Your search keyword '"Watson, Stanley J."' showing total 25 results

1. Mitochondria DNA copy number, mitochondria DNA total somatic deletions, Complex I activity, synapse number, and synaptic mitochondria number are altered in schizophrenia and bipolar disorder.

Author

Das, Sujan C., Hjelm, Brooke E., Rollins, Brandi L., Sequeira, Adolfo, Morgan, Ling, Omidsalar, Audrey A., Schatzberg, Alan F., Barchas, Jack D., Lee, Francis S., Myers, Richard M., Watson, Stanley J., Akil, Huda, Bunney, William E., and Vawter, Marquis P.

Published

2022

2. Identification of potential blood biomarkers associated with suicide in major depressive disorder.

Author

Mamdani, Firoza, Weber, Matthieu D., Bunney, Blynn, Burke, Kathleen, Cartagena, Preston, Walsh, David, Lee, Francis S., Barchas, Jack, Schatzberg, Alan F., Myers, Richard M., Watson, Stanley J., Akil, Huda, Vawter, Marquis P., Bunney, William E., and Sequeira, Adolfo

Published

2022

3. Optimization and evaluation of fluorescence in situ hybridization chain reaction in cleared fresh-frozen brain tissues.

Author

Kumar, Vivek, Krolewski, David M., Hebda-Bauer, Elaine K., Parsegian, Aram, Martin, Brian, Foltz, Matthew, Akil, Huda, and Watson, Stanley J.

Subjects

FLUORESCENCE in situ hybridization, IN situ hybridization, GLUCOCORTICOID receptors, TISSUES

Abstract

Transcript labeling in intact tissues using in situ hybridization chain reaction has potential to provide vital spatiotemporal information for molecular characterization of heterogeneous neuronal populations. However, large tissue labeling in non-perfused or fresh-frozen rodent and postmortem human samples, which provide more flexible utilization than perfused tissues, is largely unexplored. In the present study, we optimized the combination of in situ hybridization chain reaction in fresh-frozen rodent brains and then evaluated the uniformity of neuronal labeling between two clearing methods, CLARITY and iDISCO+. We found that CLARITY yielded higher signal-to-noise ratios but more limited imaging depth and required longer clearing times, whereas, iDISCO+ resulted in better tissue clearing, greater imaging depth and a more uniform labeling of larger samples. Based on these results, we used iDISCO+-cleared fresh-frozen rodent brains to further validate this combination and map the expression of a few genes of interest pertaining to mood disorders. We then examined the potential of in situ hybridization chain reaction to label transcripts in cleared postmortem human brain tissues. The combination failed to produce adequate mRNA labeling in postmortem human cortical slices but produced visually adequate labeling in the cerebellum tissues. We next, investigated the multiplexing ability of in situ hybridization chain reaction in cleared tissues which revealed inconsistent fluorescence output depending upon the fluorophore conjugated to the hairpins. Finally, we applied our optimized protocol to assess the effect of glucocorticoid receptor overexpression on basal somatostatin expression in the mouse cortex. The constitutive glucocorticoid receptor overexpression resulted in lower number density of somatostatin-expressing neurons compared to wild type. Overall, the combination of in situ hybridization chain reaction with clearing methods, especially iDISCO+, may find broad application in the transcript analysis in rodent studies, but its limited use in postmortem human tissues can be improved by further optimizations. [ABSTRACT FROM AUTHOR]

Published

2021

4. Individual Differences in Cue-Induced Motivation and Striatal Systems in Rats Susceptible to Diet-Induced Obesity.

Author

Robinson, Mike JF, Burghardt, Paul R, Patterson, Christa M, Nobile, Cameron W, Akil, Huda, Watson, Stanley J, Berridge, Kent C, and Ferrario, Carrie R

Subjects

DIFFERENTIAL psychology, OBESITY, MESSENGER RNA, OVERWEIGHT persons, HEDONIC damages

