Michael Dee Gunn
Michael Dee Gunn

Michael Dee Gunn

Professor of Medicine

Overview

The focus of my work is on understanding how dendritic cells, monocytes, and macrophages regulate immune responses, contribute to specific disease pathologies, and can be manipulated to stimulate or inhibit specific immune responses. We are also using our knowledge of immunology to develop diagnostics and therapeutics for a variety of human diseases. 

Lab History 

The lab started with our discovery of the lymphoid chemokines, which regulate the migration of lymphocytes and dendritic cells to and within secondary lymphoid organs.  We identified the chemokine (CCL21) that mediates the entry of naïve T cells and activated dendritic cells into lymph nodes and the chemokine (CXCL13) that mediates the entry of B cells into lymphoid follicles.  Our focus then shifted to understanding how specific cell types, primarily dendritic cells, and cell migration events regulate immune responses.  We identified murine plasmacytoid dendritic cells; the cell type that causes pulmonary immune pathology during influenza infection; the dendritic cell type that stimulates Th1 immune responses; the cell type that induces neuronal injury in Alzheimer's disease, and the macrophage type that stimulates pulmonary hypertension.  Our current work continues these basic studies while applying our findings to models of human disease. 

Current Research 

Tumor immune therapeutics – We have developed a novel cellular vaccine strategy for the treatment of cancer.  This strategy is much simpler, more cost effective, more clinically feasible, and much more efficacious than classic dendritic cell vaccines.  We are now determining the mechanisms by which this vaccine induces such potent immune responses and advancing it to initial human clinical trials.

Development of recombinant antibodies as diagnostic reagents – Our lab has developed novel methods to generate recombinant single chain antibodies using phage display technology.  We are currently using these methods to generate pathogen-specific antibodies for use in diagnostic tests for a variety of human bacterial, viral, and fungal infections.  In collaboration with Duke Biomedical Engineering, we are deploying our antibodies in a novel diagnostic assay platform to develop point-of-care assays for the diagnosis of a variety of emerging pathogens.  Our recently developed point-of-care assay for Ebola virus displays a sensitivity superior to PCR at a fraction of the per assay cost.

Positions

Professor of Medicine in the School of Medicine

2014 School of Medicine

Professor in Integrative Immunobiology in the School of Medicine

2014 School of Medicine

Associate Professor in Pathology in the School of Medicine

2014 School of Medicine

Member of the Duke Cancer Institute in the School of Medicine

2018 School of Medicine

Education

M.D. 1983

1983 UT Southwestern Medical School

Internship and Residency, INTERNAL MEDICINE

9999 Parkland Health & Hospital System

Fellowship in Cardiology, CARDIOLOGY

9999 University of California, San Francisco

Publications, Grants & Awards

Offices & Contact

CARL Building Room 180B
Durham, NC
27703
Duke Box 102143
Durham, NC
27710