Your search keyword '"Egan Michael"' showing total 15 results

1. Neonatal ventral hippocampal damage modifies serum corticosterone and dopamine release responses to acute footshock in adult Sprague-Dawley rats.

Author

Chrapusta SJ, Egan MF, Wyatt RJ, Weinberger DR, and Lipska BK

Subjects

Animals, Animals, Newborn, Dopamine analysis, Electroshock, Foot, Hippocampus metabolism, Male, Models, Animal, Prolactin blood, Rats, Rats, Sprague-Dawley, Schizophrenia physiopathology, Cerebral Cortex metabolism, Corticosterone blood, Dopamine analogs & derivatives, Dopamine metabolism, Hippocampus injuries, Hippocampus physiopathology, Stress, Physiological physiopathology

Abstract

Rats with excitotoxic neonatal ventral hippocampal lesions (NVHL) manifest in early adulthood a variety of behavioral and neurochemical abnormalities mimicking those seen in patients with schizophrenia. Some of these aberrations implicate malfunction of the midbrain dopamine systems. We studied NVHL effects on dopamine release in the rat frontal cortex, nucleus accumbens, and striatum during acute stress caused by inescapable continuous footshock (0.45 mA). Serum total corticosterone and prolactin levels were used as peripheral indices of stress. As an indirect index of dopamine release, tissue 3-methoxytyramine levels attained in vivo 10 min after monoamine oxidase inhibition was assayed in rats sacrificed by instantaneous microwave fixation of the brain tissue. Nonshocked NVHL rats showed significantly less nucleus accumbens' 3-methoxytyramine accumulation than their sham counterparts. Frontal cortical 3-methoxytyramine levels rose similarly after 20-min footshock in both groups of rats, but while it normalized after 60-min footshock in the sham rats, it did not decrease in the NVHL rats. Nucleus accumbens' 3-methoxytyramine was significantly elevated after either 20-min or 60-min footshock in both groups, whereas striatal 3-methoxytyramine was significantly elevated in the NVHL rats only. Serum corticosterone showed similar elevations in the sham and NVHL rats, but the patterns differed in that there was no attenuation after 60-min footshock in the latter. The lesion did not affect serum prolactin response. These data indicate that neonatal ventral hippocampal damage enhances and prolongs certain neural and neuroendocrine responses to acute physical stressor(s), and thus may affect adaptation and enhance detrimental effects of stress., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

2. Epistasis between Catechol-O-Methyltransferase and Type II Metabotropic Glutamate Receptor 3 Genes on Working Memory Brain Function

Author

Tan, Hao-Yang, Chen, Qiang, Sust, Steven, Buckholtz, Joshua W., Meyers, John D., Egan, Michael F., Mattay, Venkata S., Meyer-Lindenberg, Andreas, Weinberger, Daniel R., and Callicott, Joseph H.

Published

2007

3. Genetic evidence implicating DARPP-32 in human frontostriatal structure, function, and cognition

Author

Meyer-Lindenberg, Andreas, Straub, Richard E., Lipska, Barbara K., Verchinski, Beth A., Goldberg, Terry, Callicott, Joseph H., Egan, Michael F., Huffaker, Stephen S., Mattay, Venkata S., Kolachana, Bhaskar, Kleinman, Joel E., and Weinberger, Daniel R.

Subjects

Molecular weights -- Case studies, Neurons -- Genetic aspects, Neurons -- Case studies, Cardiac glycosides, Cardiotonic agents, Cognition, Dopamine, Phosphoproteins

Abstract

Dopamine- and cAMP-regulated phosphoprotein of molecular weight 32 kDa (DARPP-32), encoded by PPP1R1B, is a pivotal integrator of information in dopaminoceptive neurons, regulating the response to neuroleptics, psychotomimetics, and drugs [...]

Published

2007

4. Epistasis between catechol- O-methyltransferase and type II metabotropic glutamate receptor 3 genes on working memory brain function.

