ABSTRACT
Abstract Background Smoking dependence is a chronic disease and a public health problem. The neurobiology of nicotine addiction can explain smoking behavior. This system has genetic variability that has been associated with vulnerability to dependence. Genetic variability in the neurobiology of smoking can help to understand why individuals exposed to drugs may or may not become addicted. Objective This study aims to address genetic variability in the neurobiology of smoking addiction with a focus on polymorphic genes related to the nicotinic response and the dopaminergic reward pathway. Method This work involved a search of the main scientific research on genetic variability in the neurobiology of smoking and its effects on smoking behavior. One hundred and five studies were selected, most of which highlighted polymorphisms in the genes of nicotinic receptors, dopamine receptors, and nicotine metabolism. Results The majority of studies have focused on genes related to the activation of the dopaminergic reward system by nicotine. Combinations between different polymorphisms were also highlighted, showing that interactions can determine a genetic profile of predisposition to smoking addiction. Additionally, gender and ethnicity were identified as relevant factors. Conclusion Knowledge of the genetic bases involved in the individual response to smoking can enable a better understanding of inter-individual differences in smoking behavior, and contribute to improving the treatment of addiction.
Resumo Introdução A dependência nicotínica é uma doença crônica e um problema de saúde pública. O comportamento tabágico pode ser explicado pela neurobiologia da adição, cujas variações genéticas têm sido associadas à dependência. A variabilidade genética na neurobiologia do tabagismo pode ajudar a entender por que indivíduos expostos a drogas podem ou não se tornar viciados. Objetivo Este estudo tem como objetivo abordar a variabilidade genética na neurobiologia do tabagismo com foco em genes polimórficos relacionados à resposta nicotínica e à via de recompensa dopaminérgica. Método Uma pesquisa foi realizada nas principais bases de dados científicos sobre a variabilidade genética na neurobiologia do tabagismo e seus efeitos no comportamento do tabagismo. 105 estudos foram selecionados, em sua maioria destacando polimorfismos nos genes de receptores nicotínicos, receptores de dopamina e de metabolismo da nicotina. Resultados A maioria dos estudos concentrou-se em genes relacionados à ativação do sistema de recompensa dopaminérgico pela nicotina. Determinadas combinações entre genótipos de diferentes polimorfismos também se destacaram, mostrando que interações gênicas podem determinar um perfil genético de predisposição ao tabagismo. Além disso, gênero e etnia foram identificados como fatores relevantes. Conclusão O conhecimento das bases genéticas envolvidas na resposta individual ao tabagismo pode permitir uma melhor compreensão das diferenças interindividuais no comportamento tabágico e contribuir para melhoria dos tratamentos disponíveis para a dependência.
Subject(s)
Humans , Male , Female , Tobacco Use Disorder , Genetic Variation , Behavior , Genetic Predisposition to Disease , Nicotine , Polymorphism, Genetic , Receptors, Dopamine , Receptors, Nicotinic , Gender IdentityABSTRACT
Exposure to the hight-fat diet may alter the control of food intake promoting hyperphagia and obesity. The objective of this study was to investigate the effects of this diet on dopamine receptors (drd1 and drd2), proopiomelanocortin (pomc), neuropeptideY (npy) genes expression, and preference food in adult rats. Wistar female rats were fed a hight-fat or control diet during pregnancy and lactation. The offspring were allocated into groups: Lactation - Control (C) and High-fat (H). Post-weaning Control Control (CC), offspring of mothers C, fed a control diet after weaning; Control Hight-fat (CH), offspring of mothers C, fed a hight-fat diet after weaning; Hight-fat Control (HC), offspring of mothers H, fed with control diet after weaning; and Hight-fat Hight-fat (HH), offspring of mothers H, fed a H diet after weaning. The groups CH and HH presented greater expression of drd1 in comparison to the CC. The drd2 of CH and HC presented higher gene expression than did CC. HH presented higher pomc expression in comparison to the other groups. HC also presented greater expression in comparison to CH. The npy of HH presented greater expression in relation to CH and HC. HH and HC have had a higher preference for a high-fat diet at 102º life's day. The high-fat diet altered the gene expression of the drd1, drd2, pomc and npy, and influencing the food preference for high-fat diet.
