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7. Overexpression of [alpha]3/[alpha]5/[beta]4 nicotinic receptor subunits modifies impulsive-like behavior.

Author

Viñals X, Molas S, Gallego X, Fernández-Montes RD, Robledo P, Dierssen M, and Maldonado R

Abstract

Recent studies have revealed that sequence variants in genes encoding the [alpha]3/[alpha]5/[beta]4 nicotinic acetylcholine receptor subunits are associated with nicotine dependence. In this study, we evaluated two specific aspects of executive functioning related to drug addiction (impulsivity and working memory) in transgenic mice over expressing [alpha]3/[alpha]5/[beta]4 nicotinic receptor subunits. Impulsivity and working memory were evaluated in an operant delayed alternation task, where mice must inhibit responding between 2 and 8s in order to receive food reinforcement. Working memory was also evaluated in a spontaneous alternation task in an open field. Transgenic mice showed less impulsive-like behavior than wild-type controls, and this behavioral phenotype was related to the number of copies of the transgene. Thus, transgenic Line 22 (16-28 copies) showed a more pronounced phenotype than Line 30 (4-5 copies). Overexpression of these subunits in Line 22 reduced spontaneous alternation behavior suggesting deficits in working memory processing in this particular paradigm. These results reveal the involvement of [alpha]3/[alpha]5/[beta]4 nicotinic receptor subunits in working memory and impulsivity, two behavioral traits directly related to the vulnerability to develop nicotine dependence. [ABSTRACT FROM AUTHOR]

Published
2012
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8. Identification of novel driver risk genes in CNV loci associated with neurodevelopmental disorders.

Author

Azidane S, Gallego X, Durham L, Cáceres M, Guney E, and Pérez-Cano L

Subjects
Humans, Genome-Wide Association Study, Protein Interaction Maps genetics, DNA Copy Number Variations genetics, Neurodevelopmental Disorders genetics, Genetic Predisposition to Disease, Autism Spectrum Disorder genetics
Abstract

Copy-number variants (CNVs) are genome-wide structural variations involving the duplication or deletion of large nucleotide sequences. While these types of variations can be commonly found in humans, large and rare CNVs are known to contribute to the development of various neurodevelopmental disorders (NDDs), including autism spectrum disorder (ASD). Nevertheless, given that these NDD-risk CNVs cover broad regions of the genome, it is particularly challenging to pinpoint the critical gene(s) responsible for the manifestation of the phenotype. In this study, we performed a meta-analysis of CNV data from 11,614 affected individuals with NDDs and 4,031 control individuals from SFARI database to identify 41 NDD-risk CNV loci, including 24 novel regions. We also found evidence for dosage-sensitive genes within these regions being significantly enriched for known NDD-risk genes and pathways. In addition, a significant proportion of these genes was found to (1) converge in protein-protein interaction networks, (2) be among most expressed genes in the brain across all developmental stages, and (3) be hit by deletions that are significantly over-transmitted to individuals with ASD within multiplex ASD families from the iHART cohort. Finally, we conducted a burden analysis using 4,281 NDD cases from Decipher and iHART cohorts, and 2,504 neurotypical control individuals from 1000 Genomes and iHART, which resulted in the validation of the association of 162 dosage-sensitive genes driving risk for NDDs, including 22 novel NDD-risk genes. Importantly, most NDD-risk CNV loci entail multiple NDD-risk genes in agreement with a polygenic model associated with the majority of NDD cases., Competing Interests: Declaration of interests S.A.C., X.G., L.P.-C., E.G., and L.D. are STALICLA employees, a company advancing treatment candidates for subgroups of affected individuals with NDDs., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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9. Functional characterization of SNPs in CHRNA3/B4 intergenic region associated with drug behaviors.

