Your search keyword '"Cassel, Suzanne L."' showing total 2 results

1. Coinfection with Leishmania major and Staphylococcus aureus enhances the pathologic responses to both microbes through a pathway involving IL-17A.

Author

Borbón, Tiffany Y., Scorza, Breanna M., Clay, Gwendolyn M., Lima Nobre de Queiroz, Fellipe, Sariol, Alan J., Bowen, Jayden L., Chen, Yani, Zhanbolat, Bayan, Parlet, Corey P., Valadares, Diogo G., Cassel, Suzanne L., Nauseef, William M., Horswill, Alexander R., Sutterwala, Fayyaz S., and Wilson, Mary E.

Subjects

LEISHMANIA major, MIXED infections, STAPHYLOCOCCUS aureus, TOXIC shock syndrome, MICROORGANISMS, PARASITIC diseases

Abstract

Cutaneous leishmaniasis (CL) is a parasitic disease causing chronic, ulcerating skin lesions. Most humans infected with the causative Leishmania protozoa are asymptomatic. Leishmania spp. are usually introduced by sand flies into the dermis of mammalian hosts in the presence of bacteria from either the host skin, sand fly gut or both. We hypothesized that bacteria at the dermal inoculation site of Leishmania major will influence the severity of infection that ensues. A C57BL/6 mouse ear model of single or coinfection with Leishmania major, Staphylococcus aureus, or both showed that single pathogen infections caused localized lesions that peaked after 2–3 days for S. aureus and 3 weeks for L. major infection, but that coinfection produced lesions that were two-fold larger than single infection throughout 4 weeks after coinfection. Coinfection increased S. aureus burdens over 7 days, whereas L. major burdens (3, 7, 28 days) were the same in singly and coinfected ears. Inflammatory lesions throughout the first 4 weeks of coinfection had more neutrophils than did singly infected lesions, and the recruited neutrophils from early (day 1) lesions had similar phagocytic and NADPH oxidase capacities. However, most neutrophils were apoptotic, and transcription of immunomodulatory genes that promote efferocytosis was not upregulated, suggesting that the increased numbers of neutrophils may, in part, reflect defective clearance and resolution of the inflammatory response. In addition, the presence of more IL-17A-producing γδ and non-γδ T cells in early lesions (1–7 days), and L. major antigen-responsive Th17 cells after 28 days of coinfection, with a corresponding increase in IL-1β, may recruit more naïve neutrophils into the inflammatory site. Neutralization studies suggest that IL-17A contributed to an enhanced inflammatory response, whereas IL-1β has an important role in controlling bacterial replication. Taken together, these data suggest that coinfection of L. major infection with S. aureus exacerbates disease, both by promoting more inflammation and neutrophil recruitment and by increasing neutrophil apoptosis and delaying resolution of the inflammatory response. These data illustrate the profound impact that coinfecting microorganisms can exert on inflammatory lesion pathology and host adaptive immune responses. [ABSTRACT FROM AUTHOR]

Published

2019

2. Immune Complexes Indirectly Suppress the Generation of Th17 Responses In Vivo.

Author

Ciraci, Ceren, Janczy, John R., Jain, Nidhi, Haasken, Stefanie, Pecli e Silva, Cyntia, Benjamim, Claudia F., Sadler, Jeffrey J., Olivier, Alicia K., Iwakura, Yoichiro, Shayakhmetov, Dmitry M., Sutterwala, Fayyaz S., and Cassel, Suzanne L.

Subjects

T helper cells, NATURAL immunity, CD4 antigen, IMMUNOLOGICAL adjuvants, INFLAMMASOMES, DENDRITIC cells

Abstract

The precise context in which the innate immune system is activated plays a pivotal role in the subsequent instruction of CD4+ T helper (Th) cell responses. Th1 responses are downregulated when antigen is encountered in the presence of antigen-IgG immune complexes. To assess if Th17 responses to antigen are subject to similar influences in the presence of immune complexes we utilized an inflammatory airway disease model in which immunization of mice with Complete Freund’s Adjuvant (CFA) and ovalbumin (Ova) induces a powerful Ova-specific Th1 and Th17 response. Here we show that modification of that immunization with CFA to include IgG-Ova immune complexes results in the suppression of CFA-induced Th17 responses and a concurrent enhancement of Ova-specific Th2 responses. Furthermore, we show the mechanism by which these immune complexes suppress Th17 responses is through the enhancement of IL-10 production. In addition, the generation of Th17 responses following immunization with CFA and Ova were dependent on IL-1α but independent of NLRP3 inflammasome activation. Together these data represent a novel mechanism by which the generation of Th17 responses is regulated. [ABSTRACT FROM AUTHOR]

Published

2016