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Displaying 1 to 10 of 12 results for schizophrenia

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  • Andrew Feinberg Laboratory

    The Feinberg Laboratory studies the epigenetic basis of normal development and disease, including cancer, aging and neuropsychiatric illness. Early work from our group involved the discovery of altered DNA methylation in cancer as well as common epigenetic (methylation and imprinting) variants in the population that may be responsible for a significant population-attributable risk of cancer.

    Over the last few years, we have pioneered the field of epigenomics (i.e., epigenetics at a genome-scale level), founding the first NIH-supported NIH epigenome center in the country and developing many novel tools for molecular and statistical analysis. Current research examines the mechanisms of epigenetic modification, the epigenetic basis of cancer, the invention of new molecular, statistical, and epidemiological tools for genome-scale epigenetics and the epigenetic basis of neuropsychiatric disease, including schizophrenia and autism.

    Research Areas: autism, cancer, epigenetics, schizophrenia, human development, aging, DNA, genomics, neuropsychiatric disease

    Lab Website

    Principal Investigator

    Andrew Feinberg, M.D., M.P.H.

    Department

    Medicine

  • Bakker Memory Lab

    Research in the Bakker Memory Laboratory is focused on understanding the mechanisms and brain networks underlying human cognition with a specific focus on the mechanisms underlying learning and memory and the changes in memory that occur with aging and disease. We use a variety of techniques including neuropsychological assessments, experimental behavioral assessments and particularly advanced neuroimaging methods to study these questions in young and older adults and patients with mild cognitive impairment, Alzheimer’s disease, Parkinson’s disease and epilepsy.

    Through our collaborations with investigators in both basic science and clinical departments, including the departments of Psychiatry and Behavioral Sciences, Psychological and Brain Sciences, Neurology and Public Health, our research also focuses on brain systems involved in spatial navigation and decision-making as well as cognitive impairment in neuropsychiatric conditions such as schizophrenia, eating disorders, obsessiv...e-compulsive disorders, depression and anxiety. view more

    Research Areas: epilepsy, depression, Parkinson's disease, Alzheimer's disease

  • Brady Maher Laboratory

    The Brady Maher Laboratory is interested in understanding the cellular and circuit pathophysiology that underlies neurodevelopmental and psychiatric disorders. Our lab focuses on trying to understand the function of genes that are associated with neurodevelopment problems by manipulating their expression level in utero during the peak of cortical development. We then use a variety of approaches and technologies to identify resulting phenotypes and molecular mechanisms including cell and molecular biology, optogenetics, imaging and electrophysiology.

    Current projects in the lab are focused on understanding the function of transcription factor 4 (TCF4), a clinically pleiotropic gene. Genome-wide association studies have identified genetic variants of TCF4 that are associated with schizophrenia, while autosomal dominant mutations in TCF4 result in Pitt Hopkins syndrome. Using our model system, we have identified several interesting electrophysiological and cell biological phenotypes as...sociated with altering the expression of TCF4 in utero. We hypothesize that these phenotypes represent cellular pathophysiology related to these disorders and by understanding the molecular mechanisms responsible for these phenotypes we expect to identify therapeutic targets for drug development.
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    Research Areas: cell biology, neurodevelopment, imaging, schizophrenia, psychiatric disorders, Pitt Hopkins syndrome, elecrophysiology, genomics, drugs, optogenetics, molecular biology, phenotypes

  • Brown Lab

    The Brown Lab is focused on the function of the cerebral cortex in the brain, which underlies our ability to interact with our environment through sensory perception and voluntary movement. Our research takes a bottom-up approach to understanding how the circuits of this massively interconnected network of neurons are functionally organized, and how dysfunction in these circuits contributes to neurodegenerative diseases like amyotrophic lateral sclerosis and neuropsychiatric disorders, including autism and schizophrenia. By combining electrophysiological and optogenetic approaches with anatomical and genetic techniques for identifying cell populations and pathways, the Brown Lab is defining the synaptic interactions among different classes of cortical neurons and determining how long-range and local inputs are integrated within cortical circuits. In amyotrophic lateral sclerosis, corticospinal and spinal motor neurons progressively degenerate. The Brown Lab is examining how abnormal ...activity within cortical circuits contributes to the selective degeneration of corticospinal motor neurons in an effort to identify new mechanisms for treating this disease. Abnormalities in the organization of cortical circuits and synapses have been identified in genetic and anatomical studies of neuropsychiatric disease. We are interested in the impact these abnormalities have on cortical processing and their contribution to the disordered cognition typical of autism and schizophrenia. view less

    Research Areas: autism, neurodegenerative diseases, brain, electrophysiology, ALS, schizophrenia, cerebral cortex, optogenetics

    Lab Website

    Principal Investigator

    Solange Brown, M.D., Ph.D.

