Cell Transplantation (Aug 2015)

TIM4 Regulates the Anti-Islet Th2 Alloimmune Response

  • Andrea Vergani,
  • Francesca Gatti,
  • Kang M. Lee,
  • Francesca D'addio,
  • Sara Tezza,
  • Melissa Chin,
  • Roberto Bassi,
  • Ze Tian,
  • Erxi Wu,
  • Paola Maffi,
  • Moufida Ben Nasr,
  • James I. Kim,
  • Antonio Secchi,
  • James F. Markmann,
  • David M. Rothstein,
  • Laurence A. Turka,
  • Mohamed H. Sayegh,
  • Paolo Fiorina M.D., Ph.D

DOI
https://doi.org/10.3727/096368914X678571
Journal volume & issue
Vol. 24

Abstract

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The role of the novel costimulatory molecule TIM4 in anti-islet response is unknown. We explored TIM4 expression and targeting in Th1 (BALB/c islets into C57BL/6 mice) and Th2 (BALB/c islets into Tbet -/- C57BL/6 mice) models of anti-islet alloimmune response and in a model of anti-islet autoimmune response (diabetes onset in NOD mice). The targeting of TIM4, using the monoclonal antibody RMT4-53, promotes islet graft survival in a Th1 model, with 30% of the graft surviving in the long term; islet graft protection appears to be mediated by a