Neuroproteomics: Unveiling the Molecular Insights of Psychiatric Disorders with a Focus on Anxiety Disorder and Depression.

Anxiety and depression are two of the most common mental disorders worldwide, with a lifetime prevalence of up to 30%. These disorders are complex and have a variety of overlapping factors, including genetic, environmental, and behavioral factors. Current pharmacological treatments for anxiety and depression are not perfect. Many patients do not respond to treatment, and those who do often experience side effects. Animal models are crucial for understanding the complex pathophysiology of both disorders. These models have been used to identify potential targets for new treatments, and they have also been used to study the effects of environmental factors on these disorders. Recent proteomic methods and technologies are providing new insights into the molecular mechanisms of anxiety disorder and depression. These methods have been used to identify proteins that are altered in these disorders, and they have also been used to study the effects of pharmacological treatments on protein expression. Together, behavioral and proteomic research will help elucidate the factors involved in anxiety disorder and depression. This knowledge will improve preventive strategies and lead to the development of novel treatments.

Effects of L-Dopa, SKF-38393, and quinpirole on exploratory, anxiety- and depressive-like behaviors in pubertal female and male mice.

Adolescence is a phase of substantial changes in the brain, characterized by maturational remodeling of many systems. This remodeling allows functional plasticity to adapt to a changing environment. The dopaminergic system is under morphological and physiological changes during this phase. In the present study, we investigated if changes in the dopaminergic tone alter mice behavior in a receptor and sex-specific manner, specifically at the beginning of the puberty period. We administered L-Dopa, SKF-38393 (D1 dopamine receptor agonist), and Quinpirole (D2 dopamine receptor agonist) and tested male and female mice's motor, anxiety- and depressive-like behavior. While females displayed an impaired exploratory drive, males presented an intense depressive-like response. Our results provide insights into the function of dopaminergic development in adolescent behavior and highlight the importance of studies in this time window with male and female subjects.

Early postnatal l-Dopa treatment causes behavioral alterations in female vs. male young adult Swiss mice.

Dopaminergic signaling and neurodevelopment alterations are associated with several neuropsychiatric disorders. Knockout mice for dopamine transporters (DAT) as well as site-specific knockout mice lacking dopaminergic D2 autoreceptors in dopaminergic neurons (DA-D2RKO) display behavioral alterations such as hyperlocomotion and abnormal prepulse inhibition. However, it is possible that dopaminergic imbalances may have different effects during varied neurodevelopmental windows. In our previous study, we observed that elevated levels of dopamine during the perinatal developmental window increased exploratory behavior of juvenile (4-week-old) Swiss female mice and impaired hedonic behavior in males. In this study, we investigated whether these behavioral alterations persist through young adulthood. In order to do so, we administered daily doses of l-Dopa to mice pups beginning from postnatal day 1 (PD1) to PD5. At the age of 8 weeks, we submitted the young adult males and females to the open field test, elevated plus maze, forced swimming test, and sucrose preference test. We observed that augmentation of dopamine levels during the perinatal developmental window increased locomotor behavior in females, but not males. We also observed an increase in anxiety-behavior in females and anxiolytic-like behavior in males. In addition, we observed stress-coping behavior in males and an increase of hedonic behavior in females. Our results show that dopamine signaling is important for behavioral development and that transient imbalances of dopamine levels can cause permanent behavioral alterations - alterations which are different in males than in females. These data may help in better understanding the spectrum of symptoms associated with different neuropsychiatric disorders.

Impairment of motor but not anxiety-like behavior caused by the increase of dopamine during development is sustained in zebrafish larvae at later stages.

