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      In vivo characterization of the physicochemical properties of TLR agonist delivery that enhance vaccine immunogenicity

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          Abstract

          The efficacy of vaccine adjuvants such as Toll-like receptor agonists (TLRa) can be improved through formulation and delivery approaches. Here, we attached small molecule TLR-7/8a to polymer scaffolds (polymer-TLR-7/8a) and evaluated how varying physicochemical properties of the TLR-7/8a and polymer carrier influenced the location, magnitude and duration of innate immune activation in vivo. Particle formation by polymer-TLR-7/8a was critical for restricting adjuvant distribution and prolonging activity in draining lymph nodes. The improved pharmacokinetic profile by particulate polymer-TLR-7/8a was also associated with reduced morbidity and enhanced vaccine immunogenicity for inducing antibodies and T cell immunity. We extended these findings to the development of a modular platform in which protein antigens are site-specifically linked to temperature-responsive polymer-TLR-7/8a adjuvants that self-assemble into immunogenic particles at physiologic temperatures in vivo. Our findings provide a chemical and structural basis for optimizing adjuvant design to elicit broad-based antibody and T cell responses with protein antigens.

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          Multifunctional TH1 cells define a correlate of vaccine-mediated protection against Leishmania major.

          Patricia Darrah, Dipti Patel, Paula De Luca (2007)
          CD4+ T cells have a crucial role in mediating protection against a variety of pathogens through production of specific cytokines. However, substantial heterogeneity in CD4+ T-cell cytokine responses has limited the ability to define an immune correlate of protection after vaccination. Here, using multiparameter flow cytometry to assess the immune responses after immunization, we show that the degree of protection against Leishmania major infection in mice is predicted by the frequency of CD4+ T cells simultaneously producing interferon-gamma, interleukin-2 and tumor necrosis factor. Notably, multifunctional effector cells generated by all vaccines tested are unique in their capacity to produce high amounts of interferon-gamma. These data show that the quality of a CD4+ T-cell cytokine response can be a crucial determinant in whether a vaccine is protective, and may provide a new and useful prospective immune correlate of protection for vaccines based on T-helper type 1 (TH1) cells.
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            Live attenuated malaria vaccine designed to protect through hepatic CD8⁺ T cell immunity.

            J. E. Epstein, K. Tewari, K Lyke (2011)
            Our goal is to develop a vaccine that sustainably prevents Plasmodium falciparum (Pf) malaria in ≥80% of recipients. Pf sporozoites (PfSPZ) administered by mosquito bites are the only immunogens shown to induce such protection in humans. Such protection is thought to be mediated by CD8(+) T cells in the liver that secrete interferon-γ (IFN-γ). We report that purified irradiated PfSPZ administered to 80 volunteers by needle inoculation in the skin was safe, but suboptimally immunogenic and protective. Animal studies demonstrated that intravenous immunization was critical for inducing a high frequency of PfSPZ-specific CD8(+), IFN-γ-producing T cells in the liver (nonhuman primates, mice) and conferring protection (mice). Our results suggest that intravenous administration of this vaccine will lead to the prevention of infection with Pf malaria.
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              Histo-cytometry: a method for highly multiplex quantitative tissue imaging analysis applied to dendritic cell subset microanatomy in lymph nodes.

              Michael Y. Gerner, Wolfgang Kastenmuller, Ina Ifrim (2012)
              Flow cytometry allows highly quantitative analysis of complex dissociated populations at the cost of neglecting their tissue localization. In contrast, conventional microscopy methods provide spatial information, but visualization and quantification of cellular subsets defined by complex phenotypic marker combinations is challenging. Here, we describe an analytical microscopy method, "histo-cytometry," for visualizing and quantifying phenotypically complex cell populations directly in tissue sections. This technology is based on multiplexed antibody staining, tiled high-resolution confocal microscopy, voxel gating, volumetric cell rendering, and quantitative analysis. We have tested this technology on various innate and adaptive immune populations in murine lymph nodes (LNs) and were able to identify complex cellular subsets and phenotypes, achieving quantitatively similar results to flow cytometry, while also gathering cellular positional information. Here, we employ histo-cytometry to describe the spatial segregation of resident and migratory dendritic cell subsets into specialized microanatomical domains, suggesting an unexpected LN demarcation into discrete functional compartments. Copyright © 2012 Elsevier Inc. All rights reserved.
              Article 0 comments Cited 174 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-journal-id): 9604648
                Journal ID (pubmed-jr-id): 20305
                Journal ID (nlm-ta): Nat Biotechnol
                Journal ID (iso-abbrev): Nat. Biotechnol.
                Title: Nature biotechnology
                ISSN (Print): 1087-0156
                ISSN (Electronic): 1546-1696
                Publication date Nihms-submitted: 5 March 2018
                Publication date (Electronic): 26 October 2015
                Publication date (Print): November 2015
                Publication date PMC-release: 08 March 2018
                Volume: 33
                Issue: 11
                Pages: 1201-1210
                Affiliations
                [1 ]Vaccine research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD, USA
                [2 ]Department of Oncology, University of Oxford, Oxford, United Kingdom
                [3 ]Institute of Macromolecular Chemistry, Academy of Sciences of the Czech Republic, Prague, Czech Republic
                [4 ]Imaging Probe Development Center, National Heart, Lung, and Blood Institute, National Institutes of Health, Rockville, MD, USA
                [5 ]Lymphocyte Biology Section, Laboratory of Systems Biology, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD, USA
                [6 ]Biological Imaging Section, Research Technologies Branch, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD, USA
                [7 ]Department of Biochemistry, Faculty of Science, Charles University in Prague, Prague, Czech Republic
                [8 ]Department of Chemistry, University of California Irvine, Irvine, California, USA
                Author notes
                [* ]Corresponding Author: Vaccine Research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health, 40 Convent Drive, MSC 3025, Building 40, Room 3512, Bethesda, MD 20892, USA, rseder@ 123456mail.nih.gov
                [†]

                These authors contributed equally to this work

                [‡]

                These authors jointly supervised this work

                Article
                Manuscript ID: NIHMS723239
                DOI: 10.1038/nbt.3371
                PMC ID: 5842712
                PubMed ID: 26501954
                SO-VID: 9918b1a1-c22d-4ad5-8434-a4bf158bb57d
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                Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms

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