E., Sandi, C., and Márquez, Cristina
Abstract: Exposure to adversity during early life can have profound influences on brain function and behavior later in life. The peripubertal period is emerging as an important time-window of susceptibility to stress, with substantial evidence documenting long-term consequences in the emotional and social domains. However, little is known about how stress during this period impacts subsequent cognitive functioning. Here, we assessed potential long-term effects of peripubertal stress on spatial learning and memory using the water maze task. In addition, we interrogated whether individual differences in stress-induced behavioral and endocrine changes are related to the degree of adaptation of the corticosterone response to repeated stressor exposure during the peripubertal period. We found that, when tested at adulthood, peripubertally stressed animals displayed a slower learning rate. Strikingly, the level of spatial orientation in the water maze completed on the last training day was predicted by the degree of adaptation of the recovery -and not the peak-of the corticosterone response to stressor exposure (i.e., plasma levels at 60 min post-stressor) across the peripubertal stress period. In addition, peripubertal stress led to changes in emotional and glucocorticoid reactivity to novelty exposure, as well as in the expression levels of the plasticity molecule PSA-NCAM in the hippocampus. Importantly, by assessing the same endpoints in another peripubertally stressed cohort tested during adolescence, we show that the observed effects at adulthood are the result of a delayed programming manifested at adulthood and not protracted effects of stress. Altogether, our results support the view that the degree of stress-induced adaptation of the hypothalamus-pituitary-adrenal axis responsiveness at the important transitional period of puberty relates to the long-term programming of cognition, behavior and endocrine reactivity.
Published: 2020

21. Brn3/POU-IV-type POU homeobox genes—Paradigmatic regulators of neuronal identity across phylogeny

Author: European Molecular Biology Laboratory, Howard Hughes Medical Institute, Brain and Behavior Research Foundation, Leyva-Díaz, Eduardo, Masoudi, Neda, Serrano-Saiz, Esther, Glenwinkel, Lori, Hobert, Oliver, European Molecular Biology Laboratory, Howard Hughes Medical Institute, Brain and Behavior Research Foundation, Leyva-Díaz, Eduardo, Masoudi, Neda, Serrano-Saiz, Esther, Glenwinkel, Lori, and Hobert, Oliver
Abstract: One approach to understand the construction of complex systems is to investi-gate whether there are simple design principles that are commonly used inbuilding such a system. In the context of nervous system development, onemay ask whether the generation of its highly diverse sets of constituents, thatis, distinct neuronal cell types, relies on genetic mechanisms that share specificcommon features. Specifically, are there common patterns in the function ofregulatory genes across different neuron types and are those regulatory mecha-nisms not only used in different parts of one nervous system, but are they con-served across animal phylogeny? We address these questions here by focusingon one specific, highly conserved and well-studied regulatory factor, the POUhomeodomain transcription factor UNC-86. Work over the last 30 years hasrevealed a common and paradigmatic theme ofunc-86function throughoutmost of the neuron types in whichCaenorhabditis elegans unc-86is expressed.Apart from its role in preventing lineage reiterations during development,UNC-86 operates in combination with distinct partner proteins to initiate andmaintain terminal differentiation programs, by coregulating a vast array offunctionally distinct identity determinants of specific neuron types. Mouseorthologs ofunc-86, theBrn3genes, have been shown to fulfill a similar func-tion in initiating and maintaining neuronal identity in specific parts of themouse brain and similar functions appear to be carried out by the soleDro-sophilaortholog, Acj6. The terminal selector function of UNC-86 in many dif-ferent neuron types provides a paradigm for neuronal identity regulationacross phylogeny
Published: 2020

22. Radiomicrobiomics: Advancing Along the Gut-brain Axis Through Big Data Analysis

Author: Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, Generalitat Valenciana, Ministerio de Economía y Empresa, European Regional Development Fund, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad, De Santis, Silvia, Moratal, David, Canals, Santiago, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, European Commission, Generalitat Valenciana, Ministerio de Economía y Empresa, European Regional Development Fund, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad, De Santis, Silvia, Moratal, David, and Canals, Santiago
Abstract: [EN] The gut-brain axis communicates the brain with the gut microbiota, a bidirectional conduit that has received increasing attention in recent years thanks to its emerging role in brain development and function. Alterations in microbiota composition have been associated to neurological and psychiatric disorders, and several studies suggest that the immune system plays a fundamental role in the gut-brain interaction. Recent advances in brain imaging and in microbiome sequencing have generated a large amount of information, yet the data from both these sources need to be combined efficiently to extract biological meaning, and any diagnostic and/or prognostic benefit from these tools. In addition, the causal nature of the gut-brain interaction remains to be fully established, and preclinical findings translated to humans. In this "Perspective" article, we discuss recent efforts to combine data on the gut microbiota with the features that can be obtained from the conversion of brain images into mineable data. The subsequent analysis of these data for diagnostic and prognostic purposes is an approach we call radiomicrobiomics and it holds tremendous potential to enhance our understanding of this fascinating connection.
Published: 2019

23. Cbp-dependent histone acetylation mediates axon regeneration induced by environmental enrichment after spinal cord injury in rodents

Author: Rosetrees Trust, Leverhulme Trust, Henry Smith Charity, Imperial College London, Wings for Life, National Institutes of Health (US), Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, Swiss National Science Foundation, Hutson, Thomas H., Kathe, Claudia, Palmisano, Ilaria, Bartholdi, Kay, Hervera, Arnau, Virgiliis, Francesco de, McLachlan, Eilidh, Zhou, Luming, Komg, Guiping, Barraud, Quentin, Danzi, Matt C., Medrano-Fernandez, Alejandro, López-Atalaya, José P., Boutillier, Anne L., Sinha, Sarmistha H., Singh, Akash K., Chaturbedy, Piyush, Moon, Lawrence D. F., Kundu, Tapas K., Bixby, John L., Lemmon, Vance P., Barco, Ángel, Courtine, Grégoire, Giovanni, Simone di, Rosetrees Trust, Leverhulme Trust, Henry Smith Charity, Imperial College London, Wings for Life, National Institutes of Health (US), Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, Swiss National Science Foundation, Hutson, Thomas H., Kathe, Claudia, Palmisano, Ilaria, Bartholdi, Kay, Hervera, Arnau, Virgiliis, Francesco de, McLachlan, Eilidh, Zhou, Luming, Komg, Guiping, Barraud, Quentin, Danzi, Matt C., Medrano-Fernandez, Alejandro, López-Atalaya, José P., Boutillier, Anne L., Sinha, Sarmistha H., Singh, Akash K., Chaturbedy, Piyush, Moon, Lawrence D. F., Kundu, Tapas K., Bixby, John L., Lemmon, Vance P., Barco, Ángel, Courtine, Grégoire, and Giovanni, Simone di
Abstract: After a spinal cord injury, axons fail to regenerate in the adult mammalian central nervous system, leading to permanent deficits in sensory and motor functions. Increasing neuronal activity after an injury using electrical stimulation or rehabilitation can enhance neuronal plasticity and result in some degree of recovery; however, the underlying mechanisms remain poorly understood. We found that placing mice in an enriched environment before an injury enhanced the activity of proprioceptive dorsal root ganglion neurons, leading to a lasting increase in their regenerative potential. This effect was dependent on Creb-binding protein (Cbp)-mediated histone acetylation, which increased the expression of genes associated with the regenerative program. Intraperitoneal delivery of a small-molecule activator of Cbp at clinically relevant times promoted regeneration and sprouting of sensory and motor axons, as well as recovery of sensory and motor functions in both the mouse and rat model of spinal cord injury. Our findings showed that the increased regenerative capacity induced by enhancing neuronal activity is mediated by epigenetic reprogramming in rodent models of spinal cord injury. Understanding the mechanisms underlying activity-dependent neuronal plasticity led to the identification of potential molecular targets for improving recovery after spinal cord injury.
Published: 2019

