Target cell-specific plasticity rules of NMDA receptor-mediated synaptic transmission in the hippocampus

Long-term potentiation and depression of NMDA receptor-mediated synaptic transmission (NMDAR LTP/LTD) can significantly impact synapse function and information transfer in several brain areas. However, the mechanisms that determine the direction of NMDAR plasticity are poorly understood. Here, using physiologically relevant patterns of presynaptic and postsynaptic burst activities, whole-cell patch clamp recordings, 2-photon laser calcium imaging in acute rat hippocampal slices and immunoelectron microscopy, we tested whether distinct calcium dynamics and group I metabotropic glutamate receptor (I-mGluR) subtypes control the sign of NMDAR plasticity. We found that postsynaptic calcium transients (CaTs) in response to hippocampal MF stimulation were significantly larger during the induction of NMDAR-LTP compared to NMDAR-LTD at the MF-to-CA3 pyramidal cell (MF-CA3) synapse. This difference was abolished by pharmacological blockade of mGluR5 and was significantly reduced by depletion of intracellular calcium stores, whereas blocking mGluR1 had no effect on these CaTs. In addition, we discovered that MF to hilar mossy cell (MF-MC) synapses, which share several structural and functional commonalities with MF-CA3 synapses, also undergoes NMDAR plasticity. To our surprise, however, we found that the postsynaptic distribution of I-mGluR subtypes at these two synapses differ, and the same induction protocol that induces NMDAR-LTD at MF-CA3 synapses, only triggered NMDAR-LTP at MF-MC synapses, despite a comparable calcium dynamics. Thus, postsynaptic calcium dynamics alone cannot predict the sign of NMDAR plasticity, indicating that both postsynaptic calcium rise and the relative contribution of I-mGluR subtypes likely determine the learning rules of NMDAR plasticity.This research was supported by the National Institutes of Health (NIH), R01-NS113600, R01-MH125772, R01-MH116673, and R01-MH081935 to PC, and by The Basque Government (IT1620-22), Red de Investigación en Atención Primaria de Adicciones (RIAPAd), Instituto de Salud Carlos III (RD21/0009/0006), and Ministry of Science and Innovation (PID2019-107548RB-I00) to PG

Localization and Function of the Cannabinoid CB1 Receptor in the Anterolateral Bed Nucleus of the Stria Terminalis

11 p.Background: The bed nucleus of the stria terminalis (BNST) is involved in behaviors related to natural reward, drug addiction and stress. In spite of the emerging role of the endogenous cannabinoid (eCB) system in these behaviors, little is known about the anatomy and function of this system in the anterolateral BNST (alBNST). The aim of this study was to provide a detailed morphological characterization of the localization of the cannabinoid 1 (CB1) receptor a necessary step toward a better understanding of the physiological roles of the eCB system in this region of the brain. Methodology/Principal Findings: We have combined anatomical approaches at the confocal and electron microscopy level to ex-vivo electrophysiological techniques. Here, we report that CB1 is localized on presynaptic membranes of about 55% of immunopositive synaptic terminals for the vesicular glutamate transporter 1 (vGluT1), which contain abundant spherical, clear synaptic vesicles and make asymmetrical synapses with alBNST neurons. About 64% of vGluT1 immunonegative synaptic terminals show CB1 immunolabeling. Furthermore, 30% and 35% of presynaptic boutons localize CB1 in alBNST of conditional mutant mice lacking CB1 mainly from GABAergic neurons (GABA-CB1-KO mice) and mainly from cortical glutamatergic neurons (Glu-CB1-KO mice), respectively. Extracellular field recordings and whole cell patch clamp in the alBNST rat brain slice preparation revealed that activation of CB1 strongly inhibits excitatory and inhibitory synaptic transmission. Conclusions/Significance: This study supports the anterolateral BNST as a potential neuronal substrate of the effects of cannabinoids on stress-related behaviors.Dr. Pedro Grandes' laboratory is supported by The Basque Country Government grant GIC07/70-IT-432-07, by Red de Trastornos Adictivos (RETICS), Instituto de Salud Carlos III, Ministerio de Ciencia e Innovación (MICINN), grant RD07/0001/2001 and MICINN grant SAF2009-07065. Nagore Puente is supported by a Basque Country University grant for PhD Researcher's Specialization. Leire Reguero is in receipt of a predoctoral fellowship from the Basque Country Government. Dr. Olivier J. Manzoni's laboratory is supported by INSERM, ANR Neurosciences “Neurologie et Psychiatrie ANR-06-NEURO-043-01” and Région Aquitaine. Dr. Giovanni Marsicano's laboratory is supported by AVENIR/INSERM (with the Fondation Bettencourt-Schueller), by ANR (ANR-06-NEURO-043-01), by European Foundation for the Study of Diabetes (EFSD), by the EU-FP7 (REPROBESITY, contract number HEALTH-F2-2008-223713) and European Commission Coordination Action ENINET (contract number LSHM-CT-2005-19063). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

