Research Interest: Pathogenesis & Infection
| Name | PhD Program | Research Interest | Publications |
|---|---|---|
| Pickles, Raymond J. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My laboratory, located in the Cystic Fibrosis/Pulmonary Research and Treatment Center in the Thurston-Bowles building at UNC, is interested in how respiratory viruses infect the airway epithelium of the conducting airways of the human lung. |
| Randell, Scott WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My laboratory research is focused on basic cell biology questions as they apply to clinical lung disease problems. Our main work recently has been contributing to the Cystic Fibrosis (CF) Foundtation Stem Cell Consortium, with a focus on developing cell and gene editing therapies for CF. I contribute to UNC team science efforts on cystic fibrosis, aerodigestive cancers, emerging infectious diseases and inhalation toxicology hazards. I direct a highly respected tissue procurement and cell culture Core providing primary human lung cells and other resources locally, nationally and internationally. I co-direct the Respiratory Block in the UNC Translational Educational Curriculum for medical students and also teach in several graduate level courses. |
| Sartor, R. Balfour WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our long term goals are to better define mechanisms of chronic intestinal inflammation and to identify areas for therapeutic intervention. Research in our laboratories is in the following four general areas: 1) Induction and perpetuation of chronic intestinal and extraintestinal inflammation by resident intestinal bacteria and their cell wall polymers, 2) Mechanisms of genetically determined host susceptibility to bacterial product,. 3) Regulation of immunosuppressive molecules in intestinal epithelial cells and 4) Performing clinical trials of novel therapeutic agents in inflammatory bowel disease patients. |
| Swanstrom, Ronald WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
First, we study the complex HIV-1 population that exists within a person. We use this complexity to ask questions about viral evolution, transmission, compartmentalization, and pathogenesis. Second, we are exploring the impact of drug resistance on viral fitness and identifying new drug targets in the viral protein processing pathway. Third, we participate in a collaborative effort to develop an HIV-1 vaccine. Fourth, we are using mutagenesis to determine the role of RNA secondary structure in viral replication. |
| Tamayo, Rita WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our lab studies the mechanisms facultative pathogens use to adapt to disparate and changing extracellular conditions. Our primary interest is in the ability of Vibrio cholerae, the causative agent of cholera, to persist in its native aquatic environment and also flourish in the host intestinal tract. We are addressing key questions about the role of cyclic diguanylate, a signaling molecule unique to and ubiquitous in bacteria, in the physiological adaptations of V. cholerae as it transits from the aquatic environment into a host. In addition, we are identifying and characterizing factors produced by V. cholerae during growth in a biofilm, a determinant of survival in aquatic environments, that contribute to virulence. I will be accepting rotation students beginning in the winter of 2009. |
| Vilen, Barbara WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are interested in understanding how autoreactive B cells become re-activated to secrete autoantibodies that lead to autoimmune disease. Our research is focused on understanding how signal transduction through the B cell antigen receptor (BCR) and Toll Like Receptors (TLR) lead to secretion of autoantibodies in Systemic Lupus Erythematosus (SLE). |
| Whitmire, Jason WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Whitmire lab investigates how the adaptive immune system protects against virus infection. The research is focused on understanding the mechanisms by which interferons, cytokines, and other accessory molecules regulate T cell numbers and functions following acute and chronic virus infections. The goal is to identify and characterize the processes that differentiate memory T cells in vivo. The long-term objective is to develop strategies that improve vaccines against infectious diseases by manipulating these pathways. |
| Wolberg, Alisa WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We investigate mechanisms in blood coagulation and diseases that intersect with abnormal blood biomarkers and function, including cardiovascular disease (heart attack, stroke, deep vein thrombosis, pulmonary embolism), bleeding (hemophilia), inflammation, obesity, and cancer. We also investigate established drugs and new drugs in preclinical development to understand their role in reducing and preventing disease. Our studies use interdisciplinary techniques, including in vitro, ex vivo, and in vivo mouse models and samples from humans in translational studies that span clinic to bench. Our lab emphasizes a culture of diversity, responsibility, independence and collaboration, and shared excitement for scientific discovery. We are located in the UNC Blood Research Center in the newly-renovated Mary Ellen Jones building. |
| Wolfgang, Matthew C. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Pseudomonas aeruginosa is a Gram-negative opportunistic pathogen responsible for a variety of diseases in individuals with compromised immune function. Dr. Wolfgang’s research focuses on the pathogenesis of Pseudomonas aeruginosa infection. The goal of his research is to understand how this opportunistic pathogen coordinates the expression of virulence factors in response to the host environment. Projects in his laboratory focus on the regulation of intracellular cyclic AMP, a second messenger signaling molecule that regulates P. aeruginosa virulence. Dr. Wolfgang’s laboratory uses a combination of molecular genetics and biochemical approaches to understand how P. aeruginosa controls the synthesis, degradation and transport of cAMP in response to extracellular cues. Other related projects focus on the regulation and function of P. aeruginosa Type IV pili (TFP). TFP are cAMP regulated surface organelles that are critical for bacterial colonization of human mucosal tissue. In addition, the Wolfgang lab is actively involved in characterizing the lung microbiome of patients with chronic airway diseases and studying the interactions between P. aeruginosa and other bacterial species during mixed infections. |
| Fessler, Michael B. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Fessler laboratory investigates mechanisms of the innate immune response, in particular Toll like Receptor (TLR) pathways and how they regulate inflammatory and host defense responses in the lung. To this end, we use both in vitro (macrophage cultures) and in vivo (mouse models of acute lung injury and pneumonia) model systems, and also use translational approaches (e.g., studies using human peripheral blood leukocytes and alveolar macrophages). An area of particular interest within the laboratory is defining how cholesterol trafficking and dyslipidemia innate immunity. |