Literature DB >> 28436959

Peptide-MHC-based nanomedicines for autoimmunity function as T-cell receptor microclustering devices.

Santiswarup Singha1, Kun Shao1, Yang Yang1,2, Xavier Clemente-Casares1, Patricia Solé3, Antonio Clemente3, Jesús Blanco3, Qin Dai4, Fayi Song4, Shang Wan Liu5, Jun Yamanouchi1, Channakeshava Sokke Umeshappa1, Roopa Hebbandi Nanjundappa1, Pascal Detampel6, Matthias Amrein6, César Fandos3, Robert Tanguay7, Susan Newbigging8, Pau Serra3, Anmar Khadra5, Warren C W Chan4, Pere Santamaria1,3.   

Abstract

We have shown that nanoparticles (NPs) can be used as ligand-multimerization platforms to activate specific cellular receptors in vivo. Nanoparticles coated with autoimmune disease-relevant peptide-major histocompatibility complexes (pMHC) blunted autoimmune responses by triggering the differentiation and expansion of antigen-specific regulatory T cells in vivo. Here, we define the engineering principles impacting biological activity, detail a synthesis process yielding safe and stable compounds, and visualize how these nanomedicines interact with cognate T cells. We find that the triggering properties of pMHC-NPs are a function of pMHC intermolecular distance and involve the sustained assembly of large antigen receptor microclusters on murine and human cognate T cells. These compounds show no off-target toxicity in zebrafish embryos, do not cause haematological, biochemical or histological abnormalities, and are rapidly captured by phagocytes or processed by the hepatobiliary system. This work lays the groundwork for the design of ligand-based NP formulations to re-program in vivo cellular responses using nanotechnology.

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Year:  2017        PMID: 28436959     DOI: 10.1038/nnano.2017.56

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  57 in total

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2.  Evaluation of embryotoxicity using the zebrafish model.

Authors:  Lisa Truong; Stacey L Harper; Robert L Tanguay
Journal:  Methods Mol Biol       Date:  2011

3.  A symmetrical view of the T-cell receptor-CD3 complex.

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Journal:  Immunol Today       Date:  1991-10

4.  Cooperativity between T cell receptor complexes revealed by conformational mutants of CD3epsilon.

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Journal:  Sci Signal       Date:  2009-08-11       Impact factor: 8.192

5.  Functional nanoscale organization of signaling molecules downstream of the T cell antigen receptor.

Authors:  Eilon Sherman; Valarie Barr; Suliana Manley; George Patterson; Lakshmi Balagopalan; Itoro Akpan; Carole K Regan; Robert K Merrill; Connie L Sommers; Jennifer Lippincott-Schwartz; Lawrence E Samelson
Journal:  Immunity       Date:  2011-11-04       Impact factor: 31.745

6.  HLA-A2-peptide complexes: refolding and crystallization of molecules expressed in Escherichia coli and complexed with single antigenic peptides.

Authors:  D N Garboczi; D T Hung; D C Wiley
Journal:  Proc Natl Acad Sci U S A       Date:  1992-04-15       Impact factor: 11.205

7.  Automated zebrafish chorion removal and single embryo placement: optimizing throughput of zebrafish developmental toxicity screens.

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Journal:  J Lab Autom       Date:  2012-02

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Authors:  G Borchard; J Kreuter
Journal:  Pharm Res       Date:  1996-07       Impact factor: 4.200

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10.  Multidimensional in vivo hazard assessment using zebrafish.

Authors:  Lisa Truong; David M Reif; Lindsey St Mary; Mitra C Geier; Hao D Truong; Robert L Tanguay
Journal:  Toxicol Sci       Date:  2013-10-17       Impact factor: 4.849
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  46 in total

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2.  Small, Clickable, and Monovalent Magnetofluorescent Nanoparticles Enable Mechanogenetic Regulation of Receptors in a Crowded Live-Cell Microenvironment.

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Journal:  Nano Lett       Date:  2019-05-03       Impact factor: 11.189

3.  Quantifying immunoregulation by autoantigen-specific T-regulatory type 1 cells in mice with simultaneous hepatic and extra-hepatic autoimmune disorders.

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Review 4.  Designing natural and synthetic immune tissues.

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5.  Ubiquitous antigen-specific T regulatory type 1 cells variably suppress hepatic and extrahepatic autoimmunity.

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6.  Designing inorganic nanomaterials for vaccines and immunotherapies.

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Review 7.  Engineering Immune Tolerance with Biomaterials.

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Review 8.  Drug nanocarriers to treat autoimmunity and chronic inflammatory diseases.

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Review 9.  Biomaterials as Tools to Decode Immunity.

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Review 10.  Improving Vaccine and Immunotherapy Design Using Biomaterials.

Authors:  Michelle L Bookstaver; Shannon J Tsai; Jonathan S Bromberg; Christopher M Jewell
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