Potential SVSRP Mentors
Potential Mentors – Research Areas and Contact Information
Potential mentors from the faculty at VA-MD Vet Med and the College of Agriculture and Life Sciences are listed below with a brief description of their research interest. Detailed information is available through the links provided. Applicants may contact these faculty to discuss their application and research interests.
These faculty were selected because they have active research funding (mostly from NIH) as well as substantial experience in mentoring research trainees at the pre- and post-doctoral level.
Immunology and Inflammation Team
Ansar Ahmed, DVM, PhD, Head of Department of Biomedical Sciences and Pathobiology and Professor of Immunology (firstname.lastname@example.org, 540-231-5649). By using relevant animal models for inflammation and autoimmune diseases, the laboratory focus is to investigate: (1) the molecular basis of how pro-inflammatory cytokines are induced and decipher aberrant cell signaling events; (2) why these disorders occur predominantly in females? and (3) the role of microRNAs in autoimmune and inflammatory diseases.
Terry Hrubec, DVM, PhD, Assistant Professor in the Department of Anatomy in the Edward Via Virginia College of Osteopathic Medicine, Adjunct faculty in the College of Veterinary Medicine (email@example.com, 540-231-1702). Determining the mechanisms regulating embryonic and fetal development to create interventions that can prevent birth defects caused by environmental contaminants in drinking water that may be causing fetal malformations in rodents.
Xin M. Luo, PhD, Associate professor of immunology (firstname.lastname@example.org, 540-231-0977). The research interests in the Luo Laboratory are immunological and microbial regulation of autoimmunity and immunodeficiency. On the immunological side, we are interested in the roles of dendritic cells in inflammation; while on the microbial side, we focus on how commensal bacteria in the gut affect the host immune system, and vice versa. We utilize murine models and human patient samples to study various diseases including systemic lupus erythematosus and primary immunodeficiencies.
Christopher Reilly, Associate Professor and Discipline Chair of Physiology in the Edward Via Virginia College of Osteopathic Medicine, Adjunct faculty in the College of Veterinary Medicine (email@example.com, 540-231-5345). Defining the molecular mechanisms and signal transduction cascades involved in inflammation associated with lupus nerphritis.
Infectious Disease Team
Clayton Caswell, PhD, Associate Professor of Bacteriology in the Department of Biomedical Sciences and Pathobiology (firstname.lastname@example.org, 540-231-5591). Roles of small regulatory RNAs in the biology of Brucella spp.; mechanism of interactions between bacteria and hosts; common regulatory pathways in related bacteria
Kylene Kehn-Hall, PhD, Professor of Virology in the Department of Biomedical Sciences and Pathobiology (email@example.com, 540-231-6705). Encephalitic alphaviruses, Rift Valley fever virus, and SARS-CoV-2; identifying critical host factors that are necessary for viral replication and/or pathogenesis; evaluating small molecule inhibitors that target essential host-based events for their therapeutic potential; developing novel diagnostic tools to enable the early detection of viral infections
Margie D. Lee, MS, DVM, PhD, Department Head of Biomedical Sciences and Pathobiology (firstname.lastname@example.org, 540-231-4652). Molecular epidemiology of food safety pathogens; contribution of extracellular enzymes to microbial virulence; molecular ecology and mechanisms of antimicrobial resistance; molecular ecology of intestinal bacterial communities.
XJ Meng, M.D., PhD, University Distinguished Professor in the Department of Biomedical Sciences and Pathobiology (email@example.com, 540-231-6912). Molecular mechanisms of viral replication and pathogenesis and the development of vaccines against emerging and zoonotic viral diseases, including Hepatitis E.
Mohamed Seleem, MS, DVM, PhD, Professor of Bacteriology in the Department of Biomedical Sciences and Pathobiology (firstname.lastname@example.org, 540-231-6705). Develop new antimicrobials and improve delivery of drugs for the treatment of infectious diseases; develop novel methods for early detection and identification of single bacterium/fungus in complex environment.
Namalwar Sriranganathan, BVSc., MVSc, PhD, Professor in the Department of Biomedical Sciences and Pathobiology (email@example.com, 540-231-7171). Develop alternate treatment strategies by improving the bioavailability of therapeutic agents and by targeting specific cells using block-copolymers and amorphous nanoparticles.
Population Health Sciences
Andrea S. Bertke, PhD, Associate Professor of Infectious Diseases in Public Health in the Department of Population Health Sciences (firstname.lastname@example.org, 540-231-2707). Pathogenesis, latency, and reactivation of herpes simplex viruses, comparing HSV1 and HSV2; development of antivirals to prevent reactivation; autonomic nervous system pathways; interactions between nociceptors and autonomic neurons.
Julia Gohlke, PhD, Associate Professor of Environmental Health in the Department of Population Health Sciences (email@example.com, 540-231-7880). Human health implications of global environmental change, human health risk assessment and communication after large-scale environmental disasters, bioinformatic and alternative model techniques for disseminating the molecular underpinnings of environmental effects on human health, and quantitative methods for estimating interspecies differences in brain development.
Sheryl Coutermarsh-Ott, PhD, Assistant Professor in the Department of Biomedical Sciences and Pathobiology (firstname.lastname@example.org, 540-231-9823).Tumor immunology; experimental and spontaneously-occurring tumor models; translational animal models; oncologic pathology.
Translational and Regenerative Medicine
Jia-Qiang He, PhD, Assistant Professor of Stem Cell Physiology in the Department of Biomedical Sciences and Pathobiology (email@example.com, 540-231-2032). Controlled cardiac lineage differentiation of embryonic stem cells, iPSCs and adult cardiac stem cells; iPSC reprograming and characterization; Electrophysiological and functional maturity of stem cell-derived cardiomyocytes.