24. Role of peripheral BDNF for auditory perceptional learning?

Author: German Research Foundation, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Knipper, Marlies, Eckert, Philipp, Manthey, Marie, Matt, Lucas, Marchetta, Philine, Singer, Wibke, Ruth, Peter, Schimmang, Thomas, Pilz, Peter, Rüttiger, Lukas, German Research Foundation, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Knipper, Marlies, Eckert, Philipp, Manthey, Marie, Matt, Lucas, Marchetta, Philine, Singer, Wibke, Ruth, Peter, Schimmang, Thomas, Pilz, Peter, and Rüttiger, Lukas
Abstract: [Background]: While novel studies indicate that perceptional learning is not linked with permanent changes in cortical circuitry but rather with changes that are gated in a task- or context-dependent fashion, the molecular substrate of perceptional learning is still elusive. It is currently speculated that perhaps changes in synaptic weights restricted to a limited set of task-specific synapses play a crucial role (Irvine DRF Hearing Res. 2018, Zhang Y-X et al. Amitay S 2016, Plos One). BDNF is gradually upregulated in the cochlea and ascending auditory pathway onwards from prior hearing onset (postnatal day P4) (Singer et al., Knipper, Neuropharmacol 2014). Previously, we showed that peripheral BDNF in the cochlea or lower brainstem regions, but not in the central higher cortical brain regions is fundamental for improved and optimized auditory fidelity with hearing onset [Zuccotti A et al. Knipper, 2012, J Neuroscience, Chumak T et al., 2016, Mol Neurobiol]. This improved auditory fidelity included greater sensitivity of auditory fibers, lower hearing thresholds, and enlarged dynamic range and inhibitory strength in the inferior colliculus related to lowering of spontaneous firing rate. We here asked to what extend these BDNF driven changes in auditory fidelity may influence memory-related shaping of auditory skills and auditory perceptional learning., [Methods]: Using conditional BDNF Pax2 KO mice, lacking BDNF in the cochlea, DCN and IC, we compared auditory fine structure analysis, auditory steady state response (ASSR), LTP and LTP-dependent task performance in BDNF WT and mutant mice, and investigated changes in markers for excitatory and inhibitory neuronal activity using high-resolution confocal microscopy and quantitative westernblot approaches., [Results]: Fundamental differences were found between BDNF Pax2 WT and KO mice at the molecular, functional, and behavioral level. The findings are discussed in the context of a role of BDNF for auditory perceptional learning in lower auditory brainstem regions.
Published: 2019

25. Evidence for progressive microstructural damage in early multiple sclerosis by multi-shell diffusion magnetic resonance imaging

Author: National Institutes of Health (US), Brain and Behavior Research Foundation, European Research Council, Stockholm County Council, Karolinska Institute, Swedish Society for Medical Research, National Multiple Sclerosis Society (US), Toschi, Nicola, De Santis, Silvia, Granberg, Tobias, Ouellette, Russell, Treaba, Constantina A., Herranz, Elena, Mainero, Caterina, National Institutes of Health (US), Brain and Behavior Research Foundation, European Research Council, Stockholm County Council, Karolinska Institute, Swedish Society for Medical Research, National Multiple Sclerosis Society (US), Toschi, Nicola, De Santis, Silvia, Granberg, Tobias, Ouellette, Russell, Treaba, Constantina A., Herranz, Elena, and Mainero, Caterina
Abstract: In multiple sclerosis (MS), it would be of clinical value to be able to track the progression of axonal pathology, especially before the manifestation of clinical disability. However, non-invasive evaluation of short-term longitudinal progression of white matter integrity is challenging. This study aims at assessing longitudinal changes in the restricted (i.e. intracellular) diffusion signal fraction (FR) in early-stage MS by using ultra-high gradient strength multi-shell diffusion magnetic resonance imaging. In 11 early MS subjects (disease duration ≤ 5 years), FR was obtained at two timepoints (one year apart) through the Composite Hindered and Restricted Model of Diffusion, along with conventional Diffusion Tensor Imaging metrics. At follow-up, no statistically significant change was detected in clinical variables, while all imaging metrics showed statistically significant longitudinal changes (p < 0.01, corrected for multiple comparisons) in widespread regions in normal-appearing white matter (NAWM). The most extensive longitudinal changes were observed in FR, including areas known to include a large fraction of crossing fibers. Furthermore, FR was also the only metric showing significant longitudinal changes in lesions that were present at both time points (p = 0.007), with no significant differences found for conventional diffusion metrics. Finally, FR was the only diffusion metric (as compared to Diffusion Tensor Imaging) that revealed pre-lesional changes already present at baseline. Taken together, our data provide evidence for progressive microstructural damage in the NAWM of early MS cases detectable already at 1-year follow-up. Our study highlights the value of multi-shell diffusion imaging for sensitive tracking of disease evolution in MS before any clinical changes are observed.
Published: 2019

26. Evidence of early microstructural white matter abnormalities in multiple sclerosis from multi-shell diffusion MRI

Author: National Institutes of Health (US), Brain and Behavior Research Foundation, European Research Council, Stockholm County Council, Karolinska Institute, Swedish Society for Medical Research, National Multiple Sclerosis Society (US), De Santis, Silvia, Granberg, Tobias, Ouellette, Russell, Treaba, Constantina A., Herranz, Elena, Fan, Qiuyun, Mainero, Caterina, Toschi, Nicola, National Institutes of Health (US), Brain and Behavior Research Foundation, European Research Council, Stockholm County Council, Karolinska Institute, Swedish Society for Medical Research, National Multiple Sclerosis Society (US), De Santis, Silvia, Granberg, Tobias, Ouellette, Russell, Treaba, Constantina A., Herranz, Elena, Fan, Qiuyun, Mainero, Caterina, and Toschi, Nicola
Abstract: Irreversible white matter (WM) damage, including severe demyelination and axonal loss, is a main determinant of long-term disability in multiple sclerosis (MS). Non-invasive detection of changes in microstructural WM integrity in the disease is challenging since commonly used imaging metrics lack the necessary sensitivity, especially in the early phase of the disease. This study aims at assessing microstructural WM abnormalities in early-stage MS by using ultra-high gradient strength multi-shell diffusion MRI and the restricted signal fraction (FR) from the Composite Hindered and Restricted Model of Diffusion (CHARMED), a metric sensitive to the volume fraction of axons. In 22 early MS subjects (disease duration ≤5 years) and 15 age-matched healthy controls, restricted fraction estimates were obtained through the CHARMED model along with conventional Diffusion Tensor Imaging (DTI) metrics. All imaging parameters were compared cross-sectionally between the MS subjects and controls both in WM lesions and normal-appearing white matter (NAWM). We found a significant reduction in FR focally in WM lesions and widespread in the NAWM in MS patients relative to controls (corrected p < .05). Signal fraction changes in NAWM were not driven by perilesional tissue, nor were they influenced by proximity to the ventricles, challenging the hypothesis of an outside-in pathological process driven by CSF-mediated immune cytotoxic factors. No significant differences were found in conventional DTI parameters. In a cross-validated classification task, FR showed the largest effect size and outperformed all other diffusion imaging metrics in discerning lesions from contralateral NAWM. Taken together, our data provide evidence for the presence of widespread microstructural changes in the NAWM in early MS stages that are, at least in part, unrelated to focal demyelinating lesions. Interestingly, these pathological changes were not yet detectable by conventional diffusion imaging at this earl
Published: 2019