A exposição à dieta hiperlipídica pode alterar o controle da ingestão de alimentos, promovendo hiperfagia e obesidade. O objetivo deste estudo foi investigar os efeitos dessa dieta sobre a expressão gênica dos receptores de dopamina (drd1 e drd2), da proopiomelanocortina (pomc) e neuropeptídeo Y (npy), e preferência alimentar em ratos adultos. Ratas Wistar foram alimentadas com uma dieta hiperlipídica ou controle durante a gestação e lactação. Os descendentes foram alocados em grupos: Lactação Controle (C) e Hiperlipídica (H). Pós-desmame - Controle Controle (CC), descendentes das genitoras do grupo controle e alimentados com dieta controle após o desmame; Controle Hiperlipídica (CH), descendentes das genitoras do grupo controle e alimentados com dieta hiperlipídica após o desmame; Hiperlipídica Controle (HC), descendentes das genitoras do grupo hiperlipídica e alimentados com dieta controle após o desmame; Hiperlipídica Hiperlipídica (HH), descendentes das genitoras do grupo hiperlipídica e alimentados com dieta hiperlipídica após o desmame. Os grupos CH e HH apresentaram maior expressão de drd1 em comparação ao CC. O drd2 de CH e HC apresentou maior expressão gênica que o CC. HH apresentou maior expressão de pomc em comparação com os outros grupos. O HC também apresentou maior expressão de pomc em comparação ao CH. O npy do HH apresentou maior expressão em relação ao CH e HC. HH e HC tiveram uma preferência maior por uma dieta rica em gordura no 102º dia de vida. A dieta hiperlipídica alterou a expressão gênica dos drd1, drd2, pomc e npy e influenciou na preferência alimentar pela dieta hiperlipídica.
Subject(s)
Animals , Female , Pregnancy , Rats , Pro-Opiomelanocortin/genetics , Diet, High-Fat/adverse effects , Body Weight , Neuropeptide Y/genetics , Gene Expression , Receptors, Dopamine/genetics , Rats, Wistar , Food PreferencesABSTRACT
Dentre os sistemas neurais responsáveis pela ingestão dos alimentos, destaca-se a via dopaminérgica mesolímbica que, através da liberação de dopamina nos núcleos de accumbens, desperta prazer e motivação para recompensas químicas e naturais. Esta via de recompensa age através dos receptores dopaminérgicos transmembranares, que variam de DRD1 a DRD5. Desta forma, considerando os efeitos prazerosos despertados pela ingestão alimentar, é plausível que variações genéticas em genes do sistema dopaminérgico possam ter um papel na arquitetura genética da obesidade. Este estudo tem como objetivo realizar uma revisão narrativa da literatura sobre a influência de variantes genéticas nos receptores dopaminérgicos em fenótipos relacionados com a obesidade. Em conjunto, os principais achados desta revisão indicaram que os genes codificadores dos receptores DRD2 e DRD4 possam ser os mais relevantes no contexto da obesidade e fenótipos relacionados. No entanto, a obesidade é uma doença complexa e multifatorial e novos estudos são ainda necessários para uma melhor compreensão do impacto da dopamina nos desfechos relacionado à obesidade. É importante também destacar que esses efeitos podem ser específicos para subgrupos de pacientes e que outros fatores, além das variantes genéticas, devem ser considerados. (AU)
Among the neural systems responsible for food ingestion, the mesolimbic dopaminergic pathway stands out by eliciting pleasure and motivation for chemical and natural rewards through the release of dopamine in the nucleus accumbens. This reward pathway is regulated by transmembrane dopaminergic receptors, which range from DRD1 to DRD5. Thus, considering the pleasurable effects aroused by food intake, it is plausible that genetic variations in genes of the dopaminergic system may have a role in the genetic architecture of obesity. This study aims to conduct a narrative review of the literature on the influence of genetic variants of dopaminergic receptors on obesity-related phenotypes. Taken together, the main findings of this review indicated that the genes encoding the DRD2 and DRD4 receptors may be the most relevant in the context of obesity and related phenotypes. However, obesity is a complex and multifactorial disease and new studies are still being conducted to better understand the impact of dopamine on obesity-related outcomes. It is also important to note that these effects can be specific to subgroups of patients and that other factors, in addition to genetic variants, must be considered. (AU)
Subject(s)
Dopamine , Receptors, Dopamine , Feeding Behavior , Obesity , Protein Serine-Threonine KinasesABSTRACT
A number of specific genetic variants including gene mutations and single nucleotide variations have been identified in genomewide association studies of autism spectrum disorder (ASD). ASD phenotypes in individuals carrying specific genetic variations are manifest mostly in a heterozygous state. Furthermore, individuals with most genetic variants show incomplete penetrance and phenotypic variability, suggesting that non-genetic factors are also involved in developing ASD. However, the mechanisms of how genetic and environmental factors interactively promote ASD are not clearly understood. In the present study, we investigated whether early-life stress (ELS) in D2 dopamine receptor heterozygous knockout (D2(+/−)) mice induces ASD-like symptoms. To address that, we exposed D2 heterozygous pups to maternal separation stress for 3 h daily for 13 days beginning on postnatal day 2. D2(+/−) adult mice that had experienced ELS exhibited impaired sociability in the three-chamber test and home-cage social interaction test and increased grooming behavior, whereas wildtype littermates exposed to ELS did not show those phenotypes. ELS-exposed D2(+/−) mice had decreased levels of BDNF, TrkB, phospho-ERK1/2 and phospho-CREB in the dorsal striatum. Administration of the TrkB agonist 7,8-dihydroxyflavone (7,8-DHF) to ELS-exposed D2(+/−) mice rescued the sociability deficits and repetitive behavior. In contrast, behavioral rescue by 7,8-DHF in ELS-exposed D2(+/−) mice was blocked when TrkB expression in the dorsal striatum was locally inhibited by the injection of TrkB-siRNA. Together, our results suggest that the interaction between ELS and defective D2 gene function promotes autistic-like behaviors by downregulating the BDNF-TrkB pathway in the dorsal striatum.