Abstract

Pavlovian cues associated with junk-foods (caloric, highly sweet, and/or fatty foods), like the smell of brownies, can elicit craving to eat and increase the amount of food consumed. People who are more susceptible to these motivational effects of food cues may have a higher risk for becoming obese. Further, overconsumption of junk-foods leading to the development of obesity may itself heighten attraction to food cues. Here, we used a model of individual susceptibility to junk-foods diet-induced obesity to determine whether there are pre-existing and/or diet-induced increases in attraction to and motivation for sucrose-paired cues (ie, incentive salience or 'wanting'). We also assessed diet- vs obesity-associated alterations in mesolimbic function and receptor expression. We found that rats susceptible to diet-induced obesity displayed heightened conditioned approach prior to the development of obesity. In addition, after junk-food diet exposure, those rats that developed obesity also showed increased willingness to gain access to a sucrose cue. Heightened 'wanting' was not due to individual differences in the hedonic impact ('liking') of sucrose. Neurobiologically, Mu opioid receptor mRNA expression was lower in striatal 'hot-spots' that generate eating or hedonic impact only in those rats that became obese. In contrast, prolonged exposure to junk-food resulted in cross-sensitization to amphetamine-induced locomotion and downregulation of striatal D2R mRNA regardless of the development of obesity. Together these data shed light on individual differences in behavioral and neurobiological consequences of exposure to junk-food diets and the potential contribution of incentive sensitization in susceptible individuals to greater food cue-triggered motivation. [ABSTRACT FROM AUTHOR]

Published

2015

5. Tagging Sentence Boundaries in Biomedical Literature.

Author

Hutchison, David, Kanade, Takeo, Kittler, Josef, Kleinberg, Jon M., Mattern, Friedemann, Mitchell, John C., Naor, Moni, Nierstrasz, Oscar, Rangan, C. Pandu, Steffen, Bernhard, Sudan, Madhu, Terzopoulos, Demetri, Tygar, Doug, Vardi, Moshe Y., Weikum, Gerhard, Gelbukh, Alexander, Xuan, Weijian, Watson, Stanley J., and Meng, Fan

Abstract

Identifying sentence boundaries is an indispensable task for most natural language processing (NLP) systems. While extensive efforts have been devoted to mine biomedical text using NLP techniques, few attempts are specifically targeted at disambiguating sentence boundaries in biomedical literature, which has a number of unique features that can reduce the accuracy of algorithms designed for general English genre significantly. In order to increase the accuracy of sentence boundary identification for biomedical literature, we developed a method using a combination of heuristic and statistical strategies. Our approach does not require part-of-speech taggers or training procedures. Experiments with biomedical test corpora show our system significantly outperforms existing sentence boundary determination algorithms, particularly for full text biomedical literature. Our system is very fast and it should also be easily adaptable for sentence boundary determination in scientific literature from non-biomedical fields. [ABSTRACT FROM AUTHOR]

Published

2007

6. Decreased Proliferation of Adult Hippocampal Stem Cells During Cocaine Withdrawal: Possible Role of the Cell Fate Regulator FADD.

Author

García-Fuster, M Julia, Flagel, Shelly B, Mahmood, S Taha, Mayo, Leah M, Thompson, Robert C, Watson, Stanley J, and Akil, Huda

Subjects

CELL proliferation -- Molecular aspects, LABORATORY rats, COCAINE abuse, NEUROPLASTICITY, HIPPOCAMPUS (Brain), STATISTICAL correlation, GENETIC regulation

Abstract

The current study uses an extended access rat model of cocaine self-administration (5-h session per day, 14 days), which elicits several features manifested during the transition to human addiction, to study the neural adaptations associated with cocaine withdrawal. Given that the hippocampus is thought to have an important role in maintaining addictive behavior and appears to be especially relevant to mechanisms associated with withdrawal, this study attempted to understand how extended access to cocaine impacts the hippocampus at the cellular and molecular levels, and how these alterations change over the course of withdrawal (1, 14, and 28 days). Therefore, at the cellular level, we examined the effects of cocaine withdrawal on cell proliferation (Ki-67+ and NeuroD+ cells) in the DG. At the molecular level, we employed a 'discovery' approach with gene expression profiling in the DG to uncover novel molecules possibly implicated in the neural adaptations that take place during cocaine withdrawal. Our results suggest that decreased hippocampal cell proliferation might participate in the adaptations associated with drug removal and identifies 14 days as a critical time-point of cocaine withdrawal. At the 14-day time-point, gene expression profiling of the DG revealed the dysregulation of several genes associated with cell fate regulation, highlighting two new neurobiological correlates (Ascl-1 and Dnmt3b) that accompany cessation of drug exposure. Moreover, the results point to Fas-Associated protein with Death Domain (FADD), a molecular marker previously associated with the propensity to substance abuse and cocaine sensitization, as a key cell fate regulator during cocaine withdrawal. Identifying molecules that may have a role in the restructuring of the hippocampus following substance abuse provides a better understanding of the adaptations associated with cocaine withdrawal and identifies novel targets for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2011

