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Literature DB >> 27794001

IL-18 and Subcapsular Lymph Node Macrophages are Essential for Enhanced B Cell Responses with TLR4 Agonist Adjuvants.

Anthony L Desbien¹, Natasha Dubois Cauwelaert¹, Steven J Reed¹, Hilton R Bailor¹, Hong Liang¹, Darrick Carter^1,2,3, Malcolm S Duthie^1,2, Christopher B Fox^1,2, Steven G Reed^1,2, Mark T Orr^4,2.

Abstract

Designing modern vaccine adjuvants depends on understanding the cellular and molecular events that connect innate and adaptive immune responses. The synthetic TLR4 agonist glycopyranosyl lipid adjuvant (GLA) formulated in a squalene-in-water emulsion (GLA-SE) augments both cellular and humoral immune responses to vaccine Ags. This adjuvant is currently included in several vaccines undergoing clinical evaluation including those for tuberculosis, leishmaniasis, and influenza. Delineation of the mechanisms of adjuvant activity will enable more informative evaluation of clinical trials. Early after injection, GLA-SE induces substantially more Ag-specific B cells, higher serum Ab titers, and greater numbers of T follicular helper (TFH) and Th1 cells than alum, the SE alone, or GLA without SE. GLA-SE augments Ag-specific B cell differentiation into germinal center and memory precursor B cells as well as preplasmablasts that rapidly secrete Abs. CD169+ SIGNR1+ subcapsular medullary macrophages are the primary cells to take up GLA-SE after immunization and are critical for the innate immune responses, including rapid IL-18 production, induced by GLA-SE. Depletion of subcapsular macrophages (SCMф) or abrogation of IL-18 signaling dramatically impairs the Ag-specific B cell and Ab responses augmented by GLA-SE. Depletion of SCMф also drastically reduces the Th1 but not the TFH response. Thus the GLA-SE adjuvant operates through interaction with IL-18-producing SCMф for the rapid induction of B cell expansion and differentiation, Ab secretion, and Th1 responses, whereas augmentation of TFH numbers by GLA-SE is independent of SCMф.

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Year: 2016 PMID： 27794001 PMCID： PMC5123812 DOI： 10.4049/jimmunol.1600993

Source DB: PubMed Journal: J Immunol ISSN： 0022-1767 Impact factor: 5.422

49 in total

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Journal: Vaccine Date: 2014-01-04 Impact factor: 3.641

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Authors: D T O'Hagan; G S Ott; E De Gregorio; A Seubert
Journal: Vaccine Date: 2012-06-19 Impact factor: 3.641

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Authors: Christopher H Clegg; Richard Roque; Neal Van Hoeven; Lucy Perrone; Susan L Baldwin; Joseph A Rininger; Richard A Bowen; Steven G Reed
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6. Adjuvant formulation structure and composition are critical for the development of an effective vaccine against tuberculosis.

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Journal: J Control Release Date: 2013-08-09 Impact factor: 9.776

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Authors: Jon A Hagar; Daniel A Powell; Youssef Aachoui; Robert K Ernst; Edward A Miao
Journal: Science Date: 2013-09-13 Impact factor: 47.728

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Authors: Ryan C Anderson; Christopher B Fox; Timothy S Dutill; Narek Shaverdian; Tara L Evers; Garrett R Poshusta; James Chesko; Rhea N Coler; Martin Friede; Steven G Reed; Thomas S Vedvick
Journal: Colloids Surf B Biointerfaces Date: 2009-08-20 Impact factor: 5.268

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Authors: Anja Seubert; Samuele Calabro; Laura Santini; Barbara Galli; Alessia Genovese; Sara Valentini; Susanna Aprea; Annalisa Colaprico; Ugo D'Oro; Marzia M Giuliani; Michele Pallaoro; Mariagrazia Pizza; Derek T O'Hagan; Andreas Wack; Rino Rappuoli; Ennio De Gregorio
Journal: Proc Natl Acad Sci U S A Date: 2011-06-20 Impact factor: 11.205

10. Development and characterization of synthetic glucopyranosyl lipid adjuvant system as a vaccine adjuvant.

Authors: Rhea N Coler; Sylvie Bertholet; Magdalini Moutaftsi; Jeff A Guderian; Hillarie Plessner Windish; Susan L Baldwin; Elsa M Laughlin; Malcolm S Duthie; Christopher B Fox; Darrick Carter; Martin Friede; Thomas S Vedvick; Steven G Reed
Journal: PLoS One Date: 2011-01-26 Impact factor: 3.240

19 in total

Review 1. Old and new adjuvants.

Authors: Amy S McKee; Philippa Marrack
Journal: Curr Opin Immunol Date: 2017-07-19 Impact factor: 7.486

2. The role of IL-1 family of cytokines and receptors in pathogenesis of COVID-19.

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3. Targeting TLR4 during vaccination boosts MAdCAM-1⁺ lymphoid stromal cell activation and promotes the aged germinal center response.

Authors: Alice E Denton; James Dooley; Isabella Cinti; Alyssa Silva-Cayetano; Sigrid Fra-Bido; Silvia Innocentin; Danika L Hill; Edward J Carr; Andrew N J McKenzie; Adrian Liston; Michelle A Linterman
Journal: Sci Immunol Date: 2022-05-06

4. Effective Combination Adjuvants Engage Both TLR and Inflammasome Pathways To Promote Potent Adaptive Immune Responses.

Authors: Emilie Seydoux; Hong Liang; Natasha Dubois Cauwelaert; Michelle Archer; Nicholas D Rintala; Ryan Kramer; Darrick Carter; Christopher B Fox; Mark T Orr
Journal: J Immunol Date: 2018-05-16 Impact factor: 5.422

5. Immunosenescence: A systems-level overview of immune cell biology and strategies for improving vaccine responses.

Authors: Stephen N Crooke; Inna G Ovsyannikova; Gregory A Poland; Richard B Kennedy
Journal: Exp Gerontol Date: 2019-06-13 Impact factor: 4.253

Review 6. Harnessing T Follicular Helper Cell Responses for HIV Vaccine Development.

Authors: Julia Niessl; Daniel E Kaufmann
Journal: Viruses Date: 2018-06-19 Impact factor: 5.048

7. Activation of the endoplasmic reticulum stress sensor IRE1α by the vaccine adjuvant AS03 contributes to its immunostimulatory properties.

Authors: Charlotte Givord; Iain Welsby; Sophie Detienne; Séverine Thomas; Assiya Assabban; Viviana Lima Silva; Céline Molle; Romain Gineste; Marjorie Vermeersch; David Perez-Morga; Oberdan Leo; Catherine Collignon; Arnaud M Didierlaurent; Stanislas Goriely
Journal: NPJ Vaccines Date: 2018-06-28 Impact factor: 7.344