Subject(s)
Adult , Animals , Humans , Mice , Autism Spectrum Disorder , Brain-Derived Neurotrophic Factor , Down-Regulation , Genetic Variation , Grooming , Interpersonal Relations , Penetrance , Phenotype , Receptor, trkB , Receptors, DopamineABSTRACT
Antipsychotic-induced weight gain (AIWG) is a common adverse effect of this treatment, particularly with second-generation antipsychotics, and it is a major health problem around the world. We aimed to review the progress of pharmacogenetic studies on AIWG in the Chinese population to compare the results for Chinese with other ethnic populations, identify the limitations and problems of current studies, and provide future research directions in China. Both English and Chinese electronic databases were searched to identify eligible studies. We determined that > 25 single-nucleotide polymorphisms in 19 genes have been investigated in association with AIWG in Chinese patients over the past few decades. HTR2C rs3813929 is the most frequently studied single-nucleotide polymorphism, and it seems to be the most strongly associated with AIWG in the Chinese population. However, many genes that have been reported to be associated with AIWG in other ethnic populations have not been included in Chinese studies. To explain the pharmacogenetic reasons for AIWG in the Chinese population, genome-wide association studies and multiple-center, standard, unified, and large samples are needed.
Subject(s)
Humans , Antipsychotic Agents , Asian People , Genetics , China , Genome-Wide Association Study , Genotype , Lipid Metabolism , Genetics , Neurosecretory Systems , Pharmacogenomic Testing , Polymorphism, Single Nucleotide , Receptors, Adrenergic , Genetics , Receptors, Dopamine , Genetics , Receptors, Histamine , Genetics , Receptors, Serotonin , Genetics , Weight Gain , GeneticsABSTRACT
Limonene is a cyclic terpene found in citrus essential oils and inhibits methamphetamine-induced locomotor activity. Drug dependence is a severe neuropsychiatric condition that depends in part on changes in neurotransmission and neuroadaptation, induced by exposure to recreational drugs such as morphine and methamphetamine. In this study, we investigated the effects of limonene on the psychological dependence induced by drug abuse. The development of sensitization, dopamine receptor supersensitivity, and conditioned place preferences in rats was measured following administration of limonene (10 or 20 mg/kg) and methamphetamine (1 mg/kg) for 4 days. Limonene inhibits methamphetamine-induced sensitization to locomotor activity. Expression of dopamine receptor supersensitivity induced by apomorphine, a dopamine receptor agonist, was significantly reduced in limonene-pretreated rats. However, there was no significant difference in methamphetamine-induced conditioned place preferences between the limonene and control groups. These results suggest that limonene may ameliorate drug addiction-related behaviors by regulating postsynaptic dopamine receptor supersensitivity.
Subject(s)
Animals , Rats , Apomorphine , Citrus , Dopamine Agonists , Dopamine , Methamphetamine , Morphine , Motor Activity , Oils, Volatile , Receptors, Dopamine , Illicit Drugs , Substance-Related Disorders , Synaptic TransmissionABSTRACT
G protein-coupled receptors (GPCRs) are membrane receptors whose agonist-induced dynamic conformational changes trigger heterotrimeric G protein activation, followed by GRK-mediated phosphorylation and arrestin-mediated desensitization. Cytosolic regions of GPCRs have been studied extensively because they are direct contact sites with G proteins, GRKs, and arrestins. Among various cytosolic regions, the role of helix 8 is least understood, although a few studies have suggested that it is involved in G protein activation, receptor localization, and/or internalization. In the present study, we investigated the role of helix 8 in dopamine receptor signaling focusing on dopamine D1 receptor (D1R) and dopamine D2 receptor (D2R). D1R couples exclusively to Gs, whereas D2R couples exclusively to Gi. Bioinformatic analysis implied that the sequences of helix 8 may affect GPCR-G protein coupling selectivity; therefore, we evaluated if swapping helix 8 between D1R and D2R changed G protein selectivity. Our results suggest that helix 8 is not involved in D1R-Gs or D2R-Gi coupling selectivity. Instead, we observed that D1R with D2R helix 8 or D1R with an increased number of hydrophobic residues in helix 8 relative to wild-type showed diminished β-arrestin-mediated desensitization, resulting in increased Gs signaling.