7. Risk-assessment and Coping Strategies Segregate with Divergent Intrinsic Aerobic Capacity in Rats.

Author

Burghardt, Paul R., Flagel, Shelly B., Burghardt, Kyle J., Britton, Steven L., Gerard-Koch, Lauren, Watson, Stanley J., and Akil, Huda

Subjects

METABOLISM, RATS, AEROBIC capacity, ADRENOCORTICOTROPIC hormone, AMYGDALOID body

Abstract

Metabolic function is integrally related to an individual's susceptibility to, and progression of, disease. Selective breeding for intrinsic treadmill running in rats has produced distinct lines of high- or low-capacity runners (HCR and LCR, respectively) that exhibit numerous physiological differences. To date, the role of intrinsic aerobic capacity on behavior and stress response in these rats has not been addressed and was the focus of these studies. HCR and LCR rats did not differ in their locomotor response to novelty or behavior in the light/dark box. In contrast, immobility in the forced swim test was higher in LCR rats compared with HCR rats, regardless of desipramine treatment. Although both HCR and LCR rats responded to cat odor with decreased exploration and increased risk assessment, HCR rats showed greater contextual conditioning to cat odor. HCR rats exhibited higher expression of corticotropin-releasing hormone in the central nucleus of the amygdala, as well as heavier adrenal and thymus weight. Corticosterone was comparable among HCR and LCR rats at light/dark transitions, and in response to unavoidable cat odor. HCR rats, however, exhibited a greater corticosterone response following the light/dark box. These experiments show that the LCR phenotype associates with decreased risk assessment in response to salient danger signals and passive coping. In contrast, HCR rats show a more naturalistic strategy in that they employ active coping and a more vigilant and cautious response to environmental novelty and salient danger signals. Within this context, we propose that intrinsic aerobic capacity is a central feature mechanistically linking complex metabolic disease and behavior. [ABSTRACT FROM AUTHOR]

Published

2011

8. Naloxone administration in chronic hallucinating schizophrenic patients.

Author

Berger, Philip A., Watson, Stanley J., Akil, Huda, and Barchas, Jack D.

Published

1979

9. An Animal Model of Genetic Vulnerability to Behavioral Disinhibition and Responsiveness to Reward-Related Cues: Implications for Addiction.

Author

Flagel, Shelly B., Robinson, Terry E., Clark, Jeremy J., Clinton, Sarah M., Watson, Stanley J., Seeman, Phillip, Phillips, Paul E. M., and Akil, Huda

Subjects

CATECHOLAMINES, NEUROTRANSMITTERS, MESSENGER RNA, DOPAMINE receptors, DRUG abuse

Abstract

Rats selectively bred based on high or low reactivity to a novel environment were characterized for other behavioral and neurobiological traits thought to be relevant to addiction vulnerability. The two lines of animals, which differ in their propensity to self-administer drugs, also differ in the value they attribute to cues associated with reward, in impulsive behavior, and in their dopamine system. When a cue was paired with food or cocaine reward bred high-responder rats (bHRs) learned to approach the cue, whereas bred low-responder rats (bLRs) learned to approach the location of food delivery, suggesting that bHRs but not bLRs attributed incentive value to the cue. Moreover, although less impulsive on a measure of ‘impulsive choice’, bHRs were more impulsive on a measure of ‘impulsive action’— ie, they had difficulty withholding an action to receive a reward, indicative of ‘behavioral disinhibition’. The dopamine agonist quinpirole caused greater psychomotor activation in bHRs relative to bLRs, suggesting dopamine supersensitivity. Indeed, relative to bLRs, bHRs also had a greater proportion of dopamine D2high receptors, the functionally active form of the receptor, in the striatum, in spite of lower D2 mRNA levels and comparable total D2 binding. In addition, fast-scan cyclic voltammetry revealed that bHRs had more spontaneous dopamine ‘release events’ in the core of the nucleus accumbens than bLRs. Thus, bHRs exhibit parallels to ‘externalizing disorders’ in humans, representing a genetic animal model of addiction vulnerability associated with a propensity to attribute incentive salience to reward-related cues, behavioral disinhibition, and increased dopaminergic ‘tone.’ [ABSTRACT FROM AUTHOR]

Published

2010

10. Effect of Cocaine on Fas-Associated Protein with Death Domain in the Rat Brain: Individual Differences in a Model of Differential Vulnerability to Drug Abuse.