Author

Flora AV, Zambrano CA, Gallego X, Miyamoto JH, Johnson KA, Cowan KA, Stitzel JA, and Ehringer MA

Subjects
Animals, Cell Differentiation drug effects, Cell Line, Electrophoretic Mobility Shift Assay, Humans, Luciferases genetics, Luciferases metabolism, Nerve Tissue Proteins metabolism, Neurons metabolism, Rats, Receptors, Nicotinic metabolism, Transfection, DNA, Intergenic physiology, Gene Expression Regulation genetics, Nerve Tissue Proteins genetics, Polymorphism, Single Nucleotide genetics, Receptors, Nicotinic genetics
Abstract

The cluster of human neuronal nicotinic receptor genes (CHRNA5/A3/B4) (15q25.1) has been associated with a variety of smoking and drug-related behaviors, as well as risk for lung cancer. CHRNA3/B4 intergenic single nucleotide polymorphisms (SNPs) rs1948 and rs8023462 have been associated with early initiation of alcohol and tobacco use, and rs6495309 has been associated with nicotine dependence and risk for lung cancer. An in vitro luciferase expression assay was used to determine whether these SNPs and surrounding sequences contribute to differences in gene expression using cell lines either expressing proteins characteristic of neuronal tissue or derived from lung cancers. Electrophoretic mobility shift assays (EMSAs) were performed to investigate whether nuclear proteins from these cell lines bind SNP alleles differentially. Results from expression assays were dependent on cell culture type and haplotype. EMSAs indicated that rs8023462 and rs6495309 bind nuclear proteins in an allele-specific way. Additionally, GATA transcription factors appeared to bind rs8023462 only when the minor/risk allele was present. Much work has been done to describe the rat Chrnb4/a3 intergenic region, but few studies have examined the human intergenic region effects on expression; therefore, these studies greatly aid human genetic research as it relates to observed nicotine phenotypes, lung cancer risk and potential underlying genetic mechanisms. Data from these experiments support the hypothesis that SNPs associated with human addiction-related phenotypes and lung cancer risk can affect gene expression, and are potential therapeutic targets. Additionally, this is the first evidence that rs8023462 interacts with GATA transcription factors to influence gene expression., (Published by Elsevier B.V.)

Published
2013
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10. Alternative CHRNB4 3'-UTRs mediate the allelic effects of SNP rs1948 on gene expression.

Author

Gallego X, Cox RJ, Laughlin JR, Stitzel JA, and Ehringer MA

Subjects
Base Sequence, Cell Line, Tumor, Humans, Luciferases genetics, MicroRNAs genetics, 3' Untranslated Regions genetics, Alleles, Gene Expression Regulation genetics, Nerve Tissue Proteins genetics, Polymorphism, Single Nucleotide, Receptors, Nicotinic genetics
Abstract

Common genetic factors strongly contribute to both nicotine, the main addictive component of tobacco, and alcohol use. Several lines of evidence suggest nicotinic acetylcholine receptors as common sites of action for nicotine and alcohol. Specifically, rs1948, a single-nucleotide polymorphism (SNP) located in the CHRNB4 3'-untranslated region (UTR), has been associated to early age of initiation for both alcohol and tobacco use. To determine the allelic effects of rs1948 on gene expression, two rs1948-containing sequences of different lengths corresponding to the CHRNB4 3'-UTR were cloned into pGL3-promoter luciferase reporter vectors. Data obtained showed that the allelic effects of SNP rs1948 on luciferase expression are mediated by the length and species of transcripts generated. In addition, it was found that miR-3157 increased the overall luciferase expression while miR-138, a microRNA known to play a role in neuroadaptation to drug abuse, decreased luciferase expression when compared to basal conditions. These findings demonstrate the importance of SNP rs1948 on the regulation of CHRNB4 expression and provide the first evidence of CHRNB4 down-regulation by miR-138.

Published
2013
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11. Overexpression of the CHRNA5/A3/B4 genomic cluster in mice increases the sensitivity to nicotine and modifies its reinforcing effects.