Many neuropsychiatric disorders are associated with both dopaminergic (DAergic) and developmental hypotheses. Since DAergic receptors are expressed in the developing brain, it is possible that alterations in dopamine (DA) signaling may impair brain development and consequent behavior. In our previous study, using a zebrafish model, we showed that an increase of DA during the 3 to 5 days postfertilization (dpf) developmental window (an important window for GABAergic neuronal differentiation) affects the motor behavior of 5 dpf larvae. In this study, we set out to determine whether these behavioral alterations were sustained in larvae at older stages (7 and 14 dpf). To test this hypothesis, we chronically treated zebrafish larvae from 3 to 5 dpf with DA. After washing the drug, we recorded and analyzed the first 5 and 30 min of the motor behavior of 5, 7, and 14 dpf subjects. We analyzed mobile episodes, distance traveled, time mobile, distance traveled per mobile episode, time in movement per mobile episode, and distance traveled per time mobile. We showed, once again, that an increase of DA during the 3 to 5 dpf developmental window reduces the number of movement episodes initiated by 5 dpf larvae. We also detected a decrease of other motor behavior parameters in 5 dpf DA-treated larvae. We observed that these alterations are sustained in the 7 dpf larvae. However, we did not see these general locomotor alterations in the 14 dpf larvae. Moreover, we detected a decrease of distance traveled and an increase of time of locomotion per episode in the first 5 min of behavioral analyses in 14 dpf DA-treated larvae. To test if the alterations in the first 5 min were due to anxiety-like behavior, we used a light/dark preference paradigm. We recorded 5dpf, 7dpf, and 14dpf larvae for 5 min and analyzed time of freezing, preference for light or dark, number of entries to the dark, percentage of time in the light. We observed that 5dpf larvae treated with DA showed more freezing, less passages to the dark, and more time spent in the light as compared to their control counterparts. But 7dpf and 14dpf larvae did not show these alterations. Taken overall, therefore, our results suggest that DA does play a role in the development of zebrafish motor behavior, and, furthermore, that some behaviors are more sensitive than others to the effects of DAergic imbalances during development.

l-Dopa treatment during perinatal development leads to different behavioral alterations in female vs. male juvenile Swiss mice.

Alterations in dopaminergic signaling and neurodevelopment are associated with many neuropsychiatric disorders, such as attention deficit and hyperactivity disorder (ADHD), autism, and schizophrenia. Imbalances in dopamine levels during prenatal development are associated with behavioral alterations later in life, like hyperactivity and addiction, and it is possible that dopaminergic imbalances may have diverse effects during different neurodevelopmental windows. In this study, we investigate whether an increase in dopamine levels during the perinatal developmental window affects behavior of juvenile male and female Swiss mice. In order to do so, we intraperitoneally administered daily doses of l-Dopa to mice pups beginning from postnatal day 1 (PD1) to PD5, which increased the levels of dopamine and its metabolite, 3,4-dihydroxyphenylacetic acid (DOPAC), in the striatum of the pups. At the age of 4 weeks, we submitted the juvenile males and females to the open field test, elevated plus maze, forced swimming test, and sucrose preference test. We observed that increase of dopamine levels during the perinatal developmental window increased exploratory behavior in juvenile females, but not males. We observed no changes in anxiety- and depressive-like behaviors. In contrast, we observed that increased dopamine levels during the perinatal period lead to hedonic alterations in juvenile males, but not females. Our results show that dopamine signaling is important for behavioral development and that transient imbalance of dopamine levels causes juvenile behavioral alterations, which are different in males than in females. These data may help in better understanding the spectrum of symptoms associated with different neuropsychiatric disorders.

Dopamine signaling regulates fat content through ß-oxidation in Caenorhabditis elegans.

The regulation of energy balance involves an intricate interplay between neural mechanisms that respond to internal and external cues of energy demand and food availability. Compelling data have implicated the neurotransmitter dopamine as an important part of body weight regulation. However, the precise mechanisms through which dopamine regulates energy homeostasis remain poorly understood. Here, we investigate mechanisms through which dopamine modulates energy storage. We showed that dopamine signaling regulates fat reservoirs in Caenorhabditis elegans. We found that the fat reducing effects of dopamine were dependent on dopaminergic receptors and a set of fat oxidation enzymes. Our findings reveal an ancient role for dopaminergic regulation of fat and suggest that dopamine signaling elicits this outcome through cascades that ultimately mobilize peripheral fat depots.

Molecular medicine: a path towards a personalized medicine.

