Research Interest: Translational Medicine
| Name | PhD Program | Research Interest | Publications |
|---|---|---|
| Brouwer, Kim WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the Brouwer laboratory is focused on: (1) hepatic transport of xenobiotics, including mechanisms of uptake, translocation, and biliary excretion; (2) development/refinement of in vitro model systems to predict in vivo hepatobiliary disposition, drug interactions, and hepatotoxicity; (3) influence of disease (e.g., NASH, kidney disease) on hepatobiliary drug disposition; and (4) pharmacokinetics. |
| Bowers, Albert A. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the Bowers lab focuses on investigation of structure activity relationships and mechanisms of action of natural product-derived small molecule therapeutics. We employ a variety of methods to build and modify compounds of interest, including manipulation of natural product biosynthesis, chemical synthesis, and semi-synthesis. One major area of research in the lab is the rationale engineering of biosynthetic pathways to make bacterial drug factories. Compounds targeting transcriptional regulation of cancer as well as multi-drug resistant venereal infections are currently under investigation in the lab. |
| Bergmeier, Wolfgang WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our research focuses on the adhesion mechanisms of platelets and neutrophils to sites of vascular injury/ activation. For successful adhesion, both cell types rely on activation-dependent receptors (integrins) expressed on the cell surface. We are particularly interested in the role of calcium (Ca2+) as a signaling molecule that regulates the inside-out activation of integrin receptors. Our studies combine molecular and biochemical approaches with microfluidics and state-of-the-art in vivo imaging (intravital microscopy) techniques. |
| Bahnson, Edward Moreira WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are interested in studying diabetic vasculopathies. Patients with type 2 diabetes mellitus or metabolic syndrome have aggressive forms of vascular disease, possessing a greater likelihood of end-organ ischemia, as well as increased morbidity and mortality following vascular interventions. Our long term research aims to change the way we treat arterial disease in diabetes by:
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| Jaspers, Ilona WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in my lab focuses on the mechanisms by which exposure to air pollutants alters respiratory immune responses and modifies susceptibility to and the severity of respiratory virus infections. Specifically, we are examining the effects of air pollutants such as ozone, woodsmoke and tobacco product exposures on host defense responses and influenza virus infections, using several in vitro models of the respiratory epithelium. In collaboration with physician scientists, we are also translating these studies into humans in vivo. |
| Jennette, Charles J. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My research interests and diagnostic responsibilities center around nephropathology and immunopathology. My laboratory carries out basic, translational and clinicopathologic research on kidney diseases. I am most interested in pathogenic mechanisms and pathologic manifestations of glomerular diseases and vasculitis. A major current research focus is on elucidating the pathogenesis of vascular inflammation caused by anti-neutrophil cytoplasmic autoantibodies (ANCA). |
| Juliano, Jonathan WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Despite recent success in reducing malaria transmission, the estimated annual numbers of malaria infections (~225 million) and deaths (~781,000) remain high. Despite this immense burden, our understanding of the genetic diversity of malaria and the factors that promote this diversity is limited. This diversity among plasmodial parasites has a critical impact on many factors involved in the control of infections, including: 1) development of drug resistance, 2) development of naturally acquired immunity, and 3) vaccine design. My laboratory’s primary interests are: 1) describing the genetic diversity of P. falciparum using molecular biological and next generation sequencing tools, and 2) using these data to understand the evolutionary and ecological factors that drive this diversity, promote the emergence of drug resistance and affect our ability to effectively develop immunity. |
| Kabanov, Alexander (Sasha) WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
In our lab we develop novel polymer based drug delivery systems and nanomedicines incorporating small molecules, DNA and polyptides to treat cancer, neurodegenerative and other CNS-related disorders. |
| Kesimer, Mehmet WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
One of the main focuses of my work is the characterization of the large mucin gene products (Mr 2-3 million) and the complexes they make (Mr 10-100 million) essential for the formation of the mucus gels vital for epithelial protection and function. My current work is focused around the human lung, where there are many hypersecretory human diseases, including asthma, cystic fibrosis, and chronic bronchitis, in which these glycoconjugates are centrally implicated. Basic understanding of the qualitative and quantitative changes of mucin macromolecules in lung health and diseases is our main task. |
| Kim, William Y WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our research explores the role of hypoxia-inducible factor (HIF) in tumorigenesis. HIF is a transcription factor that plays a key role in oxygen sensing, the adaptation to hypoxia and the tumor microenvironment. It is expressed in the majority of solid tumors and correlates with poor clinical outcome. Therefore, HIF is a likely promoter of solid tumor growth and angiogenesis. Our lab uses mouse models to ask if and how HIF cooperates with other oncogenic events in cancer. We are currently investigating HIF’s role in the upregulation of circulating tumor cells and circulating endothelial cells. |