27. Characterizing microstructural tissue properties in multiple sclerosis with diffusion MRI at 7 T and 3 T: The impact of the experimental design

Author: European Research Council, Brain and Behavior Research Foundation, Federal Ministry of Education and Research (Germany), Netherlands Organization for Scientific Research, De Santis, Silvia, Bastiani, Matteo, Droby, Amgad, Kolber, Pierre, Zipp, Frauke, Pracht, Eberhard, Stoecker, Tony, Groppa, Sergiu, Roebroeck, Alard, European Research Council, Brain and Behavior Research Foundation, Federal Ministry of Education and Research (Germany), Netherlands Organization for Scientific Research, De Santis, Silvia, Bastiani, Matteo, Droby, Amgad, Kolber, Pierre, Zipp, Frauke, Pracht, Eberhard, Stoecker, Tony, Groppa, Sergiu, and Roebroeck, Alard
Abstract: The recent introduction of advanced magnetic resonance (MR) imaging techniques to characterize focal and global degeneration in multiple sclerosis (MS), like the Composite Hindered and Restricted Model of Diffusion, or CHARMED, diffusional kurtosis imaging (DKI) and Neurite Orientation Dispersion and Density Imaging (NODDI) made available new tools to image axonal pathology non-invasively in vivo. These methods already showed greater sensitivity and specificity compared to conventional diffusion tensor-based metrics (e.g., fractional anisotropy), overcoming some of its limitations. While previous studies uncovered global and focal axonal degeneration in MS patients compared to healthy controls, here our aim is to investigate and compare different diffusion MRI acquisition protocols in their ability to highlight microstructural differences between MS and control tissue over several much used models. For comparison, we contrasted the ability of fractional anisotropy measurements to uncover differences between lesion, normal-appearing white matter (WM), gray matter and healthy tissue under the same imaging protocols. We show that: (1) focal and diffuse differences in several microstructural parameters are observed under clinical settings; (2) advanced models (CHARMED, DKI and NODDI) have increased specificity and sensitivity to neurodegeneration when compared to fractional anisotropy measurements; and (3) both high (3 T) and ultra-high fields (7 T) are viable options for imaging tissue change in MS lesions and normal appearing WM, while higher b-values are less beneficial under the tested short-time (10 min acquisition) conditions.
Published: 2019

28. Opioid Activity in the Locus Coeruleus Is Modulated by Chronic Neuropathic Pain

Author: Ministerio de Economía y Competitividad (España), European Commission, Centro de Investigación Biomédica en Red Salud Mental (España), Junta de Andalucía, Eusko Jaurlaritza, Fundación Española del Dolor, Brain and Behavior Research Foundation, Llorca-Torralba, Meritxell, Pilar-Cuéllar, Fuencisla, Bravo, Lidia, Bruzos-Cidón, Cristina, Torrecilla, María, Mico, Juan Antonio, Ugedo, Luisa, Garro-Martínez, Emilio, Berrocoso, Esther, Ministerio de Economía y Competitividad (España), European Commission, Centro de Investigación Biomédica en Red Salud Mental (España), Junta de Andalucía, Eusko Jaurlaritza, Fundación Española del Dolor, Brain and Behavior Research Foundation, Llorca-Torralba, Meritxell, Pilar-Cuéllar, Fuencisla, Bravo, Lidia, Bruzos-Cidón, Cristina, Torrecilla, María, Mico, Juan Antonio, Ugedo, Luisa, Garro-Martínez, Emilio, and Berrocoso, Esther
Abstract: Pain affects both sensory and emotional aversive responses, often provoking depression and anxiety-related conditions when it becomes chronic. As the opioid receptors in the locus coeruleus (LC) have been implicated in pain, stress responses, and opioid drug effects, we explored the modifications to LC opioid neurotransmission in a chronic constriction injury (CCI) model of short- and long-term neuropathic pain (7 and 30 days after nerve injury). No significant changes were found after short-term CCI, yet after 30 days, CCI provoked an up-regulation of cAMP (cyclic 5′-adenosine monophosphate), pCREB (phosphorylated cAMP response element binding protein), protein kinase A, tyrosine hydroxylase, and electrical activity in the LC, as well as enhanced c-Fos expression. Acute mu opioid receptor desensitization was more intense in these animals, measured as the decline of the peak current caused by [Met5]-enkephalin and the reduction of forskolin-stimulated cAMP produced in response to DAMGO. Sustained morphine treatment did not markedly modify certain LC parameters in CCI-30d animals, such as [Met5]-enkephalin-induced potassium outward currents or burst activity and c-Fos rebound after naloxone precipitation, which may limit the development of some typical opioid drug-related adaptations. However, other phenomena were impaired by long-term CCI, including the reduction in forskolin-stimulated cAMP accumulation by DAMGO after naloxone precipitation in morphine dependent animals. Overall, this study suggests that long-term CCI leads to changes at the LC level that may contribute to the anxiodepressive phenotype that develops in these animals. Furthermore, opioid drugs produce complex adaptations in the LC in this model of chronic neuropathic pain.
Published: 2019

29. Non-invasive MRI windows to neuroinflammation

Author: Agencia Estatal de Investigación (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Research Council, Brain and Behavior Research Foundation, De Santis, Silvia, Canals, Santiago, Agencia Estatal de Investigación (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Research Council, Brain and Behavior Research Foundation, De Santis, Silvia, and Canals, Santiago
Published: 2019

30. Visualizing BDNF transcript usage during sound-induced memory linked plasticity

Author: German Research Foundation, Ministerio de Economía y Competitividad (España), Brain and Behavior Research Foundation, University of Tübingen, Matt, Lucas, Eckert, Philipp, Panford-Walsh, Rama, Geisler, Hyun-Soon, Bausch, Anne E., Manthey, Marie, Müller, Nicolas I. C., Harasztosi, Csaba, Rohbock, Karin, Ruth, Peter, Friauf, Eckhard, Ott, Thomas, Zimmermann, Ulrike, Rüttiger, Lukas, Schimmang, Thomas, Knipper, Marlies, Singer, Wibke, German Research Foundation, Ministerio de Economía y Competitividad (España), Brain and Behavior Research Foundation, University of Tübingen, Matt, Lucas, Eckert, Philipp, Panford-Walsh, Rama, Geisler, Hyun-Soon, Bausch, Anne E., Manthey, Marie, Müller, Nicolas I. C., Harasztosi, Csaba, Rohbock, Karin, Ruth, Peter, Friauf, Eckhard, Ott, Thomas, Zimmermann, Ulrike, Rüttiger, Lukas, Schimmang, Thomas, Knipper, Marlies, and Singer, Wibke
Abstract: Activity-dependent BDNF (brain-derived neurotrophic factor) expression is hypothesized to be a cue for the context-specificity of memory formation. So far, activity-dependent BDNF cannot be explicitly monitored independently of basal BDNF levels. We used the BLEV (BDNF-live-exon-visualization) reporter mouse to specifically detect activity-dependent usage of Bdnf exon-IV and -VI promoters through bi-cistronic co-expression of CFP and YFP, respectively. Enriching acoustic stimuli led to improved peripheral and central auditory brainstem responses, increased Schaffer collateral LTP, and enhanced performance in the Morris water maze. Within the brainstem, neuronal activity was increased and accompanied by a trend for higher expression levels of Bdnf exon-IV-CFP and exon-VI-YFP transcripts. In the hippocampus BDNF transcripts were clearly increased parallel to changes in parvalbumin expression and were localized to specific neurons and capillaries. Severe acoustic trauma, in contrast, elevated neither Bdnf transcript levels, nor auditory responses, parvalbumin or LTP. Together, this suggests that critical sensory input is essential for recruitment of activity-dependent auditory-specific BDNF expression that may shape network adaptation.
Published: 2018