Subject(s)
Arrestin , Arrestins , Computational Biology , Cytosol , Dopamine , Family Characteristics , GTP-Binding Proteins , Membranes , Phosphorylation , Receptors, Dopamine D1 , Receptors, Dopamine D2 , Receptors, DopamineABSTRACT
Uma das principais dificuldades enfrentadas na dependência à cocaína está relacionada aos sintomas de abstinência, como ansiedade, desejo e irritabilidade. Estes efeitos podem durar meses ou anos após a interrupção do consumo prolongado, fazendo com que o indivíduo volte a procurá-la. Os efeitos recompensadores da cocaína levam a alterações neurobiológicas do sistema mesocorticolímbico dopaminérgico, que se origina na área tegmental ventral e se projeta para o núcleo accumbens, e córtex pré-frontal, áreas intimamente ligadas ao desenvolvimento da dependência. Esses neurônios dopaminérgicos recebem estímulos dos neurônios colinérgicos que contribuem para os aspectos cognitivos da dependência. Devido à complexidade neurobilógica envolvida durante a abstinência, pouco se sabe sobre as alterações no sistema colinérgico muscarínico durante este período no encéfalo, objetivo deste estudo. Para tal, camundongos machos adultos Swiss-Webster foram submetidos à cocaína em padrão agudo em binge (3×30 mg/kg/dia) e cronicamente por escalonamento de dose em binge por 14 dias (3×15 mg/kg/dia nos dias 1-4; 3×20 mg/kg/dia nos dias 5-8; 3×25 mg/kg/dia nos dias 9-12; e 3×30 mg/kg/dia nos dias 13 e 14). A atividade locomotora de cada animal foi avaliada em campo aberto (CA), onde permaneceram no aparato por 60 minutos entre cada administração. Após o período de exposição os animais permaneceram 14 dias em abstinência, a fim de avaliar a ansiedade no labirinto em cruz elevado (LCE). Em seguida os animais foram eutaniasiados, sendo o córtex pré-frontal (CPF), o estriado e o hipocampo dissecados e armazenados a -80ºC para a análise dos receptores dopaminérgicos D1 e D2, receptores colinérgicos muscarínicos M1, M2, M3, M4 e M5 (mAChRs) e moléculas colinérgicas (acetilcolinesterase, AChE; colina acetiltransferase, ChAT e transportador vesicular de acetilcolina, VAChT) por Western Blotting (n=6). Os resultados comportamentais mostraram maior atividade locomotora nos animais tratados com cocaína no tratamento agudo ou crônico, quando comparado ao basal. Mais ainda, a sensibilização comportamental foi detectada a partir do segundo dia de administração de cocaína. No teste de LCE, realizado 14 dias após a interrupção da administração de cocaína, não foi observada diferença estatística entre os animais previamente expostos à cocaína e grupo controle. No CPF observou-se diminuição de D2R, M1 mAChRs e aumento M2 e M4 mAChRs no tratamento agudo; no tratamento crônico houve diminuição de M1 e M5 mAChRs e ChAT. No estriado observou-se aumento de D1R, M1 e M2 mAChRs, ChAT no tratamento agudo; e aumento D1R, VAChT, ChAT e diminuição D2R, M1 e M2 mAChRs no tratamento crônico. Já no hipocampo observou-se aumento de D1R, D2R, M2 mAChRs, VAChT e diminuição M1 mAChRs no tratamento agudo; e aumento de D1R, VAChT e diminuição D2R, M1 mAChRs no tratamento crônico. Nossos resultados mostram envolvimento de processo de neuroplasticidade, tanto no sistema dopaminérgico quanto no colinérgico muscarínico, em ambos os protocolos utilizados, mesmo após 14 dias de abstinência
Una de las dificultades enfrentadas en la dependencia de cocaína son los síntomas de abstinencia, como ansiedad, deseo y irritabilidad. Estos efectos pueden durar meses o años después de la interrupción del consumo prolongado, haciendo que el individuo vuelva a consumirlo. Los efectos recompensadores de la cocaína causa alteraciones neurobiológicas del sistema mesocorticolímbico dopaminérgico, que se origina en el área tegmental ventral y se proyecta hacia el núcleo accumbens y córtex pré-frontal, áreas íntimamente ligadas al desenvolvimiento de la dependencia. Esas neuronas dopaminérgicas reciben estímulos de neuronas colinérgicas la cual contribuyen para los aspectos cognitivos de la dependencia. Debido a la complejidad neurobiológica involucrada durante la abstinencia, poco se sabe sobre las alteraciones del sistema colinérgico muscarínico durante este periodo en el encéfalo, objetivo de este estudio. Por tanto, ratones adultos macho Swiss-Webster fueron sometidos a cocaína en dosis padrón agudo en binge (3×30 mg/kg/día) y crónicamente por escalonamiento de dosis en binge por 14 días (3×15 mg/kg/día en los días 1-4; 3×20 mg/kg/día en los días 5-8; 3×25 mg/kg/día en los días 9-12; y 3×30 mg/kg/día en los días 13 e 14). La actividad locomotora de cada animal fue evaluada en el test de campo abierto (CA), donde permanecieron por 60 minutos entre cada administración. Después del periodo de exposición los animales permanecieron 14 días de abstinencia, a fin de evaluar la ansiedad en el labirinto de cruz elevado (LCE). En seguida los animales fueron eutanasiados, donde el córtex pré-frontal (CPF), estriado y hipocampo fueron disecados y almacenados a -80ºC para analizar los receptores dopaminérgicos D1 e D2, receptores colinérgicos muscarínicos M1, M2, M3, M4 y M5 (mAChRs) y moléculas colinérgicas (acetilcolinesterasa, AChE; colina acetiltransferasa, ChAT y transportador vesicular de acetilcolina, VAChT) por Western Blotting (n=6). Los resultados comportamentales mostraron mayor actividad locomotora en los animales tratados con cocaína en tratamiento agudo y crónico, comparado al control. Por otra parte, la sensibilización comportamental fue detectado a partir de segundo día de administración de cocaína. En la prueba de LCE, realizado después de 14 días de interrupción de la administración de cocaína, no fue observado diferencia estadística entre los animales previamente expuestos a la cocaína y el grupo control. En CPF se observó disminución de D2R, M1 mAChRs y aumento de M2 y M4 mAChRs en tratamiento agudo; en el tratamiento crónico mostro disminución de M1 y M5 mAChRs y ChAT. En el estriado se observó aumento de D1R, M1 y M2 mAChRs, ChAT en el tratamiento agudo; aumento D1R, VAChT, ChAT y disminución de D2R, M1 y M2 mAChRs en el tratamiento crónico. Por último, en el hipocampo se observó aumento de D1R, D2R, M2 mAChRs, VAChT y disminución M1 mAChRs en el tratamiento agudo; aumento de D1R, VAChT y disminución D2R, M1 mAChRs en el tratamiento crónico. Nuestros resultados muestran envolvimiento de procesos de neuroplasticidad, tanto en el sistema dopaminérgico como el sistema colinérgico muscarínico, en ambos protocolos utilizados, después de 14 días de abstinencia
Subject(s)
Animals , Male , Mice , Substance Withdrawal Syndrome/drug therapy , Receptors, Cholinergic/analysis , Cocaine/adverse effects , Cholinergic Agents/analysis , Anxiety/classification , Brain/abnormalities , Receptors, Dopamine , Substance-Related Disorders/complicationsABSTRACT
Obesity, an increasingly common problem in modern societies, results from energy intake chronically exceeding energy expenditure. This imbalance of energy can be triggered by the internal state of the caloric equation (homeostasis) and non-homeostatic factors, such as social, cultural, psychological, environmental factors or food itself. Nowadays, positron emission tomography (PET) radiopharmaceuticals have been examined to understand the cerebral control of food intake in humans. Using ¹⁵O–H₂ PET, changes in regional cerebral blood flow (rCBF) coupled to neuronal activity were reported in states of fasting, satiation after feeding, and sensory stimulation. In addition, rCBF in obese subjects showed a greater increase in insula, the primary gustatory cortex. ¹⁸F–fluorodeoxyglucose PET showed higher metabolic activity in postcentral gyrus of the parietal cortex and lower in prefrontal cortex and anterior cingulate cortex in obese subjects. In addition, dopamine receptor (DR) PET demonstrated lower DR availability in obese subjects, which might lead to overeating to compensate. Brain PET has been utilized to reveal the connectivity between obesity and brain. This could improve understanding of obesity and help develop a new treatment for obesity.
Subject(s)
Humans , Brain , Cerebrovascular Circulation , Eating , Electrons , Energy Intake , Energy Metabolism , Fasting , Gyrus Cinguli , Hyperphagia , Neurons , Obesity , Parietal Lobe , Positron-Emission Tomography , Prefrontal Cortex , Radiopharmaceuticals , Receptors, Dopamine , Satiation , Somatosensory CortexABSTRACT
PURPOSE: Sleep deprivation induces depressive symptoms. Dexmedetomidine is a α2-adrenoreceptor agonist and this drug possesses sedative, anxiolytic, analgesic, and anesthetic-sparing effect. In this study, the action of dexmedetomidine on sleep deprivation-induced depressive behaviors was investigated using mice. METHODS: For the inducing of sleep deprivation, the mice were placed inside a water cage containing 15 platforms and filled with water up to 1 cm below the platform surface for 7 days. One day after sleep deprivation, dexmedetomidine at the respective dosage (0.5, 1, and 2 μg/kg) was intraperitoneally treated into the mice, one time per a day during 6 days. Then, forced swimming test and tail suspension test were conducted. Immunohistochemistry for tyrosine hydroxylase (TH), 5-hydroxytryptamine (5-HT; serotonin), tryptophan hydroxylase (TPH) and western blot for D1 dopamine receptor were also performed. RESULTS: Sleep deprivation increased the immobility latency in the forced swimming test and tail suspension test. The expressions of TPH, 5-HT, and D1 dopamine receptor were decreased, whereas, TH expression was increased by sleep deprivation. Dexmedetomidine decreased the immobility latency and increased the expressions of TPH, 5-HT, and D1 dopamine receptor, whereas, HT expression was decreased by dexmedetomidine treatment. CONCLUSIONS: In our results, dexmedetomidine alleviated sleep deprivation-induced depressive behaviors by increasing 5-HT synthesis and by decreasing dopamine production with up-regulation of D1 dopamine receptor.