Author

García-Fuster, María-Julia, Clinton, Sarah M., Watson, Stanley J., and Akil, Huda

Subjects

COCAINE, CELL death, DOPAMINE receptors, MESSENGER RNA, COCAINE abuse, INDIVIDUAL differences, LABORATORY rats, PHYSIOLOGY

Abstract

This study was designed to (1) assess the effects of cocaine on Fas-associated protein with death domain (FADD) system and its role in the activation of apoptotic vs nonapoptotic events and (2) ascertain whether animals selectively bred for their differential propensity to drug-seeking show differences in FADD levels or response to cocaine. Acute cocaine, through D2 dopamine receptors, induced a dose–response increase in FADD protein in the cortex, with opposite effects over pFADD (Ser191/194), and no induction of apoptotic cell death (poly-(ADP-ribose) polymerase cleavage). FADD was increased by cocaine in cytosol (∼142%), membranes (∼23%) and nucleus (∼54%). The modulation of the FADD system showed tolerance of the acute effect over time, as well as a compensatory response on withdrawal that mirrored the acute effect—ie a transient FADD decrease on day 3 of withdrawal, both at mRNA and protein levels. In a second experiment, possible FADD differences were investigated in rats selectively bred for differential responsiveness to novelty, propensity for drug-seeking and cocaine sensitization. High-responders (HR), who were more prone to drug abuse, exhibited higher FADD and lower pFADD levels than low-responder (LR) rats. However, HR and LR rats showed similar rates of cocaine-induced apoptosis, and exhibited a parallel impact of cocaine over FADD within each phenotype. Thus, FADD is a signaling protein modulated by cocaine, regulating apoptosis/proliferative mechanisms in relation to its FADD/pFADD content. Interestingly, animals selectively bred for differential propensity to substance abuse show basal differences in the expression of this protein, suggesting FADD may also be a molecular correlate for the HR/LR phenotype.Neuropsychopharmacology (2009) 34, 1123–1134; doi:10.1038/npp.2008.88; published online 25 June 2008 [ABSTRACT FROM AUTHOR]

Published

2009

11. Persistent Alterations in Cognitive Function and Prefrontal Dopamine D2 Receptors Following Extended, but Not Limited, Access to Self-Administered Cocaine.

Author

Briand, Lisa A., Flagel, Shelly B., Garcia-Fuster, M. Julia, Watson, Stanley J., Akil, Huda, Sarter, Martin, and Robinson, Terry E.

Subjects

DOPAMINE, COCAINE, PEOPLE with drug addiction, PREFRONTAL cortex, COGNITION, NEUROBIOLOGY

Abstract

Drug addicts have deficits in frontocortical function and cognition even long after the discontinuation of drug use. It is not clear, however, whether the cognitive deficits are a consequence of drug use, or are present prior to drug use, and thus are a potential predisposing factor for addiction. To determine if self-administration of cocaine is capable of producing long-lasting alterations in cognition, rats were allowed access to cocaine for either 1 h/day (short access, ShA) or 6 h/day (long access, LgA) for 3 weeks. Between 1 and 30 days after the last self-administration session, we examined performance on a cognitively demanding test of sustained attention that requires an intact medial prefrontal cortex. The expression levels of dopamine D1 and D2 receptor mRNA and D2 protein in the prefrontal cortex were also examined. Early after discontinuation of drug use, LgA (but not ShA) animals were markedly impaired on the sustained attention task. Although the LgA animals improved over time, they continued to show a persistent pattern of performance deficits indicative of a disruption of cognitive flexibility up to 30 days after the discontinuation of drug use. This was accompanied by a significant decrease in DA D2 (but not D1) mRNA in the medial and orbital prefrontal cortex, and D2 receptor protein in the medial prefrontal cortex of LgA (but not ShA) animals. These findings establish that repeated cocaine use is capable of producing persistent alterations in the prefrontal cortex and in cognitive function, and illustrate the usefulness of extended access self-administration procedures for studying the neurobiology of addiction.Neuropsychopharmacology (2008) 33, 2969–2980; doi:10.1038/npp.2008.18; published online 27 February 2008 [ABSTRACT FROM AUTHOR]

Published

2008

12. Individual differences in the propensity to approach signals vs goals promote different adaptations in the dopamine system of rats.