Bimodal control of stimulated food intake by theendocannabinoid system

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Looking for Novel Natural Gels to Improve Cleaning Methods for Bronze Leachates on Marble

Marble is one of the materials most susceptible to copper leaching, resulting in easily identifiable turquoise stains on the marble. This problem is particularly relevant when we are talking about marble structures of heritage value. For this reason, conservators look for cleaning materials that are specific to the structure to be treated without damaging the original surface. Materials such as agar have been studied for a long time. Agar creates a controlled water release system that adapts to the needs of conservators who seek the greatest possible cleanliness without damaging the material to be treated. To improve the cleaning, chelating agents such as EDTA are added to the agar composition. However, the microbiological growth and the damage it produces to the original material are disadvantages to take into account. In order to solve these problems, other natural materials with cleaning potential such as kudzu and konjac gels were studied in combination with other chelating agents such as citrate, oxalate, and gluconic acid. For the characterization and evaluation of copper cleaning, various analytical techniques were used, including Raman spectroscopy, colorimetry, X-ray fluorescence (XRF), and inductively coupled plasma mass spectrometry (ICP-MS). In this study, both konjac and kudzu emerged as promising alternatives to agar, revealing distinctive features such as simplified preparation methods and inherent antimicrobial properties. The EDTA chelator was found to be the most harmful for marble surfaces, as it extracted a greater amount of calcium from the marble during application of the gels doped with it. Citrate and gluconic acid have been identified as a promising substitute to prepare doped gels for the removal of copper stains. These compounds exhibit comparable or potentially superior cleaning capabilities than EDTA, with no negative side effects.This work has been supported by the project DEMORA (Grant PID2020-113391GB-I00) funded by MCIN/AEI/10.13039/501100011033 and by “ERDF A way of making Europe” (EU)