Author

Hao-Yang Tan, Qiang Chen, Sust, Steven, Buckholtz, Joshua W., Meyers, John D., Egan, Michael F., Mattay, Venkata S., Meyer-Lindenberg, Andreas, Weinberger, Daniel R., and Callicottt, Joseph H.

Subjects

EPISTASIS (Genetics), GENETIC regulation, CATECHOL estrogens, METHYLTRANSFERASES, GENETIC polymorphisms, BRAIN function localization

Abstract

Dopaminergic and glutamatergic systems are critical components responsible for prefrontal signal-to-noise tuning in working memory. Recent functional MRI (fMRI) studies of genetic variation in these systems in catechol-O-methyltransferase (COMT) and in metabotropic glutamate receptor mgluR3 (GRM3). respectively, suggest that these genes influence prefrontal physiological signal- to-noise in humans. Here, using fMRI, we extend these individual gene findings to examine the combined effects of COMT and GRM3 on dissociable components of the frontoparietal working memory network. We observed an apparent epistatic interaction of these two genes on the engagement of prefrontal cortex during working memory. Specifically, the GRM3 genotype putatively associated with suboptimal glutamatergic signaling was significantly associated with inefficient prefrontal engagement and altered prefrontal- parietal coupling on the background of COMT Val-homozygous genotype. Conversely. COMT Met-homozygous background mediated against the effect of GRM3 genotype. These findings extend putative brain dopaminergic and glutamatergic relationships indexed by COMT and GRM3 to a systems-level interaction in human cortical circuits implicated in working memory dysfunction such as in schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2007

5. Tolcapone Improves Cognition and Cortical Information Processing in Normal Human Subjects.

Author

Apud, José A., Mattay, Venkata, Chen, Jingshan, Kolachana, Bhaskar S., Callicott, Joseph H., Rasetti, Roberta, Alce, Guilna, Iudicello, Jennifer E, Akbar, Natkai, Egan, Michael F, Goldberg, Terry E., and Weinberger, Daniel R.

Subjects

HIGHER nervous activity, DOPAMINE, THOUGHT & thinking, MEMORY, EVOKED potentials (Electrophysiology), BIOGENIC amines

Abstract

Prefrontal cortical dopamine (DA) regulates various executive cognitive functions, including attention and working memory. Efforts to enhance prefrontal-related cognition, which have focused on catecholaminergic stimulant drugs, have been unsatisfactory. Recently, the demonstration that a functional polymorphism in the catecholamine-O-methyltransferase (COMT) gene impacts prefrontal cognition raises the possibility of a novel pharmacological approach for the treatment of prefrontal lobe executive dysfunction. To explore in a proof of concept study the effects of tolcapone, a CNS penetrant specific COMT inhibitor, we performed a randomized, double blind, placebo controlled, and crossover design of this drug in normal subjects stratified by COMT (val158met) genotype. COMT enzyme activity was determined in peripheral blood. Forty-seven normal volunteers with no family history of psychiatric disorders underwent neuropsychological testing and 34 of those subjects underwent physiological measurement of prefrontal information processing assessed by blood oxygen level-dependent functional magnetic resonance imaging (fMRI). We found significant drug effects on measures of executive function and verbal episodic memory and a significant drug by genotype interaction on the latter, such that individuals with val/val genotypes improved, whereas individuals with met/met genotypes worsened on tolcapone. fMRI revealed a significant tolcapone-induced improvement in the efficiency of information processing in prefrontal cortex during a working memory test. This study demonstrates enhancement of prefrontal cortical function in normal human subjects with a nonstimulant drug having COMT inhibitory activity. Our results are consistent with data from animal studies and from computational models of the effects of selective enhancement of DA signaling in the prefrontal cortex.Neuropsychopharmacology (2007) 32, 1011–1020. doi:10.1038/sj.npp.1301227; published online 25 October 2006 [ABSTRACT FROM AUTHOR]

Published

2007

6. Evidence for statistical epistasis between catechol- O-methyltransferase (COMT) and polymorphisms in RGS4, G72 (DAOA), GRM3, and DISC1: influence on risk of schizophrenia.