31. BDNF-Live-Exon-Visualization (BLEV) allows differential detection of BDNF transcripts in vitro and in vivo

Author: German Research Foundation, Brain and Behavior Research Foundation, European Commission, Ministerio de Economía y Competitividad (España), Fundação para a Ciência e a Tecnologia (Portugal), University of Tübingen, Singer, Wibke, Manthey, Marie, Panford-Walsh, Rama, Matt, Lucas, Geisler, Hyun-Soon, Passeri, Eleonora, Baj, Gabriele, Tongiorgi, Enrico, Leal, Graciano, Duarte, Carlos B., Salazar, Ivan L., Eckert, Philipp, Rohbock, Karin, Hu, Jing, Strotmann, Jörg, Ruth, Peter, Zimmermann, Ulrike, Rüttiger, Lukas, Ott, Thomas, Knipper, Marlies, German Research Foundation, Brain and Behavior Research Foundation, European Commission, Ministerio de Economía y Competitividad (España), Fundação para a Ciência e a Tecnologia (Portugal), University of Tübingen, Singer, Wibke, Manthey, Marie, Panford-Walsh, Rama, Matt, Lucas, Geisler, Hyun-Soon, Passeri, Eleonora, Baj, Gabriele, Tongiorgi, Enrico, Leal, Graciano, Duarte, Carlos B., Salazar, Ivan L., Eckert, Philipp, Rohbock, Karin, Hu, Jing, Strotmann, Jörg, Ruth, Peter, Zimmermann, Ulrike, Rüttiger, Lukas, Ott, Thomas, and Knipper, Marlies
Abstract: Bdnf exon-IV and exon-VI transcripts are driven by neuronal activity and are involved in pathologies related to sleep, fear or memory disorders. However, how their differential transcription translates activity changes into long-lasting network changes is elusive. Aiming to trace specifically the network controlled by exon-IV and -VI derived BDNF during activity-dependent plasticity changes, we generated a transgenic reporter mouse for BDNF-live-exon-visualization (BLEV), in which expression of Bdnf exon-IV and -VI can be visualized by co-expression of CFP and YFP. CFP and YFP expression was differentially activated and targeted in cell lines, primary cultures and BLEV reporter mice without interfering with BDNF protein synthesis. CFP and YFP expression, moreover, overlapped with BDNF protein expression in defined hippocampal neuronal, glial and vascular locations in vivo. So far, activity-dependent BDNF cannot be explicitly monitored independent of basal BDNF levels. The BLEV reporter mouse therefore provides a new model, which can be used to test whether stimulus-induced activity-dependent changes in BDNF expression are instrumental for long-lasting plasticity modifications.
Published: 2018

32. Effect of Deep Brain Stimulation of the ventromedial prefrontal cortex on the noradrenergic system in rats

Author: Ministerio de Economía y Competitividad (España), European Commission, Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Salud Mental (España), Junta de Andalucía, Brain and Behavior Research Foundation, Torres-Sanchez, Sonia, Pérez-Caballero, Laura, Micó Navarro, Juan A., Celada, Pau, Berrocoso, Esther, Ministerio de Economía y Competitividad (España), European Commission, Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Salud Mental (España), Junta de Andalucía, Brain and Behavior Research Foundation, Torres-Sanchez, Sonia, Pérez-Caballero, Laura, Micó Navarro, Juan A., Celada, Pau, and Berrocoso, Esther
Abstract: [Background] Deep Brain Stimulation (DBS) of the subgenual cingulate cortex (SCC) is a promising therapeutic alternative to treat resistant major depressive disorder. In preclinical studies, DBS of the ventromedial prefrontal cortex (vmPFC, the rodent SCC correlate) provokes an antidepressant-like effect, along with changes in noradrenaline levels at the site of stimulation. Hence, DBS appears to activate the noradrenergic-locus coeruleus (LC) system., [Objective/Hypothesis] The aim of this study was to evaluate the effect of vmPFC DBS on the electrical activity of noradrenergic LC neurons, cortical oscillations and coherence between both brain areas in male rats., [Methods] The antidepressant-like effect of vmPFC DBS was evaluated through the forced swimming test. Tonic and evoked activity of LC neurons, LC activity of alpha2-adrenoceptors, local field potentials from LC and electrocorticogram signals were studied after DBS by electrophysiological recordings in anaesthetized rats. The effect of DBS on tyrosine hydroxylase (TH), noradrenaline transporters (NAT), phosphorylation of the extracellular signal–regulated kinase (ERK) and corticotropin releasing factor (CRF) expression in the LC were measured by western blot assays., [Results] DBS induced an antidepressant-like effect increasing climbing behaviour in the FST that was accompanied by a robust increase of TH expression in the rat LC. The tonic and evoked activity of LC neurons was enhanced by DBS, which impaired alpha2-adrenoceptors activity. DBS also promoted an increase in slow LC oscillations, as well as a shift in LC-cortical coherence., [Conclusion] DBS of the vmPFC appears to affect the LC, producing changes that may underlie its antidepressant-like effects.
Published: 2018

33. BRN3-type POU Homeobox Genes Maintain the Identity of Mature Postmitotic Neurons in Nematodes and Mice

Author: Brain and Behavior Research Foundation, EMBO, Howard Hughes Medical Institute, National Institutes of Health (US), Serrano-Saiz, Esther, Leyva-Díaz, Eduardo, Cruz, Estanislao de la, Hobert, Oliver, Brain and Behavior Research Foundation, EMBO, Howard Hughes Medical Institute, National Institutes of Health (US), Serrano-Saiz, Esther, Leyva-Díaz, Eduardo, Cruz, Estanislao de la, and Hobert, Oliver
Abstract: Many distinct regulatory factors have been shown to be required for the proper initiation of neuron-type-specific differentiation programs, but much less is known about the regulatory programs that maintain the differentiated state in the adult [1, 2, 3]. One possibility is that regulatory factors that initiate a terminal differentiation program during development are continuously required to maintain the differentiated state. Here, we test this hypothesis by investigating the function of two orthologous POU homeobox genes in nematodes and mice. The C. elegans POU homeobox gene unc-86 is a terminal selector that is required during development to initiate the terminal differentiation program of several distinct neuron classes [4, 5, 6, 7, 8, 9, 10, 11, 12, 13]. Through post-developmental removal of unc-86 activity, we show here that unc-86 is also continuously required throughout the life of many neuron classes to maintain neuron-class-specific identity features. Similarly, the mouse unc-86 ortholog Brn3a/POU4F1 has been shown to control the initiation of the terminal differentiation program of distinct neuron types across the mouse brain, such as the medial habenular neurons [14, 15, 16, 17, 18, 19, 20]. By conditionally removing Brn3a in the adult mouse central nervous system, we show that, like its invertebrate ortholog unc-86, Brn3a is also required for the maintenance of terminal identity features of medial habenular neurons. In addition, Brn3a is required for the survival of these neurons, indicating that identity maintenance and survival are genetically linked. We conclude that the continuous expression of transcription factors is essential for the active maintenance of the differentiated state of a neuron across phylogeny.
Published: 2018

34. Long-term antipsychotic and benzodiazepine use and brain volume changes in schizophrenia: The Northern Finland Birth Cohort 1966 study