Subject(s)
Animals , Mice , Blotting, Western , Depression , Dexmedetomidine , Dopamine , Hindlimb Suspension , Immunohistochemistry , Physical Exertion , Receptors, Dopamine , Serotonin , Sleep Deprivation , Tryptophan Hydroxylase , Tyrosine 3-Monooxygenase , Up-Regulation , WaterABSTRACT
Autism spectrum disorder (ASD) is a heterogeneous group of neurobehavioral disorders characterized by the two core domains of behavioral deficits, including sociability deficits and stereotyped repetitive behaviors. It is not clear whether the core symptoms of ASD are produced by dysfunction of the overall neural network of the brain or that of a limited brain region. Recent studies reported that excessive glutamatergic or dopaminergic inputs in the dorsal striatum induced sociability deficits and repetitive behaviors. These findings suggest that the dorsal striatum plays a crucial role in autistic-like behaviors. The present study addresses whether functional deficits of well-known ASD-related genes in the dorsal striatum also produce ASD core symptoms. This study also examines whether these behavioral changes can be modulated by rebalancing glutamate and/or dopamine receptor activity in the dorsal striatum. First, we found that the siRNA-mediated inhibition of Shank3, Nlgn3, Fmr1, Mecp2, or Tsc1 in the dorsal striatum produced mild to severe behavioral changes in sociability, cognition, and/or repetitive behaviors. The knockdown effects of Mecp2 and Tsc1 on behavioral changes were the most prominent. Next, we demonstrated that behavioral changes induced by striatal inhibition of MeCP2 and TSC1 were rescued by D-cycloserine (an NMDA agonist), fenobam (an mGluR5 antagonist), SCH23390 (a D1 antagonist), and/or ecopipam (a D1 partial antagonist), pharmacological drugs that are known to regulate ASD-like symptoms in animal models. Collectively, these results suggest that the dorsal striatum is a critical brain region that, when dysfunctional, produces the core symptoms of ASD.
Subject(s)
Autism Spectrum Disorder , Brain , Cognition , Glutamic Acid , Models, Animal , N-Methylaspartate , Receptors, DopamineABSTRACT
Cocaine- and amphetamine-regulated transcript (CART) peptide is a widely distributed neurotransmitter expressed in the central nervous systems. Previously, several reports demonstrated that nucleus accumbal-injected CART peptide positively modulated behavioral sensitization induced by psychostimulants and regulated the mesocorticolimbic dopaminergic pathway. It is confirmed that CART peptide exerted inhibitory effect on psychostimulant-enhanced dopamine receptors signaling, Ca2+/calmodulin-dependent kinase signaling and crucial transcription factors expression. Besides modulation of dopamine receptors-related pathways, CART peptide also exhibited elaborated interactions with other neurotransmitter receptors, such as glutamate receptors and γ-aminobutyric acid receptors, which further account for attribution of CART peptide to inhibition of psychostimulant-potentiated locomotor activity. Recently, CART peptide has been shown to have anxiolytic functions on the aversive mood and uncontrolled drug-seeking behaviors following drug withdrawal. Moreover, microinjection of CART peptide has been shown to have an anti-depressant effect, which suggests its potential utility in the mood regulation and avoidance of depression-like behaviors. In this review, we discuss CART pathways in neural circuits and their interactions with neurotransmitters associated with psychostimulant-induced depression.
Subject(s)
Central Nervous System , Depression , Dopamine , Drug-Seeking Behavior , Microinjections , Motor Activity , Neurotransmitter Agents , Phosphotransferases , Receptors, Dopamine , Receptors, Glutamate , Receptors, Neurotransmitter , Transcription FactorsABSTRACT
Orofacial dyskinesia is a condition caused by various diseases in which the tongue, lips, or jaws move involuntarily. Up to now, the exact mechanism for these degenerative changes in the brain remains unknown. Among various hypotheses, the most widely accepted hypothesis is that orofacial dyskinesia is caused by supersensitivity of the dopamine receptors. As a result, metoclopramide, a dopaminergic receptor blocking agent has been chosen as a treatment agent for our study. We used metoclopramide in seven stroke patients who displayed symptoms of orofacial dyskinesia following brain damage and observed an improvement in the symptoms from all patients. This case report represented new therapeutic methods and will aid in the treatment of orofacial dyskinesia.