Psychiatric disorders are among the most common human illnesses; still, the molecular and cellular mechanisms underlying their complex pathophysiology remain to be fully elucidated. Over the past 10 years, our group has been investigating the molecular abnormalities in major signaling pathways involved in psychiatric disorders. Recent evidences obtained by the Instituto Nacional de Ciência e Tecnologia de Medicina Molecular (National Institute of Science and Technology - Molecular Medicine, INCT-MM) and others using behavioral analysis of animal models provided valuable insights into the underlying molecular alterations responsible for many complex neuropsychiatric disorders, suggesting that "defects" in critical intracellular signaling pathways have an important role in regulating neurodevelopment, as well as in pathophysiology and treatment efficacy. Resources from the INCT have allowed us to start doing research in the field of molecular imaging. Molecular imaging is a research discipline that visualizes, characterizes, and quantifies the biologic processes taking place at cellular and molecular levels in humans and other living systems through the results of image within the reality of the physiological environment. In order to recognize targets, molecular imaging applies specific instruments (e.g., PET) that enable visualization and quantification in space and in real-time of signals from molecular imaging agents. The objective of molecular medicine is to individualize treatment and improve patient care. Thus, molecular imaging is an additional tool to achieve our ultimate goal.

Molecular medicine: a path towards a personalized medicine / Medicina molecular: um passo em direção à medicina personalizada

Psychiatric disorders are among the most common human illnesses; still, the molecular and cellular mechanisms underlying their complex pathophysiology remain to be fully elucidated. Over the past 10 years, our group has been investigating the molecular abnormalities in major signaling pathways involved in psychiatric disorders. Recent evidences obtained by the Instituto Nacional de Ciência e Tecnologia de Medicina Molecular (National Institute of Science and Technology - Molecular Medicine, INCT-MM) and others using behavioral analysis of animal models provided valuable insights into the underlying molecular alterations responsible for many complex neuropsychiatric disorders, suggesting that "defects" in critical intracellular signaling pathways have an important role in regulating neurodevelopment, as well as in pathophysiology and treatment efficacy. Resources from the INCT have allowed us to start doing research in the field of molecular imaging. Molecular imaging is a research discipline that visualizes, characterizes, and quantifies the biologic processes taking place at cellular and molecular levels in humans and other living systems through the results of image within the reality of the physiological environment. In order to recognize targets, molecular imaging applies specific instruments (e.g., PET) that enable visualization and quantification in space and in real-time of signals from molecular imaging agents. The objective of molecular medicine is to individualize treatment and improve patient care. Thus, molecular imaging is an additional tool to achieve our ultimate goal.

Os transtornos psiquiátricos estão entre as doenças humanas mais comuns. Os mecanismos celulares e moleculares subjacentes à sua complexa fisiopatologia ainda não estão totalmente esclarecidos. Nosso grupo está envolvido na investigação de anormalidades moleculares nas principais vias de sinalização das doenças psiquiátricas nos últimos 10 anos. Evidências recentemente obtidas pelo Instituto Nacional de Ciência e Tecnologia de Medicina Molecular (INCT-MM), utilizando análise comportamental de modelos animais, forneceram informações valiosas sobre as alterações moleculares subjacentes responsáveis por muitos distúrbios neuropsiquiátricos complexos, sugerindo que os "defeitos" nas vias de sinalização intracelular têm um papel importante na regulação do neurodesenvolvimento, bem como na fisiopatologia e eficácia do tratamento. Recursos do INCT nos permitiram iniciar pesquisas na área de imagem molecular. A imagem molecular é uma disciplina de investigação que visualiza, caracteriza e quantifica processos biológicos que ocorrem em níveis celular e molecular em seres humanos, e em outros sistemas vivos, através dos resultados de imagem dentro da realidade do ambiente fisiológico. A fim de reconhecer alvos, a imagem molecular aplica instrumentos específicos (PET, por exemplo) que permitem a visualização e quantificação em espaço e tempo real dos sinais dos agentes de imagem molecular, fornecendo medições de processos a nível molecular e celular. O objetivo da medicina molecular é individualizar o tratamento e melhorar a assistência ao paciente. Desse modo, a imagem molecular consiste em mais uma ferramenta para atingirmos nosso objetivo final.

Association between tryptophan hydroxylase-2 gene and late-onset depression.

OBJECTIVE: The aim of this study was to examine the association between polymorphisms (SNP) in the tryptophan hydroxylase-2 (TPH2) gene and late-onset depression (LOD) in the Brazilian population. METHODS: We genotyped 8 tag SNPs in the TPH2 gene in 84 outpatients with LOD and 79 individuals belonging to the comparison group to investigate an association between the TPH2 gene and LOD. RESULTS: Our findings suggested an association between tag SNP rs4565946 heterozygous C/T (p = 0.034; χ2 = 6.7; df = 2) and decreased risk of LOD. The tag SNP rs11179000 ancestral homozygous A/A (p = 0.025; χ2 = 7.3; df = 2) and increase risk of LOD and allelic association of ancestral allele A and increase risk of LOD was demonstrated (p = 0.005; χ2 = 7.8; df = 1). CONCLUSION: We found the statistically significant association between two tag SNPs and LOD. Our results support the hypothesis that the TPH2 gene is associated with LOD.

