Reduction of adult hippocampal neurogenesis modifies brain functional connectivity and enhances cocaine-seeking in mice

Recently, adult hippocampal neurogenesis has been proposed as a putative neuroplastic mechanism involved in those behavioural processes. In this work, we studied the effect of the inhibition of adult hippocampal neurogenesis using the DNA alkylating agent temozolomide (TMZ), in cocaine-induced conditioned place preference (CPP) behaviour. In a first experiment, we investigated both CPP acquisition/expression and the functional brain circuits underlying CPP expression in control and neurogenesis-reduced conditions by analysing c-Fos immunoreactivity (c-Fos IR) in hippocampal and extrahippocampal addiction-related areas. A second experiment was designed to study the involvement of adult-born neurons in the extinction and cocaine-induced reinstatement of drug-seeking in the CPP model. We performed two independent studies where adult hippocampal neurogenesis was inhibited either before or after the CPP was acquired. Our results showed that TMZ treatment had no effect on the acquisition of the cocaine-induced CPP, but c-Fos IR associated to the test trial (CPP expression) revealed an increased activity in some of the analysed brain areas in the CPP-TMZ mice. Correlational and multivariate analysis revealed that, under normal conditions, the hippocampus showed widespread functional connectivity with other brain areas and strongly contributed to the functional brain network associated with CPP expression. However, mice with reduced neurogenesis showed an alternative brain circuit. The results of the second experiment revealed that mice acquiring the cocaine-induced CPP under neurogenesis-reduced conditions were delayed in extinguishing their drug seeking behaviour. However, when neurogenesis was inhibited after CPP acquisition, extinction was not affected but an enhanced long-term CPP retention was found, suggesting that the role of the adult-born neurons may differ depending on whether they are generated before or after drug-contextual associations are established. Importantly, cocaine-induced reinstatement of CPP behaviour was increased in the TMZ mice, regardless of the time of neurogenesis inhibition.Universidad de Málaga. Andalucía Tech, Campus de Excelencia Internacional. Spanish Ministry of Economy and Competitiveness (PSI2013-44901-P to L.J.S.; Subprograma RETICS Red de Trastornos Adictivos RD12/0028/0001, to F.R.F.). Author E.C-O. holds a ‘Sara Borrell’ research contract from the Spanish Carlos III Health Institute, Spanish Ministry of Economy and Competitiviness (grant number CD12/00455). Author D.L.G-M. holds a ‘FPU’ grant from the Spanish Ministry of Education, Culture and Sports (grant number FPU13/04819)

Behavioral traits predicting cocaine-conditioned place reference in mice: role of anxiety adn the basolateral amygdala

Aims. The individual susceptibility to cocaine addiction, a factor of interest in the understanding and prevention of this disorder, may be predicted by certain behavioral traits. However, these are not usually taken into account in research, making it difficult to identify whether they are a cause or a consequence of drug use. Methods. Male C57BL/6J mice underwent a battery of behavioral tests (elevated plus maze, hole-board, novelty preference in the Y maze, episodic-like object recognition memory and forced swimming test), followed by a cocaine-conditioned place preference (CPP) training to assess the reinforcing effect of the drug. In a second study, we aimed to determine the existence of neurobiological differences between the mice expressing high or low CPP by studying the number of neurons in certain addiction-related structures: the medial prefrontal cortex, the basolateral amygdala and the ventral tegmental area. Results. Anxiety-like behaviors in the elevated plus maze successfully predicted the cocaine-CPP behavior, so that the most anxious mice were also more likely to search for cocaine in a CPP paradigm. In addition, these mice exhibited an increased number of neurons in the basolateral amygdala, a key structure in emotional response including anxiety expression, without differences in the others regions analyzed. Conclusions. Our results suggest a relevant role of anxiety as a psychological risk factor for cocaine vulnerability, with the basolateral amygdala as potential common neural center for both anxiety and addiction.Universidad de Málaga, Campus de Excelencia Internacional Andalucía Tech. PSI2013-44901-P, FPU13/04819, CD12/00455, Red de Trastornos Adictivo

Efecto neuroprotector de IGF-II en situaciones de estrés neuronal inducido por corticosterona