Author

Nicodemus, Kristin K., Kolachana, Bhaskar S., Vakkalanka, Radhakrishna, Straub, Richard E., Giegling, Ina, Egan, Michael F., Rujescu, Dan, and Weinberger, Daniel R.

Subjects

DOPAMINE, CATECHOLAMINES, GENOMICS, PSYCHOSES, SCHIZOPHRENIA

Abstract

Catechol- O-methyltransferase (COMT) regulates dopamine degradation and is located in a genomic region that is deleted in a syndrome associated with psychosis, making it a promising candidate gene for schizophrenia. COMT also has been shown to influence prefrontal cortex processing efficiency. Prefrontal processing dysfunction is a common finding in schizophrenia, and a background of inefficient processing may modulate the effect of other candidate genes. Using the NIMH sibling study (SS), a non-independent case-control set, and an independent German (G) case-control set, we performed conditional/unconditional logistic regression to test for epistasis between SNPs in COMT (rs2097603, Val158Met (rs4680), rs165599) and polymorphisms in other schizophrenia susceptibility genes. Evidence for interaction was evaluated using a likelihood ratio test (LRT) between nested models. SNPs in RGS4, G72, GRM3, and DISC1 showed evidence for significant statistical epistasis with COMT. A striking result was found in RGS4: three of five SNPs showed a significant increase in risk [LRT P-values: 90387 = 0.05 (SS); SNP4 = 0.02 (SS), 0.02 (G); SNP18 = 0.04 (SS), 0.008 (G)] in interaction with COMT; main effects for RGS4 SNPs were null. Significant results for SNP4 and SNP18 were also found in the German study. We were able to detect statistical interaction between COMT and polymorphisms in candidate genes for schizophrenia, many of which had no significant main effect. In addition, we were able to replicate other studies, including allelic directionality. The use of epistatic models may improve replication of psychiatric candidate gene studies. [ABSTRACT FROM AUTHOR]

Published

2007

7. Catechol O-methyltransferase Val158Met Genotype and Neural Mechanisms Related to Affective Arousal and Regulation.

Author

Drabant, Emily M., Hariri, Ahmad R., Meyer-Lindenberg, Andreas, Munoz, Karen E., Mattay, Venkata S., Kolachana, Bhaskar S., Egan, Michael F., and Weinberger, Daniel R.

Subjects

RESEARCH, ENZYMES, NEUROTRANSMITTERS, DOPAMINE, PREFRONTAL cortex, CATECHOLAMINES

Abstract

The article focuses on the study that examines cathechol O-methlytransferase effects on corticolimbic circuitry responsiveness and functional property during biological salient stimuli processing. The study shows that assembled allele was related with a dose-dependent increase in hippocampal formation and ventrolateral prefrontal cortex activation. The study determines that hereditary variation in dopamine neurotransmission resulted to intensify reactivity.

Published

2006

8. Prefrontal Electrophysiologic “Noise” and Catechol-O-Methyltransferase Genotype in Schizophrenia

Author

Winterer, Georg, Egan, Michael F., Kolachana, Bhaskar S., Goldberg, Terry E., Coppola, Richard, and Weinberger, Daniel R.

Subjects

*SCHIZOPHRENIA, *PSYCHOSES, *GENETICS, *PHENOTYPES, *CATECHOL, *POLYPHENOLS

Abstract

Background: Increased variability of stimulus-induced prefrontal electromagnetic activity (“noise”) has been associated with genetic risk for schizophrenia. On the basis of animal experiments and computational models, we have predicted that this prefrontal “noise” phenotype would be related to variation in prefrontal dopamine (DA) signaling, which itself might be abnormal in schizophrenia. In the present study, the effect of a functional single nucleotide polymorphism (val108/158met) within the catechol-O-methyltransferase (COMT) gene on prefrontal “noise” was examined, because the COMT enzyme is involved in cortical synaptic dopamine metabolism and weakly predictive of risk for schizophrenia. Methods: A Caucasian sample comprising 112 unrelated normal subjects, 83 schizophrenic probands, and 87 of their unaffected siblings was investigated, all of whom had measures of prefrontal “noise” estimated from event-related electroencephalogram during an auditory oddball task. Results: The val108/158met genotype was significantly associated with prefrontal “noise”; homozygous Val-carriers had greatest prefrontal “noise” values; odds ratio (OR) = 2.37 (95% confidence interval [CI] 1.37–4.10), p = 003. The genotype-phenotype association was stronger when only considering male subjects with an OR = 3.37 (95% CI: 1.63–6.98), p = 002. Conclusions: The results suggest that COMT genotype impacts the level of prefrontal physiologic “noise.” [Copyright &y& Elsevier]