Author: Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada, Banco Santander, University of Oulu, Academy of Finland, Orion Research Foundation, Sigrid Jusélius Foundation, Universidad Carlos III de Madrid, Jalmari and Rauha Ahokas Foundation, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad, Ministerio de Educación, Cultura y Deporte, Huhtaniska, Sanna, Jaaskelainen, Erika, Heikka, Tuomas, Moilanen, Jani S., Lehtiniemi, Heli, Tohka, Jussi, Manjón Herrera, José Vicente, Coupe, Pierrick, Bjornholm, Lassi, Koponen, Hannu, Veijola, Juha, Isohanni, Matti, Kiviniemi, Vesa, Murray, Graham K., Miettunen, Jouko, Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada, Banco Santander, University of Oulu, Academy of Finland, Orion Research Foundation, Sigrid Jusélius Foundation, Universidad Carlos III de Madrid, Jalmari and Rauha Ahokas Foundation, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad, Ministerio de Educación, Cultura y Deporte, Huhtaniska, Sanna, Jaaskelainen, Erika, Heikka, Tuomas, Moilanen, Jani S., Lehtiniemi, Heli, Tohka, Jussi, Manjón Herrera, José Vicente, Coupe, Pierrick, Bjornholm, Lassi, Koponen, Hannu, Veijola, Juha, Isohanni, Matti, Kiviniemi, Vesa, Murray, Graham K., and Miettunen, Jouko
Abstract: [EN] High doses of antipsychotics have been associated with loss in cortical and total gray matter in schizophrenia. However, previous imaging studies have not taken benzodiazepine use into account, in spite of evidence suggesting adverse effects such as cognitive impairment and increased mortality. In this Northern Finland Birth Cohort 1966 study, 69 controls and 38 individuals with schizophrenia underwent brain MRI at the ages of 34 and 43 years. At baseline, the average illness duration was over 10 years. Brain structures were delineated using an automated volumetry system, volBrain, and medication data on cumulative antipsychotic and benzodiazepine doses were collected using medical records and interviews. We used linear regression with intracranial volume and sex as covariates; illness severity was also taken into account. Though both medication doses associated to volumetric changes in subcortical structures, after adjusting for each other and the average PANSS total score, higher scan-interval antipsychotic dose associated only to volume increase in lateral ventricles and higher benzodiazepine dose associated with volume decrease in the caudate nucleus. To our knowledge, there are no previous studies reporting associations between benzodiazepine dose and brain structural changes. Further studies should focus on how these observations correspond to cognition and functioning.
Published: 2017

35. CREB regulates distinct adaptive transcriptional programs in astrocytes and neurons

Author: Generalitat de Catalunya, European Commission, Ministerio de Economía y Competitividad (España), Fundación Alicia Koplowitz, Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Pardo, Luis A., Valor, Luis Miguel, Eraso-Pichot, Abel, Barco, Ángel, Golbano, Arantxa, Hardingham, Giles E., Masgrau, Roser, Galea, Elena, Generalitat de Catalunya, European Commission, Ministerio de Economía y Competitividad (España), Fundación Alicia Koplowitz, Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Pardo, Luis A., Valor, Luis Miguel, Eraso-Pichot, Abel, Barco, Ángel, Golbano, Arantxa, Hardingham, Giles E., Masgrau, Roser, and Galea, Elena
Abstract: The cyclic AMP response element binding protein (CREB) is a primary hub of activity-driven genetic programs in neurons controlling plasticity, neurogenesis and survival. By contrast, the gene networks coordinated by CREB in astrocytes are unknown despite the fact that the astrocytic CREB is also activity-driven and neuroprotective. Herein we identified the transcriptional programs regulated by CREB in astrocytes as compared to neurons using, as study materials, transcriptome databases of astrocyte exposed to well-known activators of CREB-dependent transcription as well as publicly available transcriptomes of neuronal cultures. Functional CREB signatures were extracted from the transcriptomes using Gene Ontology, adult-brain gene lists generated by Translating Ribosome Affinity Purification (TRAP) and CREB-target gene repositories. We found minimal overlap between CREB signatures in astrocytes and neurons. In astrocytes, the top triad of functions regulated by CREB consists of ‘Gene expression’, ‘Mitochondria’, and ‘Signalling’, while in neurons it is ‘Neurotransmission’, ‘Signalling’ and ‘Gene expression’, the latter two being represented by different genes from those in astrocytes. The newly generated databases will provide a tool to explore novel means whereby CREB impinges on brain functions requiring adaptive, long-lasting changes by coordinating transcriptional cascades in astrocytes.
Published: 2017

36. Loss of Kdm5c causes spurious transcription and prevents the fine-tuning of activity-regulated enhancers in neurons

Author: Ministerio de Economía y Competitividad (España), European Commission, Generalitat Valenciana, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, National Institutes of Health (US), Scandaglia, Marilyn, López-Atalaya, José P., Medrano-Fernandez, Alejandro, López-Cascales, María Teresa, Blanco, Beatriz del, Lipinski, Michal, Benito, Eva, Olivares, Román, Iwase, Shigeki, Shi, Yang, Barco, Ángel, Ministerio de Economía y Competitividad (España), European Commission, Generalitat Valenciana, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, National Institutes of Health (US), Scandaglia, Marilyn, López-Atalaya, José P., Medrano-Fernandez, Alejandro, López-Cascales, María Teresa, Blanco, Beatriz del, Lipinski, Michal, Benito, Eva, Olivares, Román, Iwase, Shigeki, Shi, Yang, and Barco, Ángel
Abstract: During development, chromatin-modifying enzymes regulate both the timely establishment of cell-type-specific gene programs and the coordinated repression of alternative cell fates. To dissect the role of one such enzyme, the intellectual-disability-linked lysine demethylase 5C (Kdm5c), in the developing and adult brain, we conducted parallel behavioral, transcriptomic, and epigenomic studies in Kdm5c-null and forebrain-restricted inducible knockout mice. Together, genomic analyses and functional assays demonstrate that Kdm5c plays a critical role as a repressor responsible for the developmental silencing of germline genes during cellular differentiation and in fine-tuning activity-regulated enhancers during neuronal maturation. Although the importance of these functions declines after birth, Kdm5c retains an important genome surveillance role preventing the incorrect activation of non-neuronal and cryptic promoters in adult neurons.
Published: 2017

37. Nuclear organization and 3D chromatin architecture in cognition and neuropsychiatric disorders

Author: Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, Medrano-Fernandez, Alejandro, Barco, Ángel, Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Fundación Alicia Koplowitz, Medrano-Fernandez, Alejandro, and Barco, Ángel
Abstract: The current view of neuroplasticity depicts the changes in the strength and number of synaptic connections as the main physical substrate for behavioral adaptation to new experiences in a changing environment. Although transcriptional regulation is known to play a role in these synaptic changes, the specific contribution of activity-induced changes to both the structure of the nucleus and the organization of the genome remains insufficiently characterized. Increasing evidence indicates that plasticity-related genes may work in coordination and share architectural and transcriptional machinery within discrete genomic foci. Here we review the molecular and cellular mechanisms through which neuronal nuclei structurally adapt to stimuli and discuss how the perturbation of these mechanisms can trigger behavioral malfunction.
Published: 2016

38. Blocking miRNA biogenesis in adult forebrain neurons enhances seizure susceptibility, fear memory, and food intake by increasing neuronal responsiveness

