Optimal immunity upon respiratory infection depends on lung-resident immune cells. These cells are the first responders to infectious agents, allergens or tissue damage at the lung barrier. We use murine models and human engineered lung tissue models to understand how these resident immune cells respond to infection by influenza virus and respiratory syncytial virus. This new knowledge will help in vaccine design and to understand differences in neonatal and adult immunity.
We are particularly interested in sex differences in immunity. Women often experience a more severe course of influenza virus infection and make up more than 80 percent of patients with autoimmune disease. Cells in the immune system have sex hormone receptors, places that estrogen and androgen can attach and trigger responses, so we know that sex hormones play a role in the system’s function. Our focus is to determine what that role is and how to apply that knowledge to disease.
By learning more about how sex-related hormones like estrogen and androgen impact the immune response, we hope one day to apply that knowledge to fight autoimmune diseases that preferentially affect women such as lupus and Sjögren’s syndrome.
Tissue-resident cells of the innate immune system are the first responders upon infection or tissue damage at mucosal barrier sites. We use a murine model of influenza virus infection to understand the specific roles of lung resident dendritic cells and innate lymphocytes in antiviral responses. We also work with a tissue-engineered lung model in which human respiratory tract myeloid cells are exposed to respiratory syncytial virus, with the goal of understanding differences in neonatal and adult immunity. Our newest project will explore mechanisms by which sepsis induced by Gram-positive bacteria leads to immunosuppression.
Females often experience increased morbidity upon influenza virus infection, as well as increased incidence and severity of autoimmune disease and asthma. A major focus of the lab is to understand sex differences in numbers and function of innate type 2 lymphocytes (ILC2s) in homeostasis and upon inflammation. We published that female mice harbor significantly greater numbers of lung ILC2s in homeostasis, and we would like to understand how this sex difference contributes to ILC2 responses during infection and inflammatory disease. Ongoing projects will dissect the molecular basis of the differential regulation of female and male ILC2s by inflammatory stimuli and sex hormones in a model of influenza virus infection. This project also will help us to understand the female predominance of autoimmune disease.
We also seek to understand how lung-resident dendritic cells (DCs) regulate T cell memory responses to influenza virus. Acute respiratory disease caused by influenza viruses is imperfectly mitigated by annual vaccination to select strains. Understanding how DCs regulate resident memory CD8+ T cells will aid the development of vaccines that elicit more universal protection to seasonal and emerging pandemic viruses. Mice lacking lung-resident IRF4-dependent DCs showed defective CD8+ T cell memory responses, and ongoing experiments will investigate IRF4-regulated pathways in DCs that promote T cell memory. Our work suggests that vaccination strategies to harness the function of IRF4-dependent DCs could promote the development of CD8+ resident memory T cells during influenza infection.
B.A., University of California, Berkeley, 1984
Ph.D., University of Wisconsin, Madison, 1991
Honors and Awards
1983 Honor Scholarship, University of California, Berkeley
1984-1985 Wisconsin Alumni Research Foundation Fellowship
1985-1988 National Science Foundation Graduate Fellowship
1989 Scholar, designated by the American Society for Histocompatibility and Immunogenetics
1993-1994 Leukemia Society of America Fellowship
1994-1997 National Research Service Award – individual fellowship
1998-1999 Arthritis National Research Foundation fellow
1999-2004 Arthritis Foundation Investigator Award – Duggan Award
2004-2005 Arthritis National Research Foundation fellow
2020 J. Donald and Patricia Capra Award for Scientific Achievement
Associate Editor, The Journal of Immunology (2001-2005)
Editorial board member, Current Immunology Reviews
Ad-hoc member, NIH special emphasis and CMI-A, CMI-B, LCMI grant review panels
Ad-hoc reviewer for scientific journals
AAI Committee on the Status of Women (2013-2016)
Adjunct Associate Professor, Dept. of Microbiology & Immunology, OUHSC
American Association of Immunologists
American Association for the Advancement of Science
Society for Mucosal Immunology
Organization for the Study of Sex Differences
Joined OMRF Scientific Staff in 2005
Ainsua-Enrich E, Hatipoglu I, Kadel S, Turner S, Paul J, Singh S, Bagavant H, Kovats S. IRF4-dependent dendritic cells regulate CD8+ T-cell differentiation and memory responses in influenza infection. Mucosal Immunol, 2019 May, PMID: 31089186, PMCID: PMC6527354
Pan Z, Dumas EK, Lawrence C, Pate L, Longobardi S, Wang X, James JA, Kovats S, Farris AD. Bacillus anthracis Edema Toxin Inhibits Efferocytosis in Human Macrophages and Alters Efferocytic Receptor Signaling. Int J Mol Sci 20, 2019 March, PMID: 30866434, PMCID: PMC6429438
Kadel S, Ainsua-Enrich E, Hatipoglu I, Turner S, Singh S, Khan S, Kovats S. A major population of functional KLRG1– ILC2s in female lungs contributes to a sex bias in ILC2 numbers. Immunohorizons. 2018 Feb;2(2):74-86. PMID: 29568816 PMCID: PMC5860819
Bajaña S, Turner S, Paul J, Ainsua-Enrich E, Kovats S. IRF4 and IRF8 Act in CD11c+ Cells To Regulate Terminal Differentiation of Lung Tissue Dendritic Cells. J Immunol. 2016 Feb 15;196(4):1666-77. Epub 2016 Jan 8. PMID: 26746189 PMCID: PMC4744567
Kovats S, Turner S, Simmons A, Powe T, Chakravarty E, Alberola-Ila J. West Nile virus-infected human dendritic cells fail to fully activate invariant natural killer T cells. Clin Exp Immunol. 2016 Nov;186(2):214-226. Epub 2016 Sep 22. PMID: 27513522 PMCID: PMC5054575
Bajaña S, Roach K, Turner S, Paul J, Kovats S. IRF4 promotes cutaneous dendritic cell migration to lymph nodes during homeostasis and inflammation. J Immunol. 2012 Oct 1;189(7):3368-77. PMID: 22933627 PMCID: PMC3448873
Carreras E, Turner S, Frank MB, Knowlton N, Osban J, Centola M, Park CG, Simmons A, Alberola-Ila J, Kovats S. Estrogen receptor signaling promotes dendritic cell differentiation by increasing expression of the transcription factor IRF4. Blood. 2010 Jan 14;115(2):238-46. PMID: 19880499 PMCID: PMC2808152
Arthritis & Clinical Immunology Research Program, MS 24
Oklahoma Medical Research Foundation
825 N.E. 13th Street
Oklahoma City, OK 73104
Phone: (405) 271-8583
Fax: (405) 271-7063
News from the Kovats lab
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