Omega-3 gantz-azidoen propietate onuragarriak zenbait egoera klinikotan

Omega-3 fatty acids (FA) are essential long-chain polyunsaturated FA, amongst others, α-linolenic acid (ALA), eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). The main food source of omega-3 is the oily fish which is found in salmon, anchovy or tuna. A diet enriched with omega-3 is known to favour healthy states by promoting molecular and functional changes during brain damage recovery, membranes fluidity, energy metabolism regulation, release of signalling molecules or gene expression. Likewise, the activation of signalling pathways by omega-3 improves neural transmission and plasticity and decreases oxidative stress and inflammation in cells, particularly in neurons. Therefore, omega-3 supplements have been used to prevent or treat many human disorders. This review is intended to provide the stateof- the art of omega-3 as a natural component with beneficial therapeutic properties in cardiovascular and neurodegenerative diseases (Alzheimer and Parkinson), cancer, alcoholism and overweight. Lastly, some insights into the potential benefits of omega-3 supplementation to dodge or treat some other diseases in the future are also considered.; Kate luzeko omega-3 mantenugaiak, azido α-linolenikoa (ALA), azido eikosapentaenoikoa (EPA) eta azido dokosahexaenoikoa (DHA), dietaren bitartez bereganatzen diren gantz-azido (GA) poliasegabeak dira. Propietate antioxidatzaileak barne hartzen dituzten hiru osagai horien elikagai-iturri nagusia arrain koipetsua (izokina, antxoa, hegalaburra…) eta horretatik eratorritako arrain-olioa dira batez ere. Omega-3 GA osagarriaz aberastutako dietak aldaketa molekular zein funtzional mesedegarriak eragiten ditu garunaren garapen prozesuan, zenbait garun lesioren berreskurapenean parte hartzen. Gehigarri horrek mintz zelularraren fluidotasuna areagotzen du, eta metabolismoaren erregulazioan parte hartzen du, seinaleztapen molekulen askapena sustatuz eta gene espresioan eraginez. Bi ekintza horien bidez seinaleztapen bideak aktibatzen dira, eta ondorioz garun plastikotasuna eta transmisio sinaptikoa suspertu. Areago, omega-3 GAk zeluletan oro har, eta neuronetan bereziki, oxidazio-estresak eta hanturak eragindako kalteak murriztu ditzake. Horregatik guztiagatik, omega-3 osagarria hainbat patologietan prebentzioan edo tratamenduan erabili da. Berrikuspen honek laburbiltzen ditu kate luzeko omega-3 GAetan aberastutako tratamenduak bihotz hodietako gaixotasunetan, minbizian, neuroendekapenezko gaixotasunetan (Alzheimer eta Parkinson), alkoholismoan eta gainpisuan, oinarrizko ikerkuntzan eta ikerketa klinikoan frogatu eta egiaztatu diren aurrerapen terapeutiko berriak; eta etorkizunera begira beste hainbat gaixotasuni aurrea hartzeko edo haiek tratatzeko potentzialtasun handiko eta albo ondoriorik gabeko osagarri ez-inbaditzaile aproposa izan daitekeela iradokitzen du

Lack of the transient receptor potential vanilloid 1 shifts cannabinoid-dependent excitatory synaptic plasticity in the dentate gyrus of the mouse brain hippocampus

[EN] The transient receptor potential vanilloid 1 (TRPV1) participates in synaptic functions in the brain. In the dentate gyrus, post-synaptic TRPV1 in the granule cell (GC) dendritic spines mediates a type of long-term depression (LTD) of the excitatory medial perforant path (MPP) synapses independent of pre-synaptic cannabinoid CB1 receptors. As CB1 receptors also mediate LTD at these synapses, both CB1 and TRPV1 might be influencing the activity of each other acting from opposite synaptic sites. We tested this hypothesis in the MPP–GC synapses of mice lacking TRPV1 (TRPV1-/-). Unlike wild-type (WT) mice, low-frequency stimulation (10min at 10Hz) of TRPV1-/- MPP fibers elicited a form of long-term potentiation (LTP) that was dependent on (1) CB1 receptors, (2) the endocannabinoid 2-arachidonoylglycerol (2-AG), (3) rearrangement of actin filaments, and (4) nitric oxide signaling. These functional changes were associated with an increase in the maximum binding efficacy of guanosine-5′-O-(3-[35S]thiotriphosphate) ([35S]GTPgS) stimulated by the CB1 receptor agonist CP 55,940, and a significant decrease in receptor basal activation in the TRPV1-/- hippocampus. Finally, TRPV1-/- hippocampal synaptosomes showed an augmented level of the guanine nucleotide-binding (G) Gai1, Gai2, and Gai3 protein alpha subunits. Altogether, the lack of TRPV1 modifies CB1 receptor signaling in the dentate gyrus and causes the shift from CB1 receptor-mediated LTD to LTP at the MPP–GC synapses.This work was supported by the Basque Government (IT1230- 19, to PG); MINECO/FEDER, UE (SAF2015-65034-R, to PG); Ministry of Science and Innovation (PID2019-107548RBI00, to PG); Red de Trastornos Adictivos, Instituto de Salud Carlos III (ISC-III); and European Regional Development Funds-European Union (ERDF-EU, Investing in your future; RD16/0017/0012, to PG); MINECO CTQ2017-85686-R (Spanish Ministry of Economy and Competitiveness, to JS); JE-H is a Postdoctoral Researcher contracted with funds of Red de Trastornos Adictivos, Instituto de Salud Carlos III (ISC-III), and European Regional Development Funds-European Union (ERDF-EU, Investing in your future; RD16/0017/0012), and the Basque Government (IT1230-19). IB-D holds a Postdoctoral Orientation Period contract (BES-2016-076766, BES-C-2016-0051). SA has a Ph.D. contract granted by University of the Basque Country (PIF 16/251). ES-G is funded by Ikerbasque and MINECO (PGC2018- 093990-A-I00; MICIU/AEI/FEDER, UE)