Author

Gallego X, Molas S, Amador-Arjona A, Marks MJ, Robles N, Murtra P, Armengol L, Fernández-Montes RD, Gratacòs M, Pumarola M, Cabrera R, Maldonado R, Sabrià J, Estivill X, and Dierssen M

Subjects
Analysis of Variance, Animals, Binding Sites, Cerebral Cortex diagnostic imaging, Cerebral Cortex metabolism, Cloning, Molecular, Corpus Striatum metabolism, Dose-Response Relationship, Drug, Female, Gene Expression, Genetic Engineering, Hippocampus diagnostic imaging, Hippocampus metabolism, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Motor Activity drug effects, Nerve Tissue Proteins metabolism, Nicotine adverse effects, Phenotype, Proto-Oncogene Proteins c-fos genetics, Proto-Oncogene Proteins c-fos metabolism, Radionuclide Imaging, Receptors, Nicotinic metabolism, Seizures chemically induced, Self Administration, Multigene Family, Nerve Tissue Proteins genetics, Nicotine pharmacology, Receptors, Nicotinic genetics, Tobacco Use Disorder genetics
Abstract

Nicotinic acetylcholine receptors (nAChRs) are ligand-gated pentameric ion channels that account for the effects of nicotine. Recent genetic studies have highlighted the importance of variants of the CHRNA5/A3/B4 genomic cluster in human nicotine dependence. Among these genetic variants those found in non-coding segments of the cluster may contribute to the pathophysiology of tobacco use through alterations in the expression of these genes. To discern the in vivo effects of the cluster, we generated a transgenic mouse overexpressing the human CHRNA5/A3/B4 cluster using a bacterial artificial chromosome. Transgenic mice showed increased functional α3β4-nAChRs in brain regions where these subunits are highly expressed under normal physiological conditions. Moreover, they exhibited increased sensitivity to the pharmacological effects of nicotine along with higher activation of the medial habenula and reduced activation of dopaminergic neurons in the ventral tegmental area after acute nicotine administration. Importantly, transgenic mice showed increased acquisition of nicotine self-administration (0.015 mg/kg per infusion) and a differential response in the progressive ratio test. Our study provides the first in vivo evidence of the involvement of the CHRNA5/A3/B4 genomic cluster in nicotine addiction through modifying the activity of brain regions responsible for the balance between the rewarding and the aversive properties of this drug.

Published
2012
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12. Transgenic over expression of nicotinic receptor alpha 5, alpha 3, and beta 4 subunit genes reduces ethanol intake in mice.

Author

Gallego X, Ruiz-Medina J, Valverde O, Molas S, Robles N, Sabrià J, Crabbe JC, and Dierssen M

Subjects
Animals, Ethanol administration & dosage, Humans, Locomotion drug effects, Mice, Mice, Transgenic, Motor Activity drug effects, Nerve Tissue Proteins genetics, Receptors, Nicotinic genetics, Reflex, Righting drug effects, Alcohol Drinking genetics, Nerve Tissue Proteins metabolism, Receptors, Nicotinic metabolism
Abstract

Abuse of alcohol and smoking are extensively co-morbid. Some studies suggest partial commonality of action of alcohol and nicotine mediated through nicotinic acetylcholine receptors (nAChRs). We tested mice with transgenic over expression of the alpha 5, alpha 3, beta 4 receptor subunit genes, which lie in a cluster on human chromosome 15, that were previously shown to have increased nicotine self-administration, for several responses to ethanol. Transgenic and wild-type mice did not differ in sensitivity to several acute behavioral responses to ethanol. However, transgenic mice drank less ethanol than wild-type in a two-bottle (ethanol vs. water) preference test. These results suggest a complex role for this receptor subunit gene cluster in the modulation of ethanol's as well as nicotine's effects., (Copyright © 2012. Published by Elsevier Inc.)

Published
2012
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13. Increased opioid dependence in a mouse model of panic disorder.