Author

Flagel, Shelly B., Watson, Stanley J., Robinson, Terry E., and Akil, Huda

Subjects

*PSYCHOPHARMACOLOGY, *DOPAMINE, *NEUROTRANSMITTERS, *MOTIVATION (Psychology), *PSYCHOLOGY

Abstract

The way an individual responds to cues associated with rewards may be a key determinant of vulnerability to compulsive behavioral disorders. We studied individual differences in Pavlovian conditioned approach behavior and examined the expression of neurobiological markers associated with the dopaminergic system, the same neural system implicated in incentive motivational processes. Pavlovian autoshaping procedures consisted of the brief presentation of an illuminated retractable lever (conditioned stimulus) followed by the response-independent delivery of a food pellet (unconditioned stimulus), which lead to a Pavlovian conditioned response. In situ hybridization was performed on brains obtained either following the first or last (fifth) day of training. Two phenotypes emerged. Sign-trackers (ST) exhibited behavior that seemed to be largely controlled by the cue that signaled impending reward delivery; whereas goal-trackers (GT) preferentially approached the location where the reward was delivered. Following a single training session, ST showed greater expression of dopamine D1 receptor mRNA relative to GT. After 5 days of training, GT exhibited greater expression levels of tyrosine hydroxylase, dopamine transporter, and dopamine D2 receptor mRNA relative to ST. These findings suggest that the development of approach behavior towards signals vs goal leads to distinct adaptations in the dopamine system. The sign-tracker vs goal-tracker phenotype may prove to be a valuable animal model to investigate individual differences in the way incentive salience is attributed to environmental stimuli, which may contribute to the development of addiction and other compulsive behavioral disorders. [ABSTRACT FROM AUTHOR]

Published

2007

13. β1 Adrenergic Receptors in the Bed Nucleus of Stria Terminalis Mediate Differential Responses to Opiate Withdrawal.

Author

Cecchi, Marco, Capriles, Nancy, Watson, Stanley J., and Akil, Huda

Subjects

INDIVIDUAL differences, MORPHINE, IN situ hybridization, ADRENERGIC receptors, DRUG receptors

Abstract

The negative physical and affective aspects of opioid abstinence contribute to the prolongation of substance abuse. Withdrawal treatment is successful only in a subset of subjects, yet little is known about the neurobiological causes of these individual differences. Here, we compare the somatic and motivational components of opioid withdrawal in animals with high reactivity (HR) vs low reactivity (LR) to novelty, a phenotype associated with differential vulnerability to drug abuse. During withdrawal, HR relative to LR showed increased teeth chattering and eye twitching episodes, somatic signs associated with adrenergic modulation. Given the role of noradrenergic circuitry of the extended amygdala in opioid withdrawal, we examined adrenergic receptor gene expression in the bed nucleus of stria terminalis (BST) and central nucleus of the amygdala. Relative to LR, HR rats exhibit a selective increase in β1 adrenergic receptor expression in lateral and medial BST. To uncover the functional relevance of this difference, we microinjected betaxolol, a selective β1 receptor antagonist, into dorsal BST and assessed somatic and affective responses during withdrawal. Betaxolol microinjection dose-dependently decreased teeth chattering episodes in HR to levels observed in LR animals. Moreover, the antagonist blocked conditioned place aversion, a measure of negative affect associated with withdrawal, in HR but not in LR animals. Our results reveal for the first time that reactivity to novelty predicts somatic and affective aspects of opiate dependence, and that β1 receptors in BST are implicated in opiate withdrawal but only in novelty-seeking individuals.Neuropsychopharmacology (2007) 32, 589–599. doi:10.1038/sj.npp.1301140; published online 28 June 2006 [ABSTRACT FROM AUTHOR]

Published

2007

14. Selective Breeding for Divergence in Novelty-seeking Traits: Heritability and Enrichment in Spontaneous Anxiety-related Behaviors.