Altered glial expression of the cannabinoid 1 receptor in the subiculum of a mouse model of Alzheimer's disease.

The alteration of the endocannabinoid tone usually associates with changes in the expression and/or function of the cannabinoid CB1 receptor. In Alzheimer's disease (AD), amyloid beta (Aβ)-containing aggregates induce a chronic inflammatory response leading to reactivity of both microglia and astrocytes. However, how this glial response impacts on the glial CB1 receptor expression in the subiculum of a mouse model of AD, a brain region particularly affected by large accumulation of plaques and concomitant subcellular changes in microglia and astrocytes, is unknown. The CB1 receptor localization in both glial cells was investigated in the subiculum of male 5xFAD/CB2EGFP/f/f (AD model) and CB2EGFP/f/f mice by immuno-electron microscopy. The findings revealed that glial CB1 receptors suffer remarkable changes in the AD mouse. Thus, CB1 receptor expression increases in reactive microglia in 5xFAD/CB2EGFP/f/f, but remains constant in astrocytes with CB1 receptor labeling rising proportionally to the perimeter of the reactive astrocytes. Not least, the CB1 receptor localization in microglial processes in the subiculum of controls and closely surrounding amyloid plaques and dystrophic neurites of the AD model, supports previous suggestions of the presence of the CB1 receptor in microglia. These findings on the correlation between glial reactivity and the CB1 receptor expression in microglial cells and astrocytes, contribute to the understanding of the role of the endocannabinoid system in the pathophysiology of Alzheimer's disease.post-print4763 K

The Absence of the Transient Receptor Potential Vanilloid 1 Directly Impacts on the Expression and Localization of the Endocannabinoid System in the Mouse Hippocampus