The role of dopaminergic signalling during larval zebrafish brain development: a tool for investigating the developmental basis of neuropsychiatric disorders.

Neurodevelopment depends on intrinsic and extrinsic factors that influence the overall pattern of neurogenesis and neural circuit formation, which has a direct impact on behaviour. Defects in dopamine signalling and brain morphology at a relatively early age, and mutations in neurodevelopmental genes are strongly correlated with several neuropsychiatric disorders. This evidence supports the hypothesis of a neurodevelopmental origin of at least some forms of mental illness. Zebrafish (Danio rerio) has emerged as an important vertebrate model system in biomedical research. The ease with which intrinsic and extrinsic factors can be altered during early development, the relatively conserved dopaminergic circuit organisation in the larval brain, and the emergence of simple sensorimotor behaviours very early in development are some of the appealing features that make this organism advantageous for developmental brain and behaviour research. Thus, examining the impact of altered dopamine signalling and disease related genetic aberrations during zebrafish development presents a unique opportunity to holistically analyse the in vivo biochemical, morphological and behavioural significance of altered dopamine signalling during a crucial period of development using a highly tractable vertebrate model organism. Ultimately, this information will shed new light on potential therapeutic targets for the treatment of schizophrenia and perhaps serve as a paradigm for investigating the neurodevelopmental origin of other psychiatric disorders.

Dopamine D2 receptor activity modulates Akt signaling and alters GABAergic neuron development and motor behavior in zebrafish larvae.

An imbalance in dopamine-mediated neurotransmission is a hallmark physiological feature of neuropsychiatric disorders, such as schizophrenia. Recent evidence demonstrates that dopamine D(2) receptors, which are the main target of antipsychotics, modulate the activity of the protein kinase Akt, which is known to be downregulated in the brain of patients with schizophrenia. Akt has an important role in the regulation of cellular processes that are critical for neurodevelopment, including gene transcription, cell proliferation, and neuronal migration. Thus, it is possible that during brain development, altered Akt-dependent dopamine signaling itself may lead to defects in neural circuit formation. Here, we used a zebrafish model to assess the direct impact of altered dopamine signaling on brain development and larval motor behavior. We demonstrate that D(2) receptor activation acutely suppresses Akt activity by decreasing the level of pAkt(Thr308) in the larval zebrafish brain. This D(2)-dependent reduction in Akt activity negatively regulates larval movement and is distinct from a D(1)-dependent pathway with opposing affects on motor behavior. In addition, we show that D(2)-dependent suppression of Akt activity causes a late onset change in GSK3b activity, a known downstream target of Akt signaling. Finally, altered D(2) receptor signaling, or direct inhibition of Akt activity, causes a significant decrease in the size of the GABAergic neuron population throughout most of the brain. Our observations suggest that D(2) receptor signaling suppresses Akt-GSK3b activity, which regulates GABAergic neuron development and motor behavior.

Association of polymorphisms of the tryptophan hydroxylase 2 gene with risk for bipolar disorder or suicidal behavior.

Bipolar disorder (BD) is a severe psychiatric illness characterized by the occurrence of elevated mood alternating with depressive episodes, having a estimated lifetime prevalence of 0.4-1.6% using DSM-IV criteria. Disturbances of the central serotonergic system has been associated with the pathophysiology of affective disorders and suicidal behavior. Tryptophan hydroxylase 2 (TPH2) which is a rate limiting enzyme in the serotonin synthesis is considered an important candidate gene associated with psychiatric disorders. Our sample consisted of 527 subjects (303 diagnosed with bipolar disorder and 224 healthy controls) which were genotyped for eight tagSNPs (rs4448731, rs4565946, rs11179000, rs7955501, rs10506645, rs4760820, rs1487275 and rs10879357) covering the whole gene of the human TPH2. Statistical analyses were performed using UNPHASED version 3.0.12 and Haploview((R)). Single markers, genotype and haplotype association analysis did not show significant genetic association with bipolar disorder or suicidal behavior. Our findings do not support the association between diagnosis of BD or suicidal behavior and TPH2 polymorphisms.