Author: Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Fiorenza, Anna, López-Atalaya, José P., Rovira, Victor, Scandaglia, Marilyn, Geijo-Barrientos, Emilio, Barco, Ángel, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Generalitat Valenciana, Brain and Behavior Research Foundation, Fiorenza, Anna, López-Atalaya, José P., Rovira, Victor, Scandaglia, Marilyn, Geijo-Barrientos, Emilio, and Barco, Ángel
Abstract: The RNase Dicer is essential for the maturation of most microRNAs, a molecular system that plays an essential role in fine-tuning gene expression. To gain molecular insight into the role of Dicer and the microRNA system in brain function, we conducted 2 complementary RNA-seq screens in the hippocampus of inducible forebrain-restricted Dicer1 mutants aimed at identifying the microRNAs primarily affected by Dicer loss and their targets, respectively. Functional genomics analyses predicted the main biological processes and phenotypes associated with impaired microRNA maturation, including categories related to microRNA biology, signal transduction, seizures, and synaptic transmission and plasticity. Consistent with these predictions, we found that, soon after recombination, Dicer-deficient mice exhibited an exaggerated seizure response, enhanced induction of immediate early genes in response to different stimuli, stronger and more stable fear memory, hyperphagia, and increased excitability of CA1 pyramidal neurons. In the long term, we also observed slow and progressive excitotoxic neurodegeneration. Overall, our results indicate that interfering with microRNA biogenesis causes an increase in neuronal responsiveness and disrupts homeostatic mechanisms that protect the neuron against overactivation, which may explain both the initial and late phenotypes associated with the loss of Dicer in excitatory neurons.
Published: 2016

39. Balancing family with a successful career in neuroscience

Author: Kavli Foundation, Alzheimer's Research UK, EMBO, European Research Council, Swiss National Science Foundation, European Commission, National Centres of Competence in Research (Switzerland), Alzheimer's Association, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Wellcome Trust, Poirazi, Panayiota, Belin, David, Gräff, Johannes, Hanganu-Opatz, Ileana L., López-Bendito, Guillermina, Kavli Foundation, Alzheimer's Research UK, EMBO, European Research Council, Swiss National Science Foundation, European Commission, National Centres of Competence in Research (Switzerland), Alzheimer's Association, Brain and Behavior Research Foundation, Ministerio de Economía y Competitividad (España), Wellcome Trust, Poirazi, Panayiota, Belin, David, Gräff, Johannes, Hanganu-Opatz, Ileana L., and López-Bendito, Guillermina
Published: 2016

40. Papel de los receptores mu-opioides del locus coeruleus en el síndrome de abstinencia de morfina en un modelo animal de dolor neuropático

Author: Instituto de Salud Carlos III, Fundación Española del Dolor, Brain and Behavior Research Foundation, Universidad de Cádiz, Ministerio de Economía y Competitividad (España), Llorca-Torralba, Meritxell, Pilar-Cuéllar, Fuencisla, Bruzos-Cidón, Cristina, Torrecilla, María, Valdizán, Elsa M., Mico, Juan Antonio, Ugedo, Luisa, Berrocoso, Esther, Instituto de Salud Carlos III, Fundación Española del Dolor, Brain and Behavior Research Foundation, Universidad de Cádiz, Ministerio de Economía y Competitividad (España), Llorca-Torralba, Meritxell, Pilar-Cuéllar, Fuencisla, Bruzos-Cidón, Cristina, Torrecilla, María, Valdizán, Elsa M., Mico, Juan Antonio, Ugedo, Luisa, and Berrocoso, Esther
Abstract: [Introducción]: El uso de opioides para el tratamiento del dolor crónico está limitado debido a las altas dosis requeridas que llevan a estados de dependencia y tolerancia mediados por los receptores mu-opioides (MOP). Un área implicada en la regulación del dolor y la dependencia física a opioides con una alta expresión de MOP es el locus coeruleus (LC). El presente trabajo plantea que el dolor crónico produciría alteraciones funcionales de los MOP en el LC que tendrían como consecuencia una mejoría en los síntomas adversos del tratamiento crónico de morfina. [Objetivos]: Evaluar el papel de los MOP del LC antes y después del tratamiento crónico de morfina, así como los síntomas físicos del síndrome de abstinencia en un modelo animal de dolor neuropático. [Material y método]: La constricción del nervio ciático de ratas se usó como modelo de dolor neuropático, 7 y 30 días tras la cirugía. Estudios comportamentales, electrofisiológicos, actividad AMPc-Adenilato ciclasa, inmunohistoquímicos y western blot fueron realizados antes y después del tratamiento crónico de morfina. Se usó el análisis de la varianza (ANOVA) de uno o dos factores ó t-Student (± EEM,p<0.05). [Resultados]: Los animales CCI30d mostraron un aumento significativo en los niveles de cFOS (14.33±2.35,p<0.05), pCREB (122.9±6.35,p<0.05) y MOP (9.60±1.38,p<0.01) del LC. Además, una mayor sensibilidad de los MOP en las curvas dosis-respuesta de morfina (ED50: 0.58±0.12,p<0.05), una rápida desensibilización en presencia de Met-encefalina (54.61%±5.88,p<0.05) y una pérdida de actividad adenilato ciclasa inducida por forskolina en presencia de DAMGO (94.60%±4.10,p<0.05) fue observada. Tras la precipitación del síndrome de abstinencia, una mayor incidencia de la actividad en burst fue observada en los animales sham (87.50%,p<0.05) pero no en los animales CCI7d y CCI30d (50.00%,p>0.05). Además, en presencia de Met-encefalina el porcentaje de desensibilización fue aumentado en los animales sham (50.55%±4.05,p>0.0
Published: 2016

41. Fine-tuned SRF activity controls asymmetrical neuronal outgrowth: implications for cortical migration, neural tissue lamination and circuit assembly

Author: Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Brain and Behavior Research Foundation, European Research Council, Ministerio de Ciencia e Innovación (España), Scandaglia, Marilyn, Benito, Eva, Morenilla-Palao, Cruz, Fiorenza, Anna, Blanco, Beatriz del, Coca, Yaiza, Herrera, Eloisa, Barco, Ángel, Ministerio de Economía y Competitividad (España), Generalitat Valenciana, Brain and Behavior Research Foundation, European Research Council, Ministerio de Ciencia e Innovación (España), Scandaglia, Marilyn, Benito, Eva, Morenilla-Palao, Cruz, Fiorenza, Anna, Blanco, Beatriz del, Coca, Yaiza, Herrera, Eloisa, and Barco, Ángel
Abstract: The stimulus-regulated transcription factor Serum Response Factor (SRF) plays an important role in diverse neurodevelopmental processes related to structural plasticity and motile functions, although its precise mechanism of action has not yet been established. To further define the role of SRF in neural development and distinguish between cell-autonomous and non cell-autonomous effects, we bidirectionally manipulated SRF activity through gene transduction assays that allow the visualization of individual neurons and their comparison with neighboring control cells. In vitro assays showed that SRF promotes survival and filopodia formation and is required for normal asymmetric neurite outgrowth, indicating that its activation favors dendrite enlargement versus branching. In turn, in vivo experiments demonstrated that SRF-dependent regulation of neuronal morphology has important consequences in the developing cortex and retina, affecting neuronal migration, dendritic and axonal arborization and cell positioning in these laminated tissues. Overall, our results show that the controlled and timely activation of SRF is essential for the coordinated growth of neuronal processes, suggesting that this event regulates the switch between neuronal growth and branching during developmental processes.
Published: 2015