Author

Stead, John D. H., Clinton, Sarah, Neal, Charles, Schneider, Johanna, Jama, Abas, Miller, Sue, Vazquez, Delia M., Watson, Stanley J., and Akil, Huda

Subjects

BREEDING, GENETICS, RATS, GENE expression, PSYCHOLOGICAL stress

Abstract

Outbred Sprague–Dawley rats can be classified as high responders (HR) or low responders (LR) based on their levels of exploratory locomotion in a novel environment. While this novelty-seeking dimension was originally related to differential vulnerability to substance abuse, behavioral, neuroendocrine and gene expression studies suggest a fundamental difference in emotional reactivity between these animals. Here, we report the first study to selectively breed rats based on this novelty-seeking dimension. Response to novelty was clearly heritable, with a >2-fold difference in behavior seen after eight generations of selection. Three tests of anxiety-like behavior consistently showed significantly greater anxiety in LR-bred rats compared to HR-bred animals, and this difference was diminished in the open field test by administration of the anxiolytic benzodiazepine drug, chlordiazepoxide. Cross-fostering revealed that responses to novelty were largely unaffected by maternal interactions, though there was an effect on anxiety-like behavior. These selected lines will enable future research on the interplay of genetic, environmental and developmental variables in controlling drug seeking behavior, stress and emotional reactivity. [ABSTRACT FROM AUTHOR]

Published

2006

15. Chronic administration of the delta opioid receptor agonist (+)BW373U86 and antidepressants on behavior in the forced swim test and BDNF mRNA expression in rats.

Author

Torregrossa, Mary M., Folk, John E., Rice, Kenner C., Watson, Stanley J., and Woods, James H.

Subjects

OPIOID receptors, CHEMICAL agonists, ANTIDEPRESSANTS, MESSENGER RNA, RATS

Abstract

Rationale: Selective delta opioid receptor agonists have been shown to produce antidepressant-like behavioral effects and increase brain-derived neurotrophic factor (BDNF) mRNA expression when given acutely, but the chronic effects of delta agonists have been less well characterized. Objective: The present study examined the effects of chronic exposure to the delta agonist (+)BW373U86 (BW) on antidepressant-like behavior in the forced swim test and on BDNF mRNA expression in comparison to chronic treatment with the antidepressants fluoxetine, desipramine, bupropion, and tranylcypromine. Methods: Sprague-Dawley rats were treated chronically with one of the above treatments and were tested for antidepressant effects in the forced swim test, and assayed for BDNF mRNA expression by in situ hybridization. Results: Acute administration of 10 mg/kg BW produced a significant antidepressant-like effect in the forced swim test, while chronic (8- or 21-day) BW administration did not produce a significant antidepressant-like effect. When 10 mg/kg BW was administered for 8 days, it produced a significant increase in BDNF mRNA expression in the frontal cortex, while having no effect on BDNF expression when given for 21 days. Chronic bupropion and desipramine significantly decreased BDNF expression in the dentate gyrus of the hippocampus, while fluoxetine had no effect in any brain region. Chronic tranylcypromine produced a significant increase in BDNF expression in the CA1 region of the hippocampus. Conclusions: Chronic exposure to BW produces tolerance to most effects, although at differential rates. In addition, increased BDNF mRNA expression does not appear to be a common effect of chronic administration of various antidepressants. [ABSTRACT FROM AUTHOR]

Published

2005

16. The δ-Opioid Receptor Agonist (+)BW373U86 Regulates BDNF mRNA Expression in Rats.

Author

Torregrossa, Mary M., Isgor, Ceylan, Folk, John E., Rice, Kenner C., Watson, Stanley J., and Woods, James H.