Published

2006

9. Effect of Catechol-O-Methyltransferase val158met Genotype on Attentional Control.

Author

Blasi, Giuseppe, Mattay, Venkata S., Bertolino, Alessandro, Elvevåg, Brita, Callicott, Joseph H., Das, Saumitra, Kolachana, Bhaskar S., Egan, Michael F., Goldberg, Terry E., and Weinberger, Daniel R.

Subjects

SIGNAL processing, CATECHOL, DOPAMINE, CEREBRAL cortex, GENETIC polymorphisms

Abstract

The cingulate cortex is richly innervated by dopaminergic projections and plays a critical role in attentional control (AC). Evidence indicates that dopamine enhances the neurophysiological signal-to-noise ratio and that dopaminergic tone in the frontal cortex is critically dependent on catechol-O-methyltransferase (COMT). A functional polymorphism (val158met) in the COMT gene accounts for some of the individual variability in executive function mediated by the dorsolateral prefrontal cortex. We explored the effect of this genetic polymorphism on cingulate engagement during a novel AC task. We found that the COMT val158met polymorphism also affects the function of the cingulate during AC. Individuals homozygous for the high-activity valine ("val") allele show greater activity and poorer performance than val/methionine ("met") heterozygotes, who in turn show greater activity and poorer performance than individuals homozygous for the low-activity met allele, and these effects are most evident at the highest demand for AC. These results indicate that met allele load and presumably enhanced dopaminergic tone improve the "efficiency" of local circuit processing within the cingulate cortex and thereby its function during AC. [ABSTRACT FROM AUTHOR]

Published

2005

10. Comparison of Cognitive Performances During a Placebo Period and an Atypical Antipsychotic Treatment Period in Schizophrenia: Critical Examination of Confounds.

Author

Weickert, Thomas W., Goldberg, Terry E., Marenco, Stefano, Bigelow, Llewellyn B., Egan, Michael F., and Weinberger, Daniel R.

Subjects

PLACEBOS, ANTIPSYCHOTIC agents, SCHIZOPHRENIA, COGNITION, LEARNING, DOPAMINE

Abstract

Although previous studies report cognitive improvement following atypical antipsychotic administration in schizophrenia (SC), few placebo-controlled within-subject studies with examination of confounds (symptom reduction, cooperation, learning, and outliers) have been reported. The present study examines the effects of atypicals and confounds upon cognition in SC. The hypothesis tested was that relative to placebo, atypicals as a general class of medication would elicit cognitive improvement in SC. In all, 19 patients with SC (15 males) completed the double-blind, counterbalanced, randomized within-subject study of the effects of atypical antipsychotics (risperidone, clozapine, olanzapine, or quetiapine) vs placebo administration upon cognitive performance in the domains of executive function, attention, memory, language, visual perception, and general intellect. Significant cognitive improvement during atypical antipsychotic administration relative to placebo withdrawal occurred in most cognitive domains with robust improvements in intelligence (p = 0.001), memory (p = 0.0009), and fluency (p<0.002) even after outliers and unmotivated performances were excluded. These findings suggest that relative to placebo withdrawal, atypicals improve cognitive performance in SC. However, this finding may not be specific to atypicals, since analogous studies of typicals have not been performed. [ABSTRACT FROM AUTHOR]

Published

2003

11. Central Muscarinic Acetylcholine Receptor Availability in Patients Treated with Clozapine.

Author

Raedler, Thomas J., Knable, Michael B., Jones, Douglas W., Urbina, Richard A., Egan, Michael F., and Weinberger, Daniel R.

