Frontiers in Immunology (Nov 2022)

Nasal administration of anti-CD3 monoclonal antibody modulates effector CD8+ T cell function and induces a regulatory response in T cells in human subjects

  • Tanuja Chitnis,
  • Tanuja Chitnis,
  • Belinda J. Kaskow,
  • Belinda J. Kaskow,
  • Junning Case,
  • Junning Case,
  • Katherine Hanus,
  • Katherine Hanus,
  • Zhenhua Li,
  • Zhenhua Li,
  • Johnna F. Varghese,
  • Johnna F. Varghese,
  • Brian C. Healy,
  • Brian C. Healy,
  • Christian Gauthier,
  • Christian Gauthier,
  • Taylor J. Saraceno,
  • Shrishti Saxena,
  • Shrishti Saxena,
  • Hrishikesh Lokhande,
  • Thais G. Moreira,
  • Thais G. Moreira,
  • Jonathan Zurawski,
  • Rachel E. Roditi,
  • Rachel E. Roditi,
  • Regan W. Bergmark,
  • Regan W. Bergmark,
  • Federico Giovannoni,
  • Federico Giovannoni,
  • Maria F. Torti,
  • Maria F. Torti,
  • Zhaorong Li,
  • Zhaorong Li,
  • Francisco Quintana,
  • Francisco Quintana,
  • William A. Clementi,
  • Kunwar Shailubhai,
  • Howard L. Weiner,
  • Howard L. Weiner,
  • Clare M. Baecher-Allan,
  • Clare M. Baecher-Allan

DOI
https://doi.org/10.3389/fimmu.2022.956907
Journal volume & issue
Vol. 13

Abstract

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BackgroundParenteral anti-CD3 Mab (OKT3) has been used to treat transplant rejection and parental administration of a humanized anti-CD3 Mab (Teplizumab) showed positive effects in diabetes. Nasal administration of anti-CD3 Mab has not been carried out in humans. Nasal anti-CD3 Mab suppresses autoimmune diseases and central nervous system (CNS) inflammation in animal models. We investigated the safety and immune effects of a fully humanized, previously uncharacterized nasal anti-CD3 Mab (Foralumab) in humans and its in vitro stimulatory properties.MethodsIn vitro, Foralumab were compared to UCHT1 anti-human CD3 mAb. For human administration, 27 healthy volunteers (9 per group) received nasal Foralumab or placebo at a dose of 10ug, 50ug, or 250ug daily for 5 days. Safety was assessed and immune parameters measured on day 1 (pre-treatment), 7, 14, and 30 by FACS and by scRNAseq.ResultsIn vitro, Foralumab preferentially induced CD8+ T cell stimulation, reduced CD4+ T cell proliferation and lowered expression of IFNg, IL-17 and TNFa. Foralumab induced LAP, TIGIT, and KLRG1 immune checkpoint molecules on CD8+ and CD4+ T cells in a mechanism independent of CD8 T cells. In vivo, nasal Foralumab did not modulate CD3 from the T cell surface at any dose. Immune effects were primarily observed at the 50ug dose and consisted of reduction of CD8+ effector memory cells, an increase in naive CD8+ and CD4+ T cells, and reduced CD8+ T cell granzyme B and perforin expression. Differentially expressed genes observed by scRNAseq in CD8+ and CD4+ populations promoted survival and were anti-inflammatory. In the CD8+ TEMRA population there was induction of TIGIT, TGFB1 and KIR3DL2, indicative of a regulatory phenotype. In the memory CD4+ population, there was induction of CTLA4, KLRG1, and TGFB whereas there was an induction of TGF-B1 in naïve CD4+ T cells. In monocytes, there was induction of genes (HLA-DP, HLA-DQ) that promote a less inflammatory immune response. No side effects were observed, and no subjects developed human anti-mouse antibodies.ConclusionThese findings demonstrate that nasal Foralumab is safe and immunologically active in humans and presents a new avenue for the treatment of autoimmune and CNS diseases.

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