Nicolas Rochereau1, Vincent Pavot2, Bernard Verrier2, Fabienne Jospin1, Agathe Ensinas1, Christian Genin1, Blaise Corthésy3, Stéphane Paul4. 1. GIMAP/EA3064, Université de Lyon, CIC 1408 Vaccinology, Saint-Etienne, France. 2. Institut de Biologie & Chimie des Protéines - LBTI, UMR 5305 - CNRS/University of Lyon, Lyon, France. 3. R&D Laboratory of the Division of Immunology and Allergy, CHUV, Centre des Laboratoires d'Epalinges, Epalinges, Switzerland. 4. GIMAP/EA3064, Université de Lyon, CIC 1408 Vaccinology, Saint-Etienne, France. Electronic address: stephane.paul@chu-st-etienne.fr.
Abstract
BACKGROUND: Transmission of mucosal pathogens relies on their ability to bind to the surfaces of epithelial cells, to cross this thin barrier, and to gain access to target cells and tissues, leading to systemic infection. This implies that pathogen-specific immunity at mucosal sites is critical for the control of infectious agents using these routes to enter the body. Although mucosal delivery would ensure the best onset of protective immunity, most of the candidate vaccines are administered through the parenteral route. OBJECTIVE: The present study evaluates the feasibility of delivering the chemically bound p24gag (referred to as p24 in the text) HIV antigen through secretory IgA (SIgA) in nasal mucosae in mice. RESULTS: We show that SIgA interacts specifically with mucosal microfold cells present in the nasal-associated lymphoid tissue. p24-SIgA complexes are quickly taken up in the nasal cavity and selectively engulfed by mucosal dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin-positive dendritic cells. Nasal immunization with p24-SIgA elicits both a strong humoral and cellular immune response against p24 at the systemic and mucosal levels. This ensures effective protection against intranasal challenge with recombinant vaccinia virus encoding p24. CONCLUSION: This study represents the first example that underscores the remarkable potential of SIgA to serve as a carrier for a protein antigen in a mucosal vaccine approach targeting the nasal environment.
BACKGROUND: Transmission of mucosal pathogens relies on their ability to bind to the surfaces of epithelial cells, to cross this thin barrier, and to gain access to target cells and tissues, leading to systemic infection. This implies that pathogen-specific immunity at mucosal sites is critical for the control of infectious agents using these routes to enter the body. Although mucosal delivery would ensure the best onset of protective immunity, most of the candidate vaccines are administered through the parenteral route. OBJECTIVE: The present study evaluates the feasibility of delivering the chemically bound p24gag (referred to as p24 in the text) HIV antigen through secretory IgA (SIgA) in nasal mucosae in mice. RESULTS: We show that SIgA interacts specifically with mucosal microfold cells present in the nasal-associated lymphoid tissue. p24-SIgA complexes are quickly taken up in the nasal cavity and selectively engulfed by mucosal dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin-positive dendritic cells. Nasal immunization with p24-SIgA elicits both a strong humoral and cellular immune response against p24 at the systemic and mucosal levels. This ensures effective protection against intranasal challenge with recombinant vaccinia virus encoding p24. CONCLUSION: This study represents the first example that underscores the remarkable potential of SIgA to serve as a carrier for a protein antigen in a mucosal vaccine approach targeting the nasal environment.
Authors: Alice Gutjahr; Laura Papagno; Francesco Nicoli; Tomohiro Kanuma; Nozomi Kuse; Mariela Pires Cabral-Piccin; Nicolas Rochereau; Emma Gostick; Thierry Lioux; Eric Perouzel; David A Price; Masafumi Takiguchi; Bernard Verrier; Takuya Yamamoto; Stéphane Paul; Victor Appay Journal: JCI Insight Date: 2019-04-04
Authors: Alice Gutjahr; Laura Papagno; Fabienne Vernejoul; Thierry Lioux; Fabienne Jospin; Blandine Chanut; Eric Perouzel; Nicolas Rochereau; Victor Appay; Bernard Verrier; Stéphane Paul Journal: EBioMedicine Date: 2020-07-30 Impact factor: 8.143