Subjects

OPIOID receptors, IN situ hybridization, ANTIDEPRESSANTS, MENTAL depression, PROTEIN-tyrosine kinases, MESSENGER RNA

Abstract

δ-Opioid receptor agonists have antidepressant-like effects in behavioral models of depression. Chronic administration of classical antidepressants upregulates mRNA expression of brain-derived neurotrophic factor (BDNF) and its high-affinity tyrosine kinase receptor, TrkB in the frontal cortex and hippocampus of rats. Increases in BDNF and TrkB levels are thought to be important for the therapeutic effects of these drugs. Therefore, we examined the ability of the δ-opioid receptor agonist (+)BW373U86 to regulate BDNF and TrkB mRNA expression in frontal cortex, hippocampus, as well as, basolateral amygdala, endopiriform nucleus, and primary olfactory cortex. At 3 h after a single administration of (+)BW373U86 animals were killed and BDNF and TrkB mRNA levels were examined by in situ hybridization. BDNF. mRNA levels produced by (+)BW373U86 were compared to acute administration of the antidepressants desipramine and bupropion. A behaviorally antidepressant dose of 10 mg/kg (+)BW373U86 increased BDNF mRNA expression in all regions examined; a smaller dose of (+)BW373U86 (1 mg/kg) significantly increased BDNF mRNA expression only in frontal cortex. The δ-opioid receptor antagonist naltrindole blocked (+)BW373U86-mediated increases in BDNF mRNA expression. In addition, tolerance developed to increased BDNF mRNA expression with repeated injection, except in frontal cortex. Midazolam was administered to some animals to prevent the convulsions produced by (+)BW373U86, but midazolam did not block δ-opioid receptormediated increases in BDNF mRNA expression in frontal cortex, hippocampus, or amygdala. Unlike desipramine and bupropion, (+)BW373U86 upregulated BDNF mRNA expression acutely (within 3 h after a single administration). These data support the concept that δ-opioid receptor agonists may have antidepressant potential, and could be good targets for the development of faster-acting antidepressants. [ABSTRACT FROM AUTHOR]

Published

2004

17. Gender-Specific Gene Expression in Post-Mortem Human Brain: Localization to Sex Chromosomes.

Author

Vawter, Marquis P., Evans, Simon, Choudary, Prabhakara, Tomita, Hiroaki, Meador-Woodruff, Jim, Molnar, Margherita, Li, Jun, Lopez, Juan F., Myers, Rick, Cox, David, Watson, Stanley J., Akil, Huda, Jones, Edward G., and Bunney, William E.

Subjects

GENE expression, BRAIN, SEX chromosomes, NEUROPSYCHIATRY, MENTAL depression, PREFRONTAL cortex

Abstract

Gender differences in brain development and in the prevalence of neuropsychiatric disorders such as depression have been reported. Gender differences in human brain might be related to patterns of gene expression. Microarray technology is one useful method for investigation of gene expression in brain. We investigated gene expression, cell types, and regional expression patterns of differentially expressed sex chromosome genes in brain. We profiled gene expression in male and female dorsolateral prefrontal cortex, anterior cingulate cortex, and cerebellum using the Affymetrix oligonucleotide microarray platform. Differentially expressed genes between males and females on the Y chromosome (DBY, SMCY, UTY, RPS4Y, and USP9Y) and X chromosome (XIST) were confirmed using real-time PCR measurements. In situ hybridization confirmed the differential expression of gender-specific genes and neuronal expression of XIST, RPS4Y, SMCY, and UTY in three brain regions examined. The XIST gene, which silences gene expression on regions of the X chromosome, is expressed in a subset of neurons. Since a subset of neurons express gender-specific genes, neural subpopulations may exhibit a subtle sexual dimorphism at the level of differences in gene regulation and function. The distinctive pattern of neuronal expression of XIST, RPS4Y, SMCY, and UTY and other sex chromosome genes in neuronal subpopulations may possibly contribute to gender differences in prevalence noted for some neuropsychiatric disorders. Studies of the protein expression of these sexchromosome-linked genes in brain tissue are required to address the functional consequences of the observed gene expression differences. [ABSTRACT FROM AUTHOR]

Published

2004

18. Colocalization of estrogen β-receptor messenger RNA with orphanin FQ, vasopressin and oxytocin in the rat hypothalamic paraventricular and supraoptic nuclei.

Author

Isgor, Ceylan, Shieh, Kun-Ruey, Akil, Huda, and Watson, Stanley J.