    Department

    Neuroscience

  • Christopher A. Ross Lab

    Dr. Ross and his research team have focused on Huntington's disease and Parkinson's disease, and now are using insights from these disorders to approach more complex diseases such as schizophrenia and bipolar disorder. They use biophysical and biochemical techniques, cell models, and transgenic mouse models to understand disease processes, and to provide targets for development of rational therapeutics. These then can provide a basis for developing small molecule interventions, which can be used both as probes to study biology, and if they have favorable drug-like properties, for potential therapeutic development. We have used two strategies for identifying lead compounds. The first is the traditional path of identification of specific molecular targets, such as enzymes like the LRRK2 kinase of Parkinson’s disease. Once structure is known, computational approaches or fragment based lead discovery, in collaboration, can be used. The second is to conduct phenotypic screens using ce...ll models, or in a collaboration, natural products in a yeast model. Once a lead compound is identified, we use cell models for initial tests of compounds, then generate analogs, and take compounds that look promising to preclinical therapeutic studies in animal models. The ultimate goal is to develop therapeutic strategies that can be brought to human clinical trials, and we have pioneered in developing biomarkers and genetic testing for developing strategies. view more

    Research Areas: psychiatric disorders

  • Cohen Lab

    The Cohen Lab studies neural circuits underlying reward, mood and decision making. We seek to understand how neural circuits control fundamental mammalian behaviors. Many disorders, including depression, schizophrenia, drug addiction and Parkinson's disease, appear to involve dysfunction of monoaminergic signaling. Using cell-type-specific tools and well-controlled behavioral tasks in mice, we aim to understand the function of monoaminergic circuits in behavior. We hope these basic discoveries will lead to an understanding of the biology of the brain and better treatments for disorders of the brain.

    Research Areas: neural circuits, brain, schizophrenia, mental illness, neuroscience, Parkinson's disease

    Lab Website

    Principal Investigator

    Jeremiah Cohen, Ph.D.

    Department

    Neuroscience

  • Daniel Weinberger Laboratory

    The Daniel Weinberger Laboratory focuses on the neurobiological mechanisms of genetic risk for developmental brain disorders. We study the genetic regulation of the transcriptome in normal human brain across the human life span and in brains from patients with various psychiatric disorders. We also study the impact of genetic variation on aspects of human brain development and function linked with risk for schizophrenia and related psychiatric disorders. Our lab uses unique molecular and clinical datasets and biological materials from a large sample of families with affected and unaffected offspring and normal volunteers. These datasets include DNA, lymphoblast and fibroblast cell lines, and extensive quantitative phenotypes related to genetic risk for schizophrenia, including detailed cognitive assessments and various neuroimaging assays. In other research, we are working on a human brain transcriptome project that is RNA sequencing over 1,000 human brain samples in various regi...ons and based also on sorting of specific celliular phentypes. We are exploring the molecular processing of the gene and its implications for cognition and aspects of human temperament. view more

    Research Areas: neurobiology, brain, transcriptome, schizophrenia, psychiatric disorders, genomics, developmental disorders, RNA

  • Gail Daumit Lab

    Research in the Gail Daumit Lab is devoted to improving overall health and decreasing premature mortality for people with serious mental illnesses, such as schizophrenia and bipolar disorder. We have conducted observational studies to determine and convey the burden of physical health problems in this vulnerable population, and are currently leading a randomized trial funded by the National Heart, Lung, and Blood Institute to test a comprehensive cardiovascular risk reduction program in people with serious mental illness.

    Research Areas: mental health, schizophrenia, bipolar disorder, cardiovascular diseases

    Principal Investigator

    Gail Daumit, M.D., M.H.S.

    Department

    Medicine

  • Margaret Daniele Fallin Lab

    Work in the Margaret Daniele Fallin Lab focuses on the genetic epidemiology of neuropsychiatric conditions. Our team primarily studies the genetic basis of autism spectrum disorder, Alzheimer’s disease, schizophrenia and bipolar disorder. We also explore the integration of genetic susceptibility and environmental risk. Our current research involves applying genetic epidemiology methods to develop applications and methods for epigenetic epidemiology, with a focus on mental health and development.

    Research Areas: autism, mental health, epidemiology, schizophrenia, genomics, bipolar disorder, neuropsychiatric disease, Alzheimer's disease

  • Mikhail Pletnikov Laboratory

    The Mikhail Pletnikov Laboratory is interested in the neurobiology of neurodevelopmental diseases such as schizophrenia and autism. The major focus of our laboratory is to evaluate how adverse environmental factors and vulnerable genes interact to affect brain and behavior development. We address these experimental questions by using methods of cell and molecular biology, neuroimmunology, neurochemistry, psychopharmacology and developmental psychobiology. The current projects in our laboratory are: (1) Genetic risk factors in neuron-astrocyte interaction during neurodevelopment, (2) Gene-environment interplay in the pathogenesis of psychiatric conditions, and (3) The neuroimmune interactions in abnormal neurodevelopment

    Research Areas: autism, immunology, neurobiology, cell biology, neurodevelopment, developmental psychobiology, schizophrenia, pharmacology, chemistry, molecular biology

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