The transient receptor potential vanilloid 1 (TRPV1) is a non-selective ligand-gated cation channel involved in synaptic transmission, plasticity, and brain pathology. In the hippocampal dentate gyrus, TRPV1 localizes to dendritic spines and dendrites postsynaptic to excitatory synapses in the molecular layer (ML). At these same synapses, the cannabinoid CB1 receptor (CB1R) activated by exogenous and endogenous cannabinoids localizes to the presynaptic terminals. Hence, as both receptors are activated by endogenous anandamide, co-localize, and mediate long-term depression of the excitatory synaptic transmission at the medial perforant path (MPP) excitatory synapses though by different mechanisms, it is plausible that they might be exerting a reciprocal influence from their opposite synaptic sites. In this anatomical scenario, we tested whether the absence of TRPV1 affects the endocannabinoid system. The results obtained using biochemical techniques and immunoelectron microscopy in a mouse with the genetic deletion of TRPV1 show that the expression and localization of components of the endocannabinoid system, included CB1R, change upon the constitutive absence of TRPV1. Thus, the expression of fatty acid amide hydrolase (FAAH) and monoacylglycerol lipase (MAGL) drastically increased in TRPV1(-/-) whole homogenates. Furthermore, CB1R and MAGL decreased and the cannabinoid receptor interacting protein 1a (CRIP1a) increased in TRPV1(-/-) synaptosomes. Also, CB1R positive excitatory terminals increased, the number of excitatory terminals decreased, and CB1R particles dropped significantly in inhibitory terminals in the dentate ML of TRPV1(-/-) mice. In the outer 2/3 ML of the TRPV1(-/-) mutants, the proportion of CB1R particles decreased in dendrites, and increased in excitatory terminals and astrocytes. In the inner 1/3 ML, the proportion of labeling increased in excitatory terminals, neuronal mitochondria, and dendrites. Altogether, these observations indicate the existence of compensatory changes in the endocannabinoid system upon TRPV1 removal, and endorse the importance of the potential functional adaptations derived from the lack of TRPV1 in the mouse brain.This work was supported by the Basque Government (IT123019, to PG); MINECO/FEDER, UE (SAF2015-65034-R, to PG); Ministry of Science and Innovation (PID2019-107548RBI00, to PG); Red de Trastornos Adictivos, Instituto de Salud Carlos III (ISC-III) and European Regional Development Funds-European Union (ERDF-EU, Investing in your future; RD16/0017/0012, to PG); MINECO CTQ2017-85686-R (Spanish Ministry of Economy and Competitiviness, to JS); JE-H is a Postdoctoral Researcher contracted with funds of Red de Trastornos Adictivos, Instituto de Salud Carlos III (ISC-III) and European Regional Development Funds-European Union (ERDF-EU, Investing in your future; RD16/0017/0012), and the Basque Government (IT1230-19); IB-DR holds a Postdoctoral contract (BES2016-076766, BES-C-2016-0051); AM is the recipient of a PhD contract granted by the Department of Education of the Basque Governmen

Environmental Enrichment Rescues Endocannabinoid-Dependent Synaptic Plasticity Lost in Young Adult Male Mice after Ethanol Exposure during Adolescence

Binge drinking (BD) is a serious health concern in adolescents as high ethanol (EtOH) consumption can have cognitive sequelae later in life. Remarkably, an enriched environment (EE) in adulthood significantly recovers memory in mice after adolescent BD, and the endocannabinoid, 2-arachydonoyl-glycerol (2-AG), rescues synaptic plasticity and memory impaired in adult rodents upon adolescent EtOH intake. However, the mechanisms by which EE improves memory are unknown. We investigated this in adolescent male C57BL/6J mice exposed to a drinking in the dark (DID) procedure four days per week for a duration of 4 weeks. After DID, the mice were nurtured under an EE for 2 weeks and were subjected to the Barnes Maze Test performed the last 5 days of withdrawal. The EE rescued memory and restored the EtOH-disrupted endocannabinoid (eCB)-dependent excitatory long-term depression at the dentate medial perforant path synapses (MPP-LTD). This recovery was dependent on both the cannabinoid CB1 receptor and group I metabotropic glutamate receptors (mGluRs) and required 2-AG. Also, the EE had a positive effect on mice exposed to water through the transient receptor potential vanilloid 1 (TRPV1) and anandamide (AEA)-dependent MPP long-term potentiation (MPP-LTP). Taken together, EE positively impacts different forms of excitatory synaptic plasticity in water- and EtOH-exposed brains.This research was funded by ISCIII (“RD16/0017/0012” to P.G.), co-funded by ERDF/ESF, “Investing in your future”; The Basque Government (IT1230-19 to P.G.); Ministry of Science and Innovation (PID2019-107548RB-I00 to P.G.); Ph.D. contract from MINECO (BES-2013-065057 to S.P.); Ph.D. contract from UPV/EHU (PIF 18/315 to L.L.), and Ph.D. contract from UPV/EHU (PIF 19/164 to M.S.)