Author

Gallego X, Murtra P, Zamalloa T, Canals JM, Pineda J, Amador-Arjona A, Maldonado R, and Dierssen M

Abstract

Panic disorder is a highly prevalent neuropsychiatric disorder that shows co-occurrence with substance abuse. Here, we demonstrate that TrkC, the high-affinity receptor for neurotrophin-3, is a key molecule involved in panic disorder and opiate dependence, using a transgenic mouse model (TgNTRK3). Constitutive TrkC overexpression in TgNTRK3 mice dramatically alters spontaneous firing rates of locus coeruleus (LC) neurons and the response of the noradrenergic system to chronic opiate exposure, possibly related to the altered regulation of neurotrophic peptides observed. Notably, TgNTRK3 LC neurons showed an increased firing rate in saline-treated conditions and profound abnormalities in their response to met(5)-enkephalin. Behaviorally, chronic morphine administration induced a significantly increased withdrawal syndrome in TgNTRK3 mice. In conclusion, we show here that the NT-3/TrkC system is an important regulator of neuronal firing in LC and could contribute to the adaptations of the noradrenergic system in response to chronic opiate exposure. Moreover, our results indicate that TrkC is involved in the molecular and cellular changes in noradrenergic neurons underlying both panic attacks and opiate dependence and support a functional endogenous opioid deficit in panic disorder patients.

Published
2010
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14. Susceptibility to stress in transgenic mice overexpressing TrkC, a model of panic disorder.

Author

Amador-Arjona A, Delgado-Morales R, Belda X, Gagliano H, Gallego X, Keck ME, Armario A, and Dierssen M

Subjects
Animals, Behavior, Animal physiology, Circadian Rhythm physiology, Corticosterone physiology, Disease Models, Animal, Hypothalamo-Hypophyseal System physiopathology, Mice, Mice, Transgenic, Panic Disorder physiopathology, Pituitary-Adrenal System physiopathology, Receptor, trkC metabolism, Anxiety genetics, Genetic Predisposition to Disease, Nerve Growth Factors metabolism, Panic Disorder genetics, Receptor, trkC genetics, Stress, Psychological genetics
Abstract

Stressful life events increase the susceptibility for subsequent onset of psychiatric disorders in humans. Previous research has implicated neurotrophins in the onset of some stress-related diseases, such as major depression disorder, post-traumatic stress disorder or panic disorder. We have tested the hypothesis that the neurotrophin-3 (NT-3)/TrkC system is a genetic interface mediating the deleterious effects of stress on the initiation of panic disorder and other pathologies. To this aim, we have analyzed the functionality of HPA axis and the behavioral consequences of different types of stressful conditions in a mouse model of panic disorder, which overexpresses TrkC, the high affinity-receptor for NT-3 (TgNTRK3). Our results reveal that TgNTRK3 mice exhibit an altered circadian corticosterone rhythm that is reversed by clonidine treatment, but normal expression of genes involved in the control of the hypothalamus-pituitary-adrenal (HPA) axis (CRH, GR) and normal corticosterone response to acute and chronic stressors. In contrast, they exhibit an altered pattern of activation of stress-related brain areas and showed enhanced anxiety-related behavior and more passive strategies than wild types under some chronic stress conditions. We conclude that TgNTRK3 mice present differences in their response to stress characterized by subtle changes in the HPA axis, marked changes in acute stress-induced brain activation and altered coping strategies, suggesting a key role of TrkC receptor in the stress neural circuitry and in the behavioral consequences of chronic stress., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published
2010
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15. Association of NTRK3 and its interaction with NGF suggest an altered cross-regulation of the neurotrophin signaling pathway in eating disorders.

Author

Mercader JM, Saus E, Agüera Z, Bayés M, Boni C, Carreras A, Cellini E, de Cid R, Dierssen M, Escaramís G, Fernández-Aranda F, Forcano L, Gallego X, González JR, Gorwood P, Hebebrand J, Hinney A, Nacmias B, Puig A, Ribasés M, Ricca V, Romo L, Sorbi S, Versini A, Gratacòs M, and Estivill X

Subjects
Adolescent, Adult, Animals, Cell Line, Tumor, Computational Biology, Disease Models, Animal, Family, Female, France, Gene Expression Regulation, Germany, Haplotypes, Humans, Mice, Nerve Growth Factors genetics, Polymorphism, Single Nucleotide, Spain, Feeding and Eating Disorders genetics, Nerve Growth Factor genetics, Receptor, trkC genetics, Signal Transduction genetics
Abstract