Subject(s)
Humans , Brain , Dopamine , Dyskinesias , Jaw , Lip , Metoclopramide , Movement Disorders , Receptors, Dopamine , Stroke , TongueABSTRACT
OBJECTIVE: The aim of this study was to examine a possible association between depressive symptoms and a functional polymorphism (rs686) that modulates the regulation of DRD1 gene by miR-504. METHODS: A total of 239 young Colombian subjects were evaluated with the Patient Health Questionnaire-9 (PHQ-9) scale and genotyped for the rs686 polymorphism. A linear regression model, corrected by age and gender, was used. RESULTS: A significant association between the rs686 polymorphism and PHQ-9 scores was found, under a dominant genetic model (p=0.0094). CONCLUSION: These results provide novel evidence about the growing role of inherited variants in binding sites for brain-expressed miRNAs on depressive symptomatology.
Subject(s)
Humans , Binding Sites , Depression , Linear Models , Mental Health , MicroRNAs , Models, Genetic , Neuropsychiatry , Receptors, DopamineABSTRACT
Hemiballismus, a subtype of chorea, is a rare movement disorder, and is most commonly found secondary to stroke. Movements are involuntary, violent, coarse, and have a wide amplitude. There is increasing report of hemiballismus occurring in non-ketotic hyperglycemia. Spontaneous improvements or remissions were observed in many patients, and treatment should be directed towards the cause of hemiballismus. There is no randomized control trial to guide clinicians in deciding the best treatment option when managing hemiballismus. Symptomatic treatment includes the use of drugs such as dopamine receptor blocker and tetrabenazine. Surgical treatment is reserved for severe, persistent, and disabling hemiballismus. This case is of an elderly woman with long standing uncontrolled diabetes who presented with abnormal movement in her left upper limb for 2 months, which resolved slowly with good control of her glucose levels. Treating physicians need to have a high index of suspicion to prevent mismanagement of the condition.
Subject(s)
Aged , Female , Humans , Chorea , Diabetes Mellitus , Dyskinesias , Glucose , Hyperglycemia , Movement Disorders , Receptors, Dopamine , Stroke , Tetrabenazine , Upper ExtremityABSTRACT
Recently, there has been a rise in the number of amphetamine derivatives that serve as substitutes for controlled substances (e.g. amphetamine and methamphetamine) on the global illegal drug market. These substances are capable of producing rewarding effects similar to their parent drug. In anticipation of the future rise of new and similar psychoactive substances, we designed and synthesized four novel amphetamine derivatives with N-benzyl, N-benzylamphetamine HCl (NBNA) substituent on the amine region, 1,4-dioxane ring, ethylenedioxy-amphetamine HCl (EDA), methyl, para-methylamphetamine HCl (PMEA), and naphthalene, 2-(aminopropyl) naphthalene HCl (2-APN) substituents on the phenyl site. Then, we evaluated their abuse potential in the conditioned place preference (CPP) test in mice and self-administration (SA) test in rats. We also investigated the psychostimulant properties of the novel drugs using the locomotor sensitization test in mice. Moreover, we performed qRT-PCR analyses to explore the effects of the novel drugs on the expression of D1 and D2 dopamine receptor genes in the striatum. NBNA, but not EDA, PMEA, and 2-APN, induced CPP and SA in rodents. None of the test drugs have produced locomotor sensitization. qRT-PCR analyses demonstrated that NBNA increased the expression of striatal D1 dopamine receptor genes. These data indicate that NBNA yields rewarding effects, suggesting potential for abuse. Continual observation for the rise of related substances is thus strongly encouraged.
Subject(s)
Animals , Humans , Mice , Rats , Amphetamine , Controlled Substances , Parents , Receptors, Dopamine , Reward , RodentiaABSTRACT
OBJECTIVES: This study was aimed to investigate the association between amisulpride-induced hyperprolactinemia and the Taq1A polymorphism in the D2 dopamine receptor gene (DRD2) in schizophrenic patients. METHODS: The plasma concentrations of prolactin were measured before and after treatment with amisulpride in one hundred and twenty-five schizophrenic patients. The effect of the Taq1A variants of the DRD2 on the risk of amisulpride-induced hyperprolac-tinemia was the main the outcome measure. The genotyping for Taq1A (rs1800497) polymorphism was performed using TaqMan single nucleotide polymorphism (SNP) genotyping assay. RESULTS: There was a significant difference between the prolactin level at baseline and the 6th week after treatment with amisulpride in all the subjects. However, there were no significant correlations between ΔProlactin (the difference between prolactin level at baseline and the 6th week after treatment) and the Taq1A genotypes. CONCLUSIONS: This is the first study to investigate the-correlations between the Taq1A polymorphism and the amisulpride-induced hyperprolactinemia in Korean schizophrenic patients. The current results suggested the further large-scale researches on various SNPs in the DRD2 gene will establish clear goals and provide answers to the unanswered questions described in this study.