Presentado en el 15º Congreso Nacional de la SENC 2013El daño por estrés en tejido neuronal mediado por la presencia de elevados niveles de corticosterona, se relaciona con la producción de alteraciones en funciones cognitivas. Así, el estrés agudo induce un aumento importante en los niveles plasmáticos de corticosterona que se asocia con alteraciones de plasticidad neuronal. Datos previos de nuestro grupo demuestran un efecto neuroprotector a dosis bajas del factor de crecimiento similar a insulina (IGF-II) en ratas de edad avanzada, donde el estrés de tipo oxidativo se encuentra involucrado en el propio proceso senil y en el desarrollo de diferentes enfermedades neurodegenerativas. Objetivos: En el presente trabajo se pretenden estudiar las propiedades antioxidantes de dosis bajas de IGF-II en cultivos primarios de corteza neuronal de ratas adultas, sometidos a elevadas concentraciones transitorias de corticosterona. Métodos: Los parámetros de estrés oxidativo se determinaron mediante citometria de flujo y espectrofotometría. Resultados: Las neuronas corticales incubadas con corticosterona mostraron un aumento de especies reactivas de oxígeno (ROS), del consumo de reserva antioxidante celular (etax), y de la peroxidación lipídica (LOOH) todo ello corno consecuencia de un desequilibrio entre factores pro-oxidantes (ej. daño mitocondrial, NOS) y factores antioxidantes (ej. GSH, SOD). La co-incubación de corticosterona y dosis bajas de IGF-II reequilibra estos factores. Este efecto neuroprotector podría estar mediado al menos en parte por la interacción de IGF-II con sus receptores específicos, ya que su bloqueo origina de nuevo un desequilibro entre los factores antioxidantes/pro-oxidantes. Conclusión: Las dosis bajas de IGF-II ejercen un efecto neuroprotector en situaciones de estrés oxidativo inducido por altos niveles de corticosterona.Laboratorios Lilly (Madrid) por cesion del IGF-II y Ayuda de la Universidad de Malaga. Campus de Excelencia Andalucia Tec

Role of the LPA1 receptor in mood and emotional regulation

Depression is a debilitating psychiatric condition characterized by anhedonia and behavioural despair among others symptoms. Despite the high prevalence and devastating impact of depression, underlying neurobiological mechanisms of mood disorders are still not well known. Regardless its complexity, central features of this disease can be modelled in rodents in order to better understand the potential mechanisms underlying. On the other hand, the lack of LPA1 receptor compromises the morphological and functional integrity of the limbic circuit and the neurogenesis in hippocampus, induces cognitive alterations on hippocampal-dependent tasks and dysfunctional coping of chronic stress, provokes exaggerated endocrine responses to emotional stimuli and impairs adaptation of the hypothalamic-pituitary-adrenal axis after chronic stress. Factors, which all have been related with depression. Here, we sought to establish the involvement of the LPA1 receptor in regulation of mood and emotion. To this end, in wild-type and maLPA1-null mice active coping responses to stress were examined using the forced swimming test (FST). To assess hedonic behaviour saccharine preference test and female urine sniffing test were used. Our data indicated that the absence of the LPA1 receptor significantly affected to coping strategies. Thus, while null mice displayed less immobility than wt in FST, exhibited more climbing and less swimming behaviour, responses that could be interpreted as an emotional over-reaction (i.e., a panic-like response) to stress situations. Concerning hedonic behaviour, the lack of the LPA1 receptor diminished saccharin preference and female urine sniffing time. Overall, these data supports the role of LPA1 receptor in mood and emotional regulation. Specially, the lack of this receptor induced emotional dysregulation and anhedonic behaviour, a core symptom of depression.Universidad de Málaga, Campus de Excelencia Andalucía Tech. Andalusian Regional Ministries of Economy, Innovation, Science and Employment (SEJ-1863; CTS643) and of Health (PI-0234-2013; Nicolas Monardes Programme), MINECO (PSI2013-44901-P) and National Institute of Health Carlos III (Sara Borrel)

Lysophosphatidic Acid Receptor 1 Specifically Labels Seizure-Induced Hippocampal Reactive Neural Stem Cells and Regulates Their Division