Subjects

ACETYLCHOLINE, CLOZAPINE, DOPAMINE, SEROTONIN, BASAL ganglia, NEUROPSYCHOPHARMACOLOGY

Abstract

Clozapine is the prototypical atypical antipsychotic. In vitro, clozapine antagonizes a broad range of receptors, including dopamine, serotonin and muscarinic acetylcholine receptors. In vivo, receptor occupancy studies have shown moderate dopamine D2 receptor blockade as well as high serotonin 5HT2 receptor blockade for clozapine. Using [I-123]IQNB SPECT, we explored the influence of clozapine on muscarinic receptors in vivo. Eight schizophrenia patients underwent a total of 12 [I-123]IQNB SPECT scans after treatment with low to moderate doses of clozapine (mean 210 mg/day, range 50-450 mg/day). Muscarinic receptor availability was determined for basal ganglia, cortex, thalamus, and pons. A group of 12 age- and sex-matched unmedicated schizophrenia patients was used for comparison. Compared to unmedicated patients, [I-123]IQNB binding was lower in all regions in subjects treated with clozapine and decreased with increasing dose. In patients treated with a daily clozapine dose of at least 200 mg (mean 275 ± 88 mg/day), these differences were highly significant (p<0.003) with mean reductions of muscarinic receptor availability of 45% for basal ganglia, 58% for cortex, 66% for pons, and 79% for thalamus. These preliminary data indicate that reduction of muscarinic receptor availability by clozapine can be measured in vivo and that moderate daily doses are associated with moderate to high reductions of muscarinic receptor availability. These results may explain, at least in part, the lack of extrapyramidal side effects as well as some side effects seen with clozapine. [ABSTRACT FROM AUTHOR]

Published

2003

12. Catechol O-methyltransferase val[sup 158]-met genotype and individual variation in the brain response to amphetamine.

Author

Mattay, Venkata S., Goldberg, Terry E., Fera, Francesco, Hariri, Ahmad R., Tessitore, Alessandro, Egan, Michael F., Kolachana, Bhaskar, Callicott, Joseph H., and Weinberger, Daniel R.

Subjects

GENETIC polymorphisms, CATECHOL, METHYLTRANSFERASES, DOPAMINE, AMPHETAMINES

Abstract

Monamines subserve many critical roles in the brain, and monoaminergic drugs such as amphetamine have a long history in the treatment of neuropsychiatric disorders and also as a substance of abuse. The clinical effects of amphetamine are quite variable, from positive effects on mood and cognition in some individuals, to negative responses in others, perhaps related to individual variations in monaminergic function and monoamine system genes. We explored the effect of a functional polymorphism (val[sup 158]-met) in the catechol O-methyltransferase gene, which has been shown to modulate prefrontal dopamine in animals and prefrontal cortical function in humans, on the modulatory actions of amphetamine on the prefrontal cortex. Amphetamine enhanced the efficiency of prefrontal cortex function assayed with functional MRI during a working memory task in subjects with the high enzyme activity val/val genotype, who presumably have relatively less prefrontal synaptic dopamine, at all levels of task difficulty. In contrast, in subjects with the low activity met/met genotype who tend to have superior baseline prefrontal function, the drug had no effect on cortical efficiency at low-to-moderate working memory load and caused deterioration at high working memory load. These data illustrate an application of functional neuroimaging in pharmacogenomics and extend basic evidence of an inverted-"U" functional-response curve to increasing dopamine signaling in the prefrontal cortex. Further, individuals with the met/met catechol O-methyltransferase genotype appear to be at increased risk for an adverse response to amphetamine. [ABSTRACT FROM AUTHOR]

Published

2003

13. Effect of COMT Val[sup 108/158] Met genotype on frontal lobe function and risk for schizophrenia.

Author

Egan, Michael F., Goldberg, Terry E., Kolachana, Bhaskar S., Callicott, Joseph H., Mazzanti, Chiara M., Straub, Richard E., Goldman, David, and Weinberger, Daniel R.

