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Literature DB >> 21945494

Exploiting mucosal surfaces for the development of mucosal vaccines.

Abstract

Mucosal immunity covers a variety of mucosal surfaces susceptible to different pathogens. This review highlights the diversity of mucosal tissues and the unique microenvironments in which an immune response is generated. It argues that tissue-specific factors present throughout mucosal tissues and lymph nodes determine the differentiation into IgA-producing B cells, which in turn determines their migration patterns. Mucosal immunity can therefore be induced when antigen is delivered at any mucosal tissue without the need for specific 'mucosal adjuvants' or targeting to specialised lymphoid structures. Non-oral vaccination strategies directed at alternative and more accessible mucosal tissue sites, may provide new avenues for both mucosal and systemic immunization, and will be greatly facilitated by the use of large animal models.

Mesh：

Substances：
Vaccines

Year: 2011 PMID： 21945494 DOI： 10.1016/j.vaccine.2011.09.010

Source DB: PubMed Journal: Vaccine ISSN： 0264-410X Impact factor: 3.641

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Cited

10 in total

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Authors: Pedro Ferreirinha; Joana Dias; Alexandra Correia; Begoña Pérez-Cabezas; Carlos Santos; Luzia Teixeira; Adília Ribeiro; António Rocha; Manuel Vilanova
Journal: Immunology Date: 2014-02 Impact factor: 7.397

Review 2. Mucosal vaccines: novel strategies and applications for the control of pathogens and tumors at mucosal sites.

Authors: Mevyn Nizard; Mariana O Diniz; Helene Roussel; Thi Tran; Luis Cs Ferreira; Cecile Badoual; Eric Tartour
Journal: Hum Vaccin Immunother Date: 2014 Impact factor: 3.452

Review 3. From sewer to saviour - targeting the lymphatic system to promote drug exposure and activity.

Authors: Natalie L Trevaskis; Lisa M Kaminskas; Christopher J H Porter
Journal: Nat Rev Drug Discov Date: 2015-10-16 Impact factor: 84.694

4. Efficacy of a live intranasal vaccine against parainfluenza type 3 and bovine respiratory syncytial virus in young calves with maternally derived antibodies.

Authors: Lucy Metcalfe; Mathieu Chevalier; Marie-Pascale Tiberghien; Edmond Jolivet; Milan Huňady; Sioned Timothy; Corinne Philippe-Reversat
Journal: Vet Rec Open Date: 2020-11-06

5. Alga-produced cholera toxin-Pfs25 fusion proteins as oral vaccines.

Authors: James A Gregory; Aaron B Topol; David Z Doerner; Stephen Mayfield
Journal: Appl Environ Microbiol Date: 2013-04-19 Impact factor: 4.792

6. Recombinant Invasive Lactococcus lactis Carrying a DNA Vaccine Coding the Ag85A Antigen Increases INF-γ, IL-6, and TNF-α Cytokines after Intranasal Immunization.

Authors: Pamela Mancha-Agresti; Camila Prosperi de Castro; Janete S C Dos Santos; Maíra A Araujo; Vanessa B Pereira; Jean G LeBlanc; Sophie Y Leclercq; Vasco Azevedo
Journal: Front Microbiol Date: 2017-07-11 Impact factor: 5.640

10. Parenteral Antioxidant Supplementation at Birth Improves the Response to Intranasal Vaccination in Newborn Dairy Calves.

Authors: Arpita Nayak; Angel Abuelo
Journal: Antioxidants (Basel) Date: 2021-12-12