Frontiers in Immunology (Oct 2023)

Single-cell RNAseq identifies clonally expanded antigen-specific T-cells following intradermal injection of gold nanoparticles loaded with diabetes autoantigen in humans

  • Stephanie J. Hanna,
  • Terri C. Thayer,
  • Terri C. Thayer,
  • Emma J. S. Robinson,
  • Ngoc-Nga Vinh,
  • Nigel Williams,
  • Laurie G. Landry,
  • Robert Andrews,
  • Qi Zhuang Siah,
  • Pia Leete,
  • Rebecca Wyatt,
  • Martina A. McAteer,
  • Maki Nakayama,
  • F. Susan Wong,
  • Jennie H. M. Yang,
  • Timothy I. M. Tree,
  • Johnny Ludvigsson,
  • Colin M. Dayan,
  • Danijela Tatovic

DOI
https://doi.org/10.3389/fimmu.2023.1276255
Journal volume & issue
Vol. 14

Abstract

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Gold nanoparticles (GNPs) have been used in the development of novel therapies as a way of delivery of both stimulatory and tolerogenic peptide cargoes. Here we report that intradermal injection of GNPs loaded with the proinsulin peptide C19-A3, in patients with type 1 diabetes, results in recruitment and retention of immune cells in the skin. These include large numbers of clonally expanded T-cells sharing the same paired T-cell receptors (TCRs) with activated phenotypes, half of which, when the TCRs were re-expressed in a cell-based system, were confirmed to be specific for either GNP or proinsulin. All the identified gold-specific clones were CD8+, whilst proinsulin-specific clones were both CD8+ and CD4+. Proinsulin-specific CD8+ clones had a distinctive cytotoxic phenotype with overexpression of granulysin (GNLY) and KIR receptors. Clonally expanded antigen-specific T cells remained in situ for months to years, with a spectrum of tissue resident memory and effector memory phenotypes. As the T-cell response is divided between targeting the gold core and the antigenic cargo, this offers a route to improving resident memory T-cells formation in response to vaccines. In addition, our scRNAseq data indicate that focusing on clonally expanded skin infiltrating T-cells recruited to intradermally injected antigen is a highly efficient method to enrich and identify antigen-specific cells. This approach has the potential to be used to monitor the intradermal delivery of antigens and nanoparticles for immune modulation in humans.

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