Subjects

ESTROGEN receptors, BRAIN, HYPOTHALAMUS, NEURONS, MESSENGER RNA, HISTOCHEMISTRY, NEUROPEPTIDES

Abstract

The functional significance of the novel estrogen receptor β in brain areas that exclusively contain the ERβ receptor subtype such as the paraventricular (PVN) and the supraoptic (SON) nuclei of the hypothalamus is not yet fully understood. The present study attempts to characterize the peptidergic nature of the ERβ-containing neuronal population in the PVN and the SON using the double in situ histochemistry method in the female rat. Using this method, the ERβ mRNA coexpressions with the novel opioid neuropeptide (orphanin FQ and its receptor ORL1) mRNA in addition to the previously reported neuropeptide (arginine vasopressin-AVP, oxytocin-OXY, corticotropin releasing hormone-CRH, enkephalin-ENK) mRNAs were assessed. In the PVN, roughly half of the ERβ expression was colocalized with the prepro-orphanin FQ mRNA, which was comparable to the colocalization observed between the ERβ and AVP mRNAs in the same region. In addition, there was 20% overlap between the ERβ and ORL1 receptor mRNAs, and 10% overlap between the ERβ and OXY mRNAs in the PVN. By contrast, the coexpression between the prepro-orphanin FQ and ERβ mRNAs was less striking in the SON. Potential interactions between the ERβ and the well-characterized AVP-OXY neurosecretory system as well as the novel OFQ-ORL1 opioid neuropeptide system may provide new leads for the functional significance of ERβ, specifically in stress/autonomic responses. [ABSTRACT FROM AUTHOR]

Published

2003

19. A biochemical function for attractin in agouti-induced pigmentation and obesity.

Author

He, Lin, Gunn, Teresa M., Bouley, Donna M., Lu, Xin-Yun, Watson, Stanley J., Schlossman, Stuart F., Duke-Cohan, Jonathan S., and Barsh, Gregory S.

Subjects

AGOUTI (Genus), PROTEINS, BIOCHEMISTRY

Abstract

Agouti protein, a paracrine signaling molecule normally limited to skin, is ectopically expressed in lethal yellow (Ay) mice, and causes obesity by mimicking agouti-related protein (Agrp), found primarily in the hypothalamus. Mouse attractin (Atrn) is a widely expressed transmembrane protein whose loss of function in mahogany (Atrnmg-3J/Atrnmg-3J) mutant mice blocks the pleiotropic effects of Ay. Here we demonstrate in transgenic, biochemical and genetic-interaction experiments that attractin is a low-affinity receptor for agouti protein, but not Agrp, in vitro and in vivo. Additional histopathologic abnormalities in Atrnmg-3J/Atrnmg-3J mice and cross-species genomic comparisons indicate that Atrn has multiple functions distinct from both a physiologic and an evolutionary perspective. [ABSTRACT FROM AUTHOR]

Published

2001

20. Hormonal Evidence for Altered Responsiveness to Social Stress in Major Depression.

Author

Young, Elizabeth A, Lopez, Juan F, Murphy-Weinberg, Virginia, Watson, Stanley J, and Akil, Huda

Published

2000

21. AMPA Receptor Binding and Subunit mRNA Expression in Prefrontal Cortex and Striatum of Elderly Schizophrenics.

Author

Healy, Daniel J, Haroutunian, Vahram, Powchik, Peter, Davidson, Michael, Davis, Kenneth L, Watson, Stanley J, and Meador-Woodruff, James H

Published

1998

22. Expression of Serotonin Transporter mRNA in Human Brainstem Raphe Nuclei.

Author

McLaughlin, Daniel P, Little, Karley Y, López, Juan F, and Watson, Stanley J

Published

1996

23. Dopamine Receptor mRNA Expression in Human Striatum and Neocortex.

Author

Meador-Woodruff, James H, Damask, Scott P, Wang, Jingcheng, Haroutunian, Vahram, Davis, Kenneth L, and Watson, Stanley J

Published

1996

24. Evidence for two separate opiate peptide neuronal systems.

Author

WATSON, STANLEY J., AKIL, HUDA, RICHARD, CHARLES W., and BARCHAS, JACK D.

Published

1978

25. Identification of proopiomelanocortin neurones in rat hypothalamus by in situ cDNA-mRNA hybridization.

Author

Gee, Connie E., Chen, Ching-Ling C., Roberts, James L., Thompson, Robert, and Watson, Stanley J.

Published

1983