A population of neural stem cells (NSCs) dwelling in the dentate gyrus (DG) is able to generate neurons throughout adult life in the hippocampus of most mammals. These NSCs generate also astrocytes naturally and are capable of generating oligodendrocytes after gene manipulation. It has been more recently shown that adult hippocampal NSCs after epileptic seizures as well as subventricular zone NSCs after stroke can give rise to reactive astrocytes (RAs). In the hippocampus, the induction of seizures triggers the conversion of NSCs into reactive NSCs (React-NSCs) characterized by a drastic morphological transformation, abnormal migration, and massive activation or entry into the cell cycle to generate more React-NSCs that ultimately differentiate into RAs. In the search for tools to investigate the properties of React-NSCs, we have explored the LPA(1)-green fluorescent protein (GFP) transgenic line of mice in which hippocampal NSCs are specifically labeled due to the expression of lysophosphatidic acid receptor 1 (LPA(1)). We first addressed the validity of the transgene expression as true marker of LPA(1)expression and then demonstrated how, after seizures, LPA(1)-GFP labeled exclusively React-NSCs for several weeks. Then React-NSCs lost LPA(1)-GFP expression as neurons of the granule cell layer started to express it. Finally, we used knockout for LPA(1)transgenic mice to show that LPA(1)plays a functional role in the activation of React-NSCs. Thus, we confirmed that LPA(1)-GFP expression is a valid tool to study both NSCs and React-NSCs and that the LPA(1)pathway could be a target in the intent to preserve NSCs after seizures.Spanish Ministry of Economy and Competitiveness (MINECO) Grant/Award Nos. SAF-2015-70866-R (with FEDER Funds) and RyC-212-11137 to JE. RV-M and TM-G received Basque Government Predoctoral fellowships. SM-S received a Fundacion Tatiana predoctoral fellowship. OP-A received a UPV/EHU predoctoral fellowship. GE-T was contracted by the Nicolas Monardes Program (Andalusian Ministry of Health and Families)

Immune Mechanism of Epileptogenesis and Related Therapeutic Strategies

Immunologic and neuroinflammatory pathways have been found to play a major role in the pathogenesis of many neurological disorders such as epilepsy, proposing the use of novel therapeutic strategies. In the era of personalized medicine and in the face of the exhaustion of anti-seizure therapeutic resources, it is worth looking at the current or future possibilities that neuroimmunomodulator or anti-inflammatory therapy can offer us in the management of patients with epilepsy. For this reason, we performed a narrative review on the recent advances on the basic epileptogenic mechanisms related to the activation of immunity or neuroinflammation with special attention to current and future opportunities for novel treatments in epilepsy. Neuroinflammation can be considered a universal phenomenon and occurs in structural, infectious, post-traumatic, autoimmune, or even genetically based epilepsies. The emerging research developed in recent years has allowed us to identify the main molecular pathways involved in these processes. These molecular pathways could constitute future therapeutic targets for epilepsy. Different drugs current or in development have demonstrated their capacity to inhibit or modulate molecular pathways involved in the immunologic or neuroinflammatory mechanisms described in epilepsy. Some of them should be tested in the future as possible antiepileptic drugThis research was funded by Andalusian Network of Clinical and Translational Research in Neurology (Neuro-RECA) of the Consejería de Salud y Familias de la Junta de Andalucía (Code: RIC-0111-2019). Partial funding for open access charge: Universidad de Málag

Enhancing adult hippocampal neurogenesis with lysophosphatidic acid: a proposal for erasing cocaine contextual memory