Subjects

*SCHIZOPHRENIA risk factors, *TRANSFERASES, *DOPAMINE, *PHYSIOLOGY

Abstract

Examines the effect of catechol-O-methyltransferase Val[sup 108/158] genotype on frontal lobe function and risk for schizophrenia. Abnormalities of prefrontal cortical function; Enhancement of neuronal function and cognitive performance.

Published

2001

14. Genetic Variation in Catechol-O-Methyltransferase: Effects on Working Memory in Schizophrenic Patients, Their Siblings, and Healthy Controls

Author

Diaz-Asper, Catherine M., Goldberg, Terry E., Kolachana, Bhaskar S., Straub, Richard E., Egan, Michael F., and Weinberger, Daniel R.

Subjects

*SCHIZOPHRENIA, *PEOPLE with schizophrenia, *PEOPLE with mental illness, *CATECHOL, *METHYLTRANSFERASES, *DOPAMINE, *PREFRONTAL cortex

Abstract

Background: Catechol-O-methyltransferase (COMT) val108/158met (rs4680) is thought to affect dopamine regulated prefrontal cortical activity during working memory (WM) tasks, and to weakly increase risk for developing schizophrenia. Recently, other single nucleotide polymorphisms (SNPs) across the gene have emerged as additional risk factors for schizophrenia: namely rs737865, rs165599, and rs2097603. In a large sample, we examined whether these SNPs affect WM. Methods: Schizophrenic probands (n = 325), their nonpsychotic siblings (n = 359), and normal control subjects (n = 330) completed tests of WM function. Data were analyzed with a series of mixed model analyses of variance (ANOVAs). Results: Val homozygotes performed most poorly on all conditions of the n-back, irrespective of diagnosis. Additionally, there was a trend towards a disease-only val108/158met effect on a test of attentional set-shifting; val homozygote probands performed most poorly. Significant or near-significant effects of rs737865 were found on all conditions of the n-back, with G homozygotes performing worst. There also was a disease-only COMT rs737865 effect on the 0-back. None of the other SNPs showed main effects by themselves. A haplotype constructed from promoter and val108/158met SNPs showed main effects on WM parameters, consistent with inverted U models of dopamine signaling. Conclusions: We extended earlier findings of a val108/158met effect on WM function, and suggest that combinations of alleles within COMT may modulate the val108/158met effect in a nonlinear manner. [Copyright &y& Elsevier]

Published

2008

15. Catechol-O-methyltransferase val108/158met genotype predicts working memory response to antipsychotic medications

Author

Weickert, Thomas W., Goldberg, Terry E., Mishara, Aaron, Apud, Jose A., Kolachana, Bhaskar S., Egan, Michael F., and Weinberger, Daniel R.

Subjects

*ENZYMES, *PREFRONTAL cortex, *DOPAMINE, *GENETIC polymorphisms, *ANTIPSYCHOTIC agents

Abstract

The gene encoding catechol-O-methyltransferase (COMT), an enzyme that regulates prefrontal cortex dopamine, contains a common functional polymorphism (val108/158met) that influences prefrontal cortex function in an allelic dose-dependent manner. A recent study reported that the COMT val108/158met polymorphism influences cognitive- and physiologic-related prefrontal cortex responses to antipsychotic treatment. The present study tested the effects of several COMT polymorphisms on the cognitive response to antipsychotic medication in patients with schizophrenia.Twenty inpatients with schizophrenia or schizoaffective disorder (5 with the val-val genotype, 11 with val-met, and 4 with met-met) were administered cognitive tests at two time points: once after 4 weeks of treatment with antipsychotic medication and once after 4 weeks of placebo administration, according to a counterbalanced, double-blind, within-subject study design.Patients homozygous for the COMT met allele displayed significant improvement on the working memory task after treatment. Patients homozygous for the COMT val allele did not show working memory improvement with treatment. Other COMT polymorphisms were not associated with significant differences between treatment and placebo conditions.These results support other data suggesting that the COMT val108/158met polymorphism might be an important factor in the cognitive response to antipsychotic medication. [Copyright &y& Elsevier]

Published

2004