Eating disorders (EDs) are complex psychiatric diseases that include anorexia nervosa and bulimia nervosa, and have higher than 50% heritability. Previous studies have found association of BDNF and NTRK2 to ED, while animal models suggest that other neurotrophin genes might also be involved in eating behavior. We have performed a family-based association study with 151 TagSNPs covering 10 neurotrophin signaling genes: NGFB, BDNF, NTRK1, NGFR/p75, NTF4/5, NTRK2, NTF3, NTRK3, CNTF and CNTFR in 371 ED trios of Spanish, French and German origin. Besides several nominal associations, we found a strong significant association after correcting for multiple testing (P = 1.04 x 10(-4)) between ED and rs7180942, located in the NTRK3 gene, which followed an overdominant model of inheritance. Interestingly, HapMap unrelated individuals carrying the rs7180942 risk genotypes for ED showed higher levels of expression of NTRK3 in lymphoblastoid cell lines. Furthermore, higher expression of the orthologous murine Ntrk3 gene was also detected in the hypothalamus of the anx/anx mouse model of anorexia. Finally, variants in NGFB gene appear to modify the risk conferred by the NTRK3 rs7180942 risk genotypes (P = 4.0 x 10(-5)) showing a synergistic epistatic interaction. The reported data, in addition to the previous reported findings for BDNF and NTRK2, point neurotrophin signaling genes as key regulators of eating behavior and their altered cross-regulation as susceptibility factors for EDs.

Published
2008
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16. Transgenic mice overexpressing the full-length neurotrophin receptor TrkC exhibit increased catecholaminergic neuron density in specific brain areas and increased anxiety-like behavior and panic reaction.

Author

Dierssen M, Gratacòs M, Sahún I, Martín M, Gallego X, Amador-Arjona A, Martínez de Lagrán M, Murtra P, Martí E, Pujana MA, Ferrer I, Dalfó E, Martínez-Cué C, Flórez J, Torres-Peraza JF, Alberch J, Maldonado R, Fillat C, and Estivill X

Subjects
Animals, Anxiety Disorders genetics, Anxiety Disorders physiopathology, Autonomic Nervous System Diseases genetics, Autonomic Nervous System Diseases metabolism, Autonomic Nervous System Diseases physiopathology, Behavior, Animal physiology, Brain pathology, Cell Count, Cell Proliferation, Disease Models, Animal, Female, Genetic Predisposition to Disease genetics, Locus Coeruleus metabolism, Locus Coeruleus pathology, Locus Coeruleus physiopathology, Male, Mice, Mice, Transgenic, Neural Pathways metabolism, Neural Pathways pathology, Neural Pathways physiopathology, Neuropsychological Tests, Norepinephrine metabolism, Panic Disorder genetics, Panic Disorder physiopathology, Receptor, trkC genetics, Substantia Nigra metabolism, Substantia Nigra pathology, Substantia Nigra physiopathology, Up-Regulation genetics, Anxiety Disorders metabolism, Brain metabolism, Brain physiopathology, Catecholamines metabolism, Neurons metabolism, Panic Disorder metabolism, Receptor, trkC metabolism
Abstract

Accumulating evidence has suggested that neurotrophins participate in the pathophysiology of mood disorders. We have developed transgenic mice overexpressing the full-length neurotrophin-3 receptor TrkC (TgNTRK3) in the central nervous system. TgNTRK3 mice show increased anxiety-like behavior and enhancement of panic reaction in the mouse defense test battery, along with an increase in the number and density of catecholaminergic (tyrosine hydroxylase positive) neurons in locus coeruleus and substantia nigra. Furthermore, treatment of TgNTRK3 mice with diazepam significantly attenuated the anxiety-like behaviors in the plus maze. These results provide evidence for the involvement of TrkC in the development of noradrenergic neurons in the central nervous system with consequences on anxiety-like behavior and panic reaction. Thus, changes in TrkC expression levels could contribute to the phenotypic expression of panic disorder through a trophic effect on noradrenergic neurons in the locus coeruleus. Our results demonstrate that the elevated NT3-TrkC tone via overexpression of TrkC in the brain may constitute a molecular mechanism for the expression of anxiety and anxiety.

Published
2006
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