Stimulating adult hippocampal neurogenesis (AHN) has been uncovered as a promising approach in the manipulation of retrograde memories. This work aims to study whether increasing AHN with lysophosphatidic acid (LPA, an endogenous lysophospholipid with proneurogenic actions) promotes the forgetting of previously established cocaine-contextual associations. C57BL/6J mice previously trained in a cocaine-induced conditioned place preference (CPP) paradigm were submitted to 23 days of withdrawal, during which they received repeated intracerebroventricular infusions of LPA, ki16425 (a selective LPA1/3 receptors antagonist), or vehicle solution. Then, CPP maintenance was assessed, and the causal role of AHN in this process was evaluated using a mediation analysis. In a complementary experiment, wild-type and LPA1-null mice were acutely infused with LPA or ki16425 to determine the involvement of the LPA1 receptor in the in vivo proneurogenic actions of LPA. The chronic LPA treatment significantly weakened the long-term retention of a previously acquired cocaine-CPP memory, an effect clearly mediated by a LPA-induced increase in the number of adult-born dentate granule cells. In contrast, the ki16425-treated mice displayed aberrant responses of initially decreased CPP retention that progressively increased CPP across the extinction sessions, in absence of effects on AHN. The histological studies suggested that the proneurogenic actions of LPA were related to the enhancement of cell proliferation and critically depended on the LPA1 receptor function. Our results suggest that the LPA/LPA1-pathway acts as a potent in vivo modulator of AHN, and highlight the usefulness of a post-learning increase of adult-born hippocampal neurons as a strategy to promote the forgetting of cocaine-context associations.Plan Propio de Investigación y Transferencia. Campus de Excelencia Internacional Andalucía Tech. Spanish Ministry of Economy and Competitiveness (Agencia Estatal de Investigación), co‐funded by the European Research Development Fund (AEI/FEDER, UE) (PSI2013‐44901‐P and PSI2017‐82604‐R to L.J.S. and PSI2015‐73156‐JIN to E.C.O.); by the National System of Health‐Instituto de Salud Carlos III, which is co‐funded by AEI/FEDER, UE (Red de Trastornos Adictivos; RD16/0017/0001 to F.R.d.F.); and by the Andalusian R&D&I Programme, Regional Ministry of Economy and Knowledge (PAIDI CTS643 to G.E.T.). D.L.G.M. hold a FPU grant from the Spanish Ministry of Education, Culture and Sports (FPU13/04819 ). F.R.d.F. and G.E.T. are supported by Nicolas Monardes Programme, from the Andalusian Regional Ministry of Health. E.C.O. holds a ‘Jóvenes Investigadores’ grant (code: PSI2015‐73156‐JIN) from the Spanish Ministry of Economy and Competitiveness (Agencia Estatal de Investigación), which is co‐funded by the AEI/FEDER, UE

Cognitive impairment in a murine model of experimental autoimmune encephalomyelitis with relapsing-remitting course

Multiple sclerosis (MS) is a neuroinflammatory disorder characterized by demyelination and progressive axonal loss that affects the central nervous system. In addition of physical disability and the neurodegenerative process, MS associates with co-morbid behavioral, neuropsychiatric and cognitive impairment, including learning and memory deficits. The study of cognitive impairment in the currently most suitable experimental animal model of MS, experimental autoimmune encephalomyelitis (EAE), constitutes a very valuable tool to translate ultimately into clinical a better diagnosis and more effective treatment protocols. In our study, we analyzed the behavioral profile of a murine model of EAE induced by myelin oligodendrocyte glycoprotein peptide (MOG35-55) which develops a relapsing-remitting course. In the early neuroinflammatory phase of the disease, i.e. 19-21 days post immunization (dpi), EAE mice exhibited deficits in motor coordination/skill learning (Rotarod test), and spatial working memory (spontaneous alternation in Y-maze), as well as depressive symptoms (tail suspension test) and anxiety-like behavior (elevated plus-maze). EAE mice did not yet show object recognition memory impairments, suggesting that reference memory was not altered in this phase. However, from 33-35 dpi until late phases (49-52 dpi), independently of clinical score, EAE mice exhibited a memory decline showing lower discrimination index in the object recognition test. EAE late phase was also characterized by motor coordination and spatial working memory impairments as well as higher anxiety-like behavior. Overall, these data demonstrates a differential pattern of gradual cognitive dysfunctions during the relapsing-remitting EAE course that could help to understand the development of progressive cognitive decline in MS patients. Funding: Andalusian Regional Ministries of Economy, Innovation, Science and Employment (SEJ-1863; CTS643) and of Health (PI-0234-2013; Nicola´s Monardes Programme).Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

What role does the LPA1 receptor play in regulating emotional-like behaviours?

