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Research Lab Results for metabolism

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  • Charles W. Flexner Laboratory

    Principal Investigator:
    Charles Flexner, M.D.
    Medicine

    A. Laboratory activities include the use of accelerator mass spectrometry (AMS) techniques to m...easure intracellular drugs and drugs metabolites. AMS is a highly sensitive method for detecting tracer amounts of radio-labeled molecules in cells, tissues, and body fluids. We have been able to measure intracellular zidovudine triphosphate (the active anabolite of zidovudine) in peripheral blood mononuclear cells from healthy volunteers given small doses of 14C-zidovudine, and have directly compared the sensitivity of AMS to traditional LC/MS methods carried out in our laboratory.

    B. Clinical research activities investigate the clinical pharmacology of new anti-HIV therapies and drug combinations. Specific drug classes studied include HIV reverse transcriptase inhibitors, protease inhibitors, entry inhibitors (selective CCR5 and CXCR4 antagonists), and integrase inhibitors. Scientific objectives of clinical studies include characterization of early drug activity, toxicity, and pharmacokinetics. Additional objectives are characterization of pathways of drug metabolism, and identification of clinically significant harmful and beneficial drug interactions mediated by hepatic and intestinal cytochrome P450 isoforms.
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    Research Areas: antiretroviral drugs, infectious disease, HIV protease inhibitors, HIV, drugs, accelerator mass spectrometry
  • Courtney Robertson Lab

    Lab Website

    Work in the Courtney Robertson Lab is focused on identifying interventions that could minimize ...the neurological deficits that can persist after pediatric traumatic brain injury (TBI). One study used a preclinical model to examine potential disruption of mitochondrial function and alterations in cerebral metabolism. It was found that a substantial amount of mitochondrial dysfunction is present in the first six hours after TBI. In addition, we are using nuclear magnetic resonance spectroscopy to evaluate global and regional alterations in brain metabolism after TBI. We're also collaborating with researchers at the University of Pennsylvania to compare mitochondrial function after head injury in different clinically relevant models. view more

    Research Areas: traumatic brain injuries, magnetic resonance spectroscopy, pediatrics, mitochondria, pediatric critical care medicine
  • Drug Discovery Group

    Lab Website
    Principal Investigator:
    Barbara Slusher, Ph.D., M.A.S.
    Oncology

    Barbara Slusher, M.A.S., Ph.D., leads a 20-member veteran drug discovery team of medicinal chem...ists, assay developers, pharmacologists, toxicologists and pharmacokinetic/drug metabolism experts, who identify novel drug targets arising from JHU faculty’s research and translate them into new, small molecule drug therapies.

    Her team collaborates extensively with faculty at the Bloomberg~Kimmel Institute for Cancer Immunotherapy and leads the BKI immunotherapy drug discovery core, aimed at developing new immune-targeting drug therapies for laboratory and clinical testing at Johns Hopkins.
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    Research Areas: glutamine antagonist, drug discovery, cancer, immunotherapy, cancer metabolism
  • Foster Lab

    Lab Website
    Principal Investigator:
    D. Brian Foster, Ph.D., M.Sc.
    Medicine

    The Foster Lab uses the tools of protein biochemistry and proteomics to tackle fundamental prob...lems in the fields of cardiac preconditioning and heart failure. Protein networks are perturbed in heart disease in a manner that correlates only weakly with changes in mRNA transcripts. Moreover, proteomic techniques afford the systematic assessment of post-translational modifications that regulate the activity of proteins responsible for every aspect of heart function from electrical excitation to contraction and metabolism. Understanding the status of protein networks in the diseased state is, therefore, key to discovering new therapies.

    D. Brian Foster, Ph.D., is an assistant professor of medicine in the division of cardiology, and serves as Director of the Laboratory of Cardiovascular Biochemistry at the Johns Hopkins University School of Medicine.