Subject(s)
Humans , Dopamine , Genotype , Hyperprolactinemia , Outcome Assessment, Health Care , Plasma , Polymorphism, Single Nucleotide , Prolactin , Receptors, Dopamine , Receptors, Dopamine D2 , SchizophreniaABSTRACT
The aim of the present study was to observe whether dopamine receptor (DR) was involved in the effects of sodium salicylate (SS) on the expressions of N-methyl-D-aspartic acid (NMDA) and γ-aminobutyric acid (GABA) receptors in rat cochlear spiral ganglion neurons (SGNs). Forty-eight hours after primary culture of rat SGNs, immunofluorescence technique was applied to detect expressions of DR1 and DR2, the two subtypes of dopamine receptors. Western blot was performed to assess NMDA receptor NR1 subunit and GABAreceptor subunit α2 (GABRα2) protein expressions in the SGNs after the treatments of SS alone or in combination with DR antagonists. The results demonstrated that: (1) The DR1 and DR2 were expressed in the bodies and axons of the SGN; (2) After the treatment with SS, the surface protein expressions of GABRα2 and NR1 were decreased by 44.69% and 21.57%, respectively, while the total protein expressions showed no significant changes; (3) Neither SS + SCH23390 (DR1 antagonist) group nor SS + Eticlopride (DR2 antagonist) group showed significant differences in GABRα2 and NR1 surface protein expressions compared with the control group. These results suggest that SS regulates the surface GABAand NMDA receptors trafficking on SGN, and the mechanism may involve DR mediation.
Subject(s)
Animals , Rats , Benzazepines , Pharmacology , Cells, Cultured , Cochlea , Cell Biology , Neurons , Receptors, Dopamine , Metabolism , Receptors, GABA-A , Metabolism , Receptors, N-Methyl-D-Aspartate , Metabolism , Sodium Salicylate , Toxicity , Spiral GanglionABSTRACT
Type A γ-aminobutyric acid receptors (GABAAR) and N-methyl-D-aspartate receptors (NMDAR) are the major inhibitory and excitatory receptors in the central nervous system, respectively. Co-expression of the receptors in the synapse may lead to functional influence between receptors, namely receptor interaction. The interactions between GABAAR and NMDAR can be either positive or negative. However, the mechanisms of interaction between the two receptors remain poorly understood, and potential mechanisms include (1) through a second messenger; (2) by receptors trafficking; (3) by direct interaction; (4) by a third receptor-mediation. Dopamine is the most abundant catecholamine neurotransmitter in the brain, and its receptors, dopamine receptors (DR) can activate multiple signaling pathways. Earlier studies on the interaction between DR and GABAAR/NMDAR have shown some underlying mechanisms, suggesting that DR could mediate the interaction between GABAAR and NMDAR. This paper summarized some recent progresses in the studies of the interaction between DR and NMDAR/GABAAR, providing a further understanding on the interaction between NMDAR and GABAAR mediated by DR.
Subject(s)
Animals , Dopamine , Neurotransmitter Agents , Receptors, Dopamine , Receptors, GABA-A , Receptors, N-Methyl-D-Aspartate , Signal Transduction , SynapsesABSTRACT
Adenylyl cyclase type-5 (AC5) is preferentially expressed in the dorsal striatum. Recently, we reported that AC5 knockout (KO) mice preferred food pellets carrying an olfactory cue produced by AC5 KO mice during food consumption (AC5 KO pellets) over food pellets that had been taken by wildtype (WT) mice. In the present study, we demonstrated that whisker trimming on the right side of the face but not the left in AC5 KO mice blocked the behavioral preference for AC5 KO pellets. Conversely, whisker trimming on the right but not the left in WT mice induced a behavioral preference for AC5 KO pellets. Mice lacking D2 dopamine receptor (D2 KO mice) also showed a behavioral preference for AC5 KO pellets. In D2 mice, whisker trimming on the right side of the face but not the left blocked a behavioral preference for AC5 KO food pellets. AC5 KO mice had increased level of phospho-CaMKIIα in the dorsal striatum, and WT mice with whiskers cut on either side also showed increased p-CaMKIIα level in the dorsal striatum. The siRNA-mediated inhibition of CaMKIIα in the dorsal striatum in either the right or the left hemisphere in AC5 KO mice and D2 KO mice blocked the behavioral preference for AC5 KO pellets. However, behavioral changes induced by this inhibition on each side showed asymmetrical time courses. These results suggest that an unconditioned behavioral preference for specific food pellets can be switched on or off based on the balance of states of neural activity in the dorsal striatum regulated by a signaling pathway centered on AC5 and D2 and the sensory inputs of whiskers from the right side of the face.