The LPA1 receptor is one of the six characterized G protein-coupled receptors (LPA1–6) through which lysophosphatidic acid acts as an intercellular signalling molecule. It has been proposed that this receptor has a role in controlling anxiety-like behaviours and in the detrimental consequences of stress. In general, the neurobiological mechanism of fear extinction is strikingly similar to that of the adaptative stress response (distress regulation), sharing similar neuroanatomical, neuroendocrine, and neurochemical basis. Inadequate control of the stress response could precipitate or provoke anxiety disorders. In this context, we tried to elucidate the LPA1 receptor involvement in emotional regulation. For this purpose, we first examined fear extinction, a type of emotional regulation, in normal wild-type (wt) and maLPA1-null mice using two different extinction procedures (cued fear extinction and contextual fear extinction). Additionally, to study the role of the LPA1 receptor in the absence of developmental abnormalities induced by its permanent loss, the effect of the LPA1 antagonist Ki16425 administration was examined in contextual fear extinction on wild-type mice. Next, we studied the consequences of the absence of the LPA1 receptor in two key areas involved in emotional regulation, characterizing the structure and GABAergic composition of the medial prefrontal cortex (mPFC) and the amygdala by immunohistochemical detection of neuron specific nuclear protein (NeuN), GABA-positive cells and calcium-binding proteins (calretinin (CR), parvalbumin (PV), and calbindin (CB)). Lastly, we examined the corticosterone response and the expression of a marker of neuronal activity, c-Fos protein, in the amygdala and the mPFC after acute stress. Our results revealed that lack of the LPA1-receptor induces exaggerated amygdala reactivity and endocrine responses to emotional stimuli (e.g., an acute episode of stress), revealing a role of the LPA1 receptor in regulating emotional-like behaviours. Considering that a reduction of GABAergic inhibitory control in the amygdala may be a common mechanism to generate a heightened emotional state, the abnormal emotional response reported in LPA1-null mice could be explained, at least in part, by a significant reduction of GABAérgic composition of the amygdala observed in these animals. Taking together, the LPA1 receptor is involved in emotional behaviours and in the anatomical integrity of the corticolimbic circuit, the deregulation of which may be a susceptibility factor for anxiety disorders and a potential therapeutic target for the treatment of these diseases.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Lysophosphatidic acid-induced increase in adult hippocampal neurogenesis facilitates the forgetting of cocaine-contextual memory

Author manuscriptErasing memories of cocaine-stimuli associations might have important clinical implications for addiction therapy. Stimulating hippocampal plasticity by enhancing adult hippocampal neurogenesis (AHN) is a promising strategy because the addition of new neurons may not only facilitate new learning but also modify previous connections and weaken retrograde memories. To investigate whether increasing AHN prompted the forgetting of previous contextual cocaine associations, mice trained in a cocaine-induced conditioned place preference (CPP) paradigm were administered chronic intracerebroventricular infusions of lysophosphatidic acid (LPA, an endogenous lysophospholipid with pro-neurogenic actions), ki16425 (a LPA1/3 receptor antagonist), or a vehicle solution, and they were tested 23 days later for CPP retention and extinction. The results of immunohistochemical experiments showed that the LPA-treated mice exhibited reduced long-term CPP retention and an ~two-fold increase in the number of adult-born hippocampal cells that differentiated into mature neurons. Importantly, mediation analyses confirmed a causal role of AHN in reducing CPP maintenance. In contrast, the ki16425-treated mice displayed aberrant responses, with initially decreased CPP retention that progressively increased across the extinction sessions, leading to no effect on AHN. The pharmacological treatments did not affect locomotion or general exploratory or anxiety-like responses. In a second experiment, normal and LPA1 receptor-deficient mice were acutely infused with LPA, which revealed that LPA1-mediated signaling was required for LPA-induced proliferative actions. These results suggest that the LPA/LPA1-pathway acts as a potent in vivo modulator of AHN and highlight the potential usefulness of pro-AHN strategies to treat aberrant cognition in those addicted to cocaine.This study was funded by grants from the Spanish Ministry of Economy and Competitiveness (Agencia Estatal de Investigación), which is cofunded by the European Research Development Fund AEI/FEDER, UE- (PSI2013-44901-P and PSI2017-82604-R to LJS and PSI2015-73156-JIN to ECO); by the National System of Health-Instituto de Salud Carlos III, which is co-funded by AEI/FEDER, UE (Red de Trastornos Adictivos; RD16/0017/0001 to FRdF); and by the Andalusian R&D&I Programme, Regional Ministry of Economy and Knowledge (PAIDI CTS643 to GET). DLGM and RDMF hold FPU grants from the Spanish Ministry of Education, Culture and Sports (FPU13/04819 and FPU14-01610, respectively). CRV received a ‘Plan Propio’ grant from the University of Malaga. FJP and AS hold ‘Miguel Servet’ grants (CP14/00212 and CP14/00173, respectively) from the National System of Health-Instituto de Salud Carlos III, which is co-funded by AEI/FEDER, UE. FRdF and GET are supported by Nicolas Monardes Programme, from the Andalusian Regional Ministry of Health. ECO holds a ‘Jóvenes Investigadores’ grant (code: PSI2015- 73156-JIN) from the Spanish Ministry of Economy and Competitiveness (Agencia Estatal de Investigación) which is co-funded by the European Research Development Fund (AEI/FEDER, UE)