Ingurune aberastuak nerabezaroko gehiegizko alkohol kontsumoaren ondoriozko portaera kalteak berreskuratzen ditu C57BL/6J sagu helduetan

The use and abuse of alcohol (EtOH) is one of the world’s main health issues that strikingly impacts on our society, as heavy episodic drinking is becoming more and more common in the adolescence when the brain is particularly vulnerable to EtOH. However, molecular, anatomical, functional and behavioral alterations improve inyoung adult mice brains by an enriched environment (EE) exposure after adolescence EtOH consumption [21]. It remains unknown whether these beneficial effects are maintained over a long period of time after cessation of EtOH consumption. The aim of this study was to measure the long-term behavioral consequences of EtOH consumption and to explore the effects of EE in adulthood. For this goal, we treated C57BL/6J male mice with 20% EtOH or water during the 4 weeks of adolescence (p32-p56) followed by an abstinence period (p56-p90). Finally, they were exposed to EE for two weeks (p90-p104) and behavioral tests were conducted at their full adulthood: thigmotaxis for anxiety-like behaviour; novel object recognition test (NORT) for object recognition memory; novel object location test (NOLT) for location memory and beam walking balance test (BWBT) for motor coordination and balance. Object and spatial recognition memory were significantly lower in EtOH-treated mice. Also, motor coordination and balance were impaired after EtOH intake. Noticeably, memory and motor deficits reversed to control values after EE. In conclusion, we show that EE recovers the long-term behavioral and motor deficits after abusive EtOH consumption during adolescence. These results point to the beneficial effects EE have in EtOH addiction.; Alkohola (EtOH) munduan gehien kontsumitzen den substantzia psikoaktiboa da eta nerabezaroko alkoholaren kontsumo intentsiboa geroz eta ohikoagoa da. Adin tarte horretan burmuina garatzen ari da eta hainbat garun-atal zaurgarriagoak dira neurotoxikoen kalteen aurrean; hipokanpoa eta garuntxoa, esaterako. Ingurune aberastuak (IAk), aldaketa molekular, anatomiko zein funtzionalak eragiten ditu garunaren garapen prozesuan eta alkoholaren ondorioz helduaro goiztiarreko saguek galdutako portaera gaitasunen berreskurapena sustatzen du. Hala ere, IAk eragindako efektu mesedegarri horiek epe luzerago batean mantentzen diren aztertzeke dago. Ikerketa honen helburuak hurrengoak dira: nerabezaroko gehiegizko alkohol kontsumoak helduaroan eragiten dituen portaera aldaketak ikertzea eta parametro hauetan IAk izan ditzakeen onurak aztertzea. Horretarako, C57BL/6J sagu arrei nerabezaroko 4 astetan zehar (p32-p56) alkohol edo ur tratamendua eman zaie. Ondoren, helduaro goiztiarrean (p56-p90) animaliak abstinentzia egoeran mantendu dira eta helduaroan (p90-p104) saguen kumaldi erdia IAko baldintzetan jarri da 2 astez. Abstinentzia tarte horren azken egunetan portaera probak burutu dira: eremu irekiaren proba, antsietate maila neurtzeko; objektu berrien ezagutze proba, ezagutze oroimenerako; objektuen kokaleku berriaren ezagutze proba, oroimen espazialerako eta oreka proba, oreka eta koordinazio motorrerako. Alkohol taldeko saguek bereizketa indize baxuagoak erakutsi dituzte bai ezagutze oroimen proban baita oroimen espazialean ere, alkohol kontsumoaren ondoriozko narriadura kognitibo adierazgarria iradokiz. Antzeko emaitzak behatu dira oreka proban ere, non alkohol taldeko saguek (EtOH) oreka eta koordinazio motorra kaltetuta erakutsi duten. Interesgarriki, animaliak IAko baldintzapean jartzean objektuak eta kokalekuak bereizteko gaitasuna berreskuratzen dute eta oreka eta koordinazio maila hobetzen dute helduaroan, kontrol taldekoen (H2O) antzeko balioetaraino. IAk alkoholaren ondoriozko helduaroko efektu kaltegarriak leheneratzeko gaitasuna duela erakutsi du