42. Investing in the future: stimulation of the medial prefrontal cortex reduces discounting of delayed rewards

Author: Canadian Institutes of Health Research, Canada Research Chairs, Parkinson Canada, Sepracor, AstraZeneca, Hoffmann-La Roche, Merck & Co, Eli Lilly and Company, Mental Health Research Canada, Brain and Behavior Research Foundation, Centre for Addiction and Mental Health (Canada), Campbell Institute, Cho, Sang Soo, Koshimori, Yuko, Aminian, Kelly, Obeso, Ignacio, Rusjan, Pablo, Lang, Anthony E., Daskalakis, Zafiris J., Houle, Sylvain, Strafella, Antonio P., Canadian Institutes of Health Research, Canada Research Chairs, Parkinson Canada, Sepracor, AstraZeneca, Hoffmann-La Roche, Merck & Co, Eli Lilly and Company, Mental Health Research Canada, Brain and Behavior Research Foundation, Centre for Addiction and Mental Health (Canada), Campbell Institute, Cho, Sang Soo, Koshimori, Yuko, Aminian, Kelly, Obeso, Ignacio, Rusjan, Pablo, Lang, Anthony E., Daskalakis, Zafiris J., Houle, Sylvain, and Strafella, Antonio P.
Abstract: Generally, rewards that are received sooner are often preferred over future rewards, and the time between the choice and the reception of the reward is an important factor that influences our decisions, a phenomenon called delay discounting (DD). In DD, the medial prefrontal cortex (MePFC) and striatal dopamine neurotransmission both play an important role. We used repetitive transcranial magnetic stimulation (rTMS) to transiently activate the MePFC to evaluate its behavioral effect on the DD paradigm, and subsequently to measure its effect on striatal dopamine. Twenty-four right-handed young healthy subjects (11 females; age: 22.1±2.9 years) underwent DD following 10 Hz-rTMS of the MePFC and vertex stimulation (control condition). Thereafter, 11 subjects (5 females; age: 22.2±2.87 years) completed the PET study at rest using [(11)C]-(+)-PHNO following 10 Hz-rTMS of the MePFC and vertex. Modulation of the MePFC excitability influenced the subjective level of DD for delayed rewards and interfered with synaptic dopamine level in the striatum. The present study yielded findings that might reconcile the role of these areas in inter-temporal decision making and dopamine modulation, suggesting that the subjective sense of time and value of reward are critically controlled by these important regions.
Published: 2015

43. Selective knockdown of task3 potassium channels in monoaminergic neurons evokes antidepressant-like responses

Author: Ministerio de Ciencia e Innovación (España), Instituto de Salud Carlos III, European Commission, Brain and Behavior Research Foundation, Ferrés-Coy, Albert, Ruiz-Bronchal, Esther, Paz, Verónica, Galofré, Mireia, Artigas, Francesc, Bortolozzi, Analía, Ministerio de Ciencia e Innovación (España), Instituto de Salud Carlos III, European Commission, Brain and Behavior Research Foundation, Ferrés-Coy, Albert, Ruiz-Bronchal, Esther, Paz, Verónica, Galofré, Mireia, Artigas, Francesc, and Bortolozzi, Analía
Abstract: Depression brings about a heavy socio-economic burden worldwide due to its high prevalence and the low efficacy of antidepressant drugs. Recently, two-pore domain K+ (K2P) TASK3 channel was described as a feasible target with antidepressant potential. TASK3 knockout mice displayed antidepressant-like behaviors. However, the mechanisms or brain regions involved in these responses are not clear. Here, we developed a siRNA against TASK3 conjugated with sertraline-S (serotonin-5-HT transporter inhibitor) or reboxetine-R (norepinephrine-NE transporter inhibitor) to examine whether knockdown of TASK3 channel in the dorsal raphe nucleus (DR) or locus coeruleus (LC), respectively, is sufficient to produce antidepressant-like effects. Firstly, we infused locally naked TASK3- -siRNA (10 ) or reboxetine-R (norepinephrine-NE transporter inhi±4% and 84±4% of control group, respectively). Intranasal administration (i.n) of Alexa488-labeled S-conjugated or R-conjugated-siRNA resulted in a selective enrichment of these molecules in 5-HT TPH2+ (DR) or NE TH+ (LC) neurons, but not in other brain regions. Moreover, short-term S-TASK3-siRNA treatment (7-day, i.n) reduced TASK3 mRNA density in TPH2+ neurons (intracelular density: 63±7% of control group), but not TREK1 and TASK1 channels nor 5-HT1A receptor and SERT. We found that DR TASK3 knockdown mice evoked antidepressantlike responses including: a) decreased immobility time in the tail suspension test, b) reduced 8-OHDPAT-induced 5-HT1A-autoreceptor function and, c) increased fluoxetine effect on extracellular 5-HT concentration in the medial prefrontal cortex. Our results suggest that TASK3 channel in monoaminergic neurons could be a potential target for treatments of depression disorders
Published: 2014

44. Dual role of the exocyst in AMPA receptor targeting and insertion into the postsynaptic membrane

Author: National Institute of Mental Health (US), Brain and Behavior Research Foundation, National Institute of General Medical Sciences (US), Gerges, Nashaat Z., Backos, D. S., Rupasinghe, Chamila N., Spaller, Mark R., Esteban, José A., National Institute of Mental Health (US), Brain and Behavior Research Foundation, National Institute of General Medical Sciences (US), Gerges, Nashaat Z., Backos, D. S., Rupasinghe, Chamila N., Spaller, Mark R., and Esteban, José A.
Abstract: Intracellular membrane trafficking of glutamate receptors at excitatory synapses is critical for synaptic function. However, little is known about the specialized trafficking events occurring at the postsynaptic membrane. We have found that two components of the exocyst complex, Sec8 and Exo70, separately control synaptic targeting and insertion of AMPA-type glutamate receptors. Sec8 controls the directional movement of receptors towards synapses through PDZ-dependent interactions. In contrast, Exo70 mediates receptor insertion at the postsynaptic membrane, but it does not participate in receptor targeting. Thus, interference with Exo70 function accumulates AMPA receptors inside the spine, forming a complex physically associated, but not yet fused with the postsynaptic membrane. Electron microscopic analysis of these complexes indicates that Exo70 mediates AMPA receptor insertion directly within the postsynaptic density, rather than at extrasynaptic membranes. Therefore, we propose a molecular and anatomical model that dissects AMPA receptor sorting and synaptic delivery within the spine, and uncovers new functions of the exocyst at the postsynaptic membrane.
Published: 2006

45. Analysis of Rab protein function in neurotransmitter receptor trafficking at hippocampal synapses

Author: National Institutes of Health (US), Brain and Behavior Research Foundation, Fundação para a Ciência e a Tecnologia (Portugal), Alzheimer's Association, Gerges, Nashaat Z., Brown, Tyler C., Correia, Susana S., Esteban, José A., National Institutes of Health (US), Brain and Behavior Research Foundation, Fundação para a Ciência e a Tecnologia (Portugal), Alzheimer's Association, Gerges, Nashaat Z., Brown, Tyler C., Correia, Susana S., and Esteban, José A.
Abstract: Members of the Rab family of small GTPases are essential regulators of intracellular membrane sorting. Nevertheless, very little is known about the role of these proteins in the membrane trafficking processes that operate at synapses, and specifically, at postsynaptic terminals. These events include the activity-dependent exocytic and endocytic trafficking of AMPA-type glutamate receptors, which underlies long-lasting forms of synaptic plasticity such as long-term potentiation (LTP) and long-term depression (LTD). This chapter summarizes different experimental methods to address the role of Rab proteins in the trafficking of neurotransmitter receptors at postsynaptic terminals in the hippocampus. These techniques include immunogold electron microscopy to ultrastructurally localize endogenous Rab proteins at synapses, molecular biology methods to express recombinant Rab proteins in hippocampal slice cultures, electrophysiological techniques to evaluate the role of Rab proteins in synaptic transmission, and confocal fluorescence imaging to monitor receptor trafficking at dendrites and spines and its dependence on Rab proteins.
Published: 2005

46. NMDA receptor-dependent activation of the small GTPase Rab5 drives the removal of synaptic AMPA receptors during hippocampal LTD