A review of psychiatric genetics research in the Brazilian population.

OBJECTIVE AND METHOD: A large increase in the number of Brazilian studies on psychiatric genetics has been observed in the 1970's since the first publications conducted by a group of researchers in Brazil. Here we reviewed the literature and evaluated the advantages and difficulties of psychiatric genetic studies in the Brazilian population. CONCLUSION: The Brazilian population is one of the most heterogeneous populations in the world, formed mainly by the admixture between European, African and Native American populations. Although the admixture process is not a particularity of the Brazilian population, much of the history and social development in Brazil underlies the ethnic melting pot we observe nowadays. Such ethnical heterogeneity of the Brazilian population obviously brings some problems when performing genetic studies. However, the Brazilian population offers a number of particular characteristics that are of major interest when genetic studies are carried out, such as the presence of isolated populations. Thus, differences in the genetic profile and in the exposure to environmental risks may result in different interactions and pathways to psychopathology.

A review of psychiatric genetics research in the Brazilian population / Uma revisão sobre a pesquisa genética psiquiátrica na população brasileira

OBJECTIVE AND METHOD: A large increase in the number of Brazilian studies on psychiatric genetics has been observed in the 1970's since the first publications conducted by a group of researchers in Brazil. Here we reviewed the literature and evaluated the advantages and difficulties of psychiatric genetic studies in the Brazilian population. CONCLUSION: The Brazilian population is one of the most heterogeneous populations in the world, formed mainly by the admixture between European, African and Native American populations. Although the admixture process is not a particularity of the Brazilian population, much of the history and social development in Brazil underlies the ethnic melting pot we observe nowadays. Such ethnical heterogeneity of the Brazilian population obviously brings some problems when performing genetic studies. However, the Brazilian population offers a number of particular characteristics that are of major interest when genetic studies are carried out, such as the presence of isolated populations. Thus, differences in the genetic profile and in the exposure to environmental risks may result in different interactions and pathways to psychopathology.

OBJETIVO E MÉTODO: Desde a década de 70, quando os primeiros estudos em genética psiquiátrica conduzidos por um grupo de brasileiros foram publicados, o número de trabalhos realizados no Brasil vem aumentando consideravelmente. Através desta revisão, avaliamos as vantagens e as dificuldades da realização de pesquisas em psiquiatria genética na população brasileira. CONCLUSÃO: A população brasileira é uma das mais heterogêneas do mundo, formada principalmente pela combinação entre populações européia, africana e nativa americana. Apesar de a mistura entre raças não ser uma particularidade da população brasileira, a história e o desenvolvimento social no Brasil ocasionou uma grande miscigenação étnica, a qual é observada atualmente. Devido à heterogeneidade de suas origens, diversos problemas são levantados em estudos genéticos realizados no Brasil. Porém, a população brasileira oferece características particulares para desenvolvimento de pesquisas genéticas, como a presença de populações isoladas. Portanto, diferenças genéticas e exposição a riscos ambientais podem resultar em diferentes interações e caminhos para alterações psicopatológicas.

Decreased expression of DARPP-32 in oral premalignant and malignant lesions.

BACKGROUND: DARPP-32 is a neuronal protein that plays a central role in dopaminergic neurotransmission. Although DARPP-32 may contribute to the pathogenesis of several human malignancies, its expression has never been investigated in oral premalignant and malignant lesions. MATERIALS AND METHODS: DARPP-32 expression was examined using immunohistochemistry in 14 normal oral mucosa, 5 normal lower lip mucosa, 41 oral leukoplakia (OL), 30 oral squamous cell carcinoma (OSCC) and 20 lower lip squamous cell carcinoma (LLSCC) specimens. Differences of its expression between groups were analyzed. RESULTS: OSCC and OL with moderate or severe dysplasia showed lower DARPP-32 expression in relation to normal oral mucosa. LLSCC showed lower DARPP-32 expression than normal lower lip mucosa and OSSC. CONCLUSION: The decreased expression of DARPP-32 in oral premalignant and malignant lesions suggests a tumor suppressor role for this protein in the tumorigenesis of these lesions.