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    Research Areas: proteomics, protein biochemistry, heart failure, cardiology, cardiac preconditioning, cardiomyopathy
  • Guang William Wong Lab

    Principal Investigator:
    Guang Wong, Ph.D.
    Physiology

    The Wong Lab seeks to understand mechanisms employed by cells and tissues to maintain metabolic... homeostasis. We are currently addressing how adipose- and skeletal muscle-derived hormones (adipokines and myokines), discovered in our lab, regulate tissue crosstalk and signaling pathways to control energy metabolism. We use transgenic and knockout mouse models, as well as cell culture systems, to address the role of the CTRP family of hormones in physiological and disease states. We also aim to identify the receptors that mediate the biological functions of CTRPs. view more

    Research Areas: energy metabolism, insulin resistance, hormones, diabetes, metabolic homeostasis
  • Haughey Lab: Neurodegenerative and Neuroinfectious Disease

    Lab Website
    Principal Investigator:
    Norman Haughey, Ph.D.
    Neurology
    Neurosurgery

    Dr. Haughey directs a disease-oriented research program that address questions in basic neurobi...ology, and clinical neurology. The primary research interests of the laboratory are:

    1. To identify biomarkers markers for neurodegenerative diseases including HIV-Associated Neurocognitive Disorders, Multiple Sclerosis, and Alzheimer’s disease. In these studies, blood and cerebral spinal fluid samples obtained from ongoing clinical studies are analyzed for metabolic profiles through a variety of biochemical, mass spectrometry and bioinformatic techniques. These biomarkers can then be used in the diagnosis of disease, as prognostic indicators to predict disease trajectory, or as surrogate markers to track the effectiveness of disease modifying interventions.
    2. To better understand how the lipid components of neuronal, and glial membranes interact with proteins to regulate signal transduction associated with differentiation, motility, inflammatory signaling, survival, and neuronal excitability.
    3. To understand how extracellular vesicles (exosomes) released from brain resident cells regulate neuronal excitability, neural network activity, and peripheral immune responses to central nervous system damage and infections.
    4. To develop small molecule therapeutics that regulate lipid metabolism as a neuroprotective and restorative strategy for neurodegenerative conditions.
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    Research Areas: multiple sclerosis, PTSD, HAND, HIV
  • Joanna Melia Lab

    Principal Investigator:
    Joanna Melia, M.D.
    Medicine

    The performs basic, translational, and clinical research on Zinc metabolism and inflammatory bo...wel disease. view more

    Research Areas: inflammatory bowel disease, Zinc metabolism
  • Joseph Cofrancesco Jr. Lab

    Principal Investigator:
    Joseph Cofrancesco, M.D., M.P.H.
    Medicine

    Research in the Joseph Cofrancesco Jr. Lab focuses primarily on health care for HIV-positive pa...tients. Our recent studies have explored topics such as HIV antiretroviral treatments, HIV resistance and the long-term complications of HIV treatment. In addition, we are part of the U.S. Fat Redistribution and Metabolism (FRAM) study and have had a long-standing involvement in projects that examine metabolic and fat complications in Thailand. view more

    Research Areas: antiretroviral therapies, infectious disease, AIDS, disease resistance, metabolism, HIV
  • Jun Hua Lab

    Lab Website

    Dr. Hua's research has centered on the development of novel MRI technologies for in vivo functi...onal and physiological imaging in the brain, and the application of such methods for studies in healthy and diseased brains. These include the development of human and animal MRI methods to measure functional brain activities, cerebral perfusion and oxygen metabolism at high (3 Tesla) and ultra-high (7 Tesla and above) magnetic fields. He is particularly interested in novel MRI approaches to image small blood and lymphatic vessels in the brain. Collaborating with clinical investigators, these techniques have been applied 1) to detect functional, vascular and metabolic abnormalities in the brain in neurodegenerative diseases such as Huntingdon's disease (HD), Parkinson's disease (PD), Alzheimer's disease (AD) and mental disorders such as schizophrenia; and 2) to map brain functions and cerebrovascular reactivity for presurgical planning in patients with vascular malformations, brain tumors and epilepsy. view more

    Research Areas: imaging technology development, applications in brain diseases
  • Kristine Glunde Lab

    Lab Website

    The Glunde lab is within the Division of Cancer Imaging Research in the Department of Radiology... and Radiological Science. The lab is developing mass spectrometry imaging as part of multimodal molecular imaging workflows to image and elucidate hypoxia-driven signaling pathways in breast cancer. They are working to further unravel the molecular basis of the aberrant choline phospholipid metabolism in cancer. The Glunde lab is developing novel optical imaging agents for multi-scale molecular imaging of lysosomes in breast tumors and discovering structural changes in Collagen I matrices and their role in breast cancer and metastasis. view more

    Research Areas: breast cancer, mass spectrometry, imaging, cancer, metastasis, metabolism, optical imaging
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