Author: Brain and Behavior Research Foundation, National Institutes of Health (US), Alzheimer's Association, Brown, Tyler C., Tran, Irwin C., Backos, D. S., Esteban, José A., Brain and Behavior Research Foundation, National Institutes of Health (US), Alzheimer's Association, Brown, Tyler C., Tran, Irwin C., Backos, D. S., and Esteban, José A.
Abstract: The activity-dependent removal of AMPA receptors from synapses underlies long-term depression in hippocampal excitatory synapses. In this study, we have investigated the role of the small GTPase Rab5 during this process. We propose that Rab5 is a critical link between the signaling cascades triggered by LTD induction and the machinery that executes the activity-dependent removal of AMPA receptors. We have found that Rab5 activation drives the specific internalization of synaptic AMPA receptors in a clathrin-dependent manner and that this activity is required for LTD. Interestingly, Rab5 does not participate in the constitutive cycling of AMPA receptors. Rab5 is able to remove both GluR1 and GluR2 AMPA receptor subunits, leading to GluR1 dephosphorylation. Importantly, NMDA receptor-dependent LTD induction produces a rapid and transient increase of active (GTP bound) Rab5. We propose a model in which synaptic activity leads to Rab5 activation, which in turn drives the removal of AMPA receptors from synapses.
Published: 2005

47. Independent functions of Hsp90 in neurotransmitter release and in the continuous synaptic cycling of AMPA receptors

Author: Brain and Behavior Research Foundation, National Institutes of Health (US), Gerges, Nashaat Z., Tran, Irwin C., Backos, D. S., Harrell, Jennifer M., Chinkers, Michael, Pratt, William B., Esteban, José A., Brain and Behavior Research Foundation, National Institutes of Health (US), Gerges, Nashaat Z., Tran, Irwin C., Backos, D. S., Harrell, Jennifer M., Chinkers, Michael, Pratt, William B., and Esteban, José A.
Abstract: The delivery of neurotransmitter receptors into synapses is essential for synaptic function and plasticity. In particular, AMPA-type glutamate receptors (AMPA receptors) reach excitatory synapses according to two distinct routes: a regulated pathway, which operates transiently during synaptic plasticity, and a constitutive pathway, which maintains synaptic function under conditions of basal transmission. However, the specific mechanisms that distinguish these two trafficking pathways are essentially unknown. Here, we evaluate the role of the molecular chaperone hsp90 (heat shock protein 90) in excitatory synaptic transmission in the hippocampus. On one hand, we found that hsp90 is necessary for the efficient neurotransmitter release at the presynaptic terminal. In addition, we identified hsp90 as a critical component of the cellular machinery that delivers AMPA receptors into the postsynaptic membrane. Using the hsp90-specific inhibitors radicicol and geldanamycin, we show that hsp90 is required for the constitutive trafficking of AMPA receptors into synapses during their continuous cycling between synaptic and nonsynaptic sites. In contrast, hsp90 function is not required for either the surface delivery of AMPA receptors into the nonsynaptic plasma membrane or for the acute, regulated delivery of AMPA receptors into synapses during plasticity induction (long-term potentiation). The synaptic cycling of AMPA receptors was also blocked by an hsp90-binding tetratricopeptide repeat (TPR) domain, suggesting that the role of hsp90 in AMPA receptor trafficking is mediated by a TPR domain-containing protein. These results demonstrate new roles for hsp90 in synaptic function by controlling neurotransmitter release and, independently, by mediating the continuous cycling of synaptic AMPA receptors.
Published: 2004

48. Local Control of AMPA Receptor Trafficking at the Postsynaptic Terminal by a Small GTPase of the Rab Family

Author: National Institutes of Health (US), Brain and Behavior Research Foundation, Alzheimer's Association, Gerges, Nashaat Z., Backos, D. S., Esteban, José A., National Institutes of Health (US), Brain and Behavior Research Foundation, Alzheimer's Association, Gerges, Nashaat Z., Backos, D. S., and Esteban, José A.
Abstract: The delivery of neurotransmitter receptors into the synaptic membrane is essential for synaptic function and plasticity. However, the molecular mechanisms of these specialized trafficking events and their integration with the intracellular membrane transport machinery are virtually unknown. Here, we have investigated the role of the Rab family of membrane sorting proteins in the late stages of receptor trafficking into the postsynaptic membrane. We have identified Rab8, a vesicular transport protein associated with trans-Golgi network membranes, as a critical component of the cellular machinery that delivers AMPA-type glutamatergic receptors (AMPARs) into synapses. Using electron microscopic techniques, we have found that Rab8 is localized in close proximity to the synaptic membrane, including the postsynaptic density. Electrophysiological studies indicated that Rab8 is necessary for the synaptic delivery of AMPARs during plasticity (long-term potentiation) and during constitutive receptor cycling. In addition, Rab8 is required for AMPAR delivery into the spine surface, but not for receptor transport from the dendritic shaft into the spine compartment or for delivery into the dendritic surface. Therefore, Rab8 specifically drives the local delivery of AMPARs into synapses. These results demonstrate a new role for the cellular secretory machinery in the control of synaptic function and plasticity directly at the postsynaptic membrane.
Published: 2004

49. PKA phosphorylation of AMPA receptor subunits controls synaptic trafficking underlying plasticity

Author: Brain and Behavior Research Foundation, Esteban, José A., Shi, Song-Hai, Wilson, Christopher, Nuriya, Mutsuo, Huganir, Richard L., Malinow, Roberto, Brain and Behavior Research Foundation, Esteban, José A., Shi, Song-Hai, Wilson, Christopher, Nuriya, Mutsuo, Huganir, Richard L., and Malinow, Roberto
Abstract: The regulated incorporation of AMPA receptors into synapses is important for synaptic plasticity. Here we examine the role of protein kinase A (PKA) in this process. We found that PKA phosphorylation of the AMPA receptor subunits GluR4 and GluR1 directly controlled the synaptic incorporation of AMPA receptors in organotypic slices from rat hippocampus. Activity-driven PKA phosphorylation of GluR4 was necessary and sufficient to relieve a retention interaction and drive receptors into synapses. In contrast, PKA phosphorylation of GluR1 and the activity of calcium/calmodulin-dependent kinase II (CaMKII) were both necessary for receptor incorporation. Thus, PKA phosphorylation of AMPA receptor subunits contributes to diverse mechanisms underlying synaptic plasticity.
Published: 2003

50. Subunit-Specific Rules Governing AMPA Receptor Trafficking to Synapses in Hippocampal Pyramidal Neurons

Author: Japan Society for the Promotion of Science, Uehara Memorial Foundation for International Students, Brain and Behavior Research Foundation, National Institutes of Health (US), G. Harold & Leila Y. Mathers Foundation, Alzheimer's Association, Shi, Song-Hai, Hayashi, Yasunori, Esteban, José A., Malinow, Roberto, Japan Society for the Promotion of Science, Uehara Memorial Foundation for International Students, Brain and Behavior Research Foundation, National Institutes of Health (US), G. Harold & Leila Y. Mathers Foundation, Alzheimer's Association, Shi, Song-Hai, Hayashi, Yasunori, Esteban, José A., and Malinow, Roberto
Abstract: AMPA-type glutamate receptors (AMPA-Rs) mediate a majority of excitatory synaptic transmission in the brain. In hippocampus, most AMPA-Rs are hetero-oligomers composed of GluR1/GluR2 or GluR2/GluR3 subunits. Here we show that these AMPA-R forms display different synaptic delivery mechanisms. GluR1/GluR2 receptors are added to synapses during plasticity; this requires interactions between GluR1 and group I PDZ domain proteins. In contrast, GluR2/GluR3 receptors replace existing synaptic receptors continuously; this occurs only at synapses that already have AMPA-Rs and requires interactions by GluR2 with NSF and group II PDZ domain proteins. The combination of regulated addition and continuous replacement of synaptic receptors can stabilize long-term changes in synaptic efficacy and may serve as a general model for how surface receptor number is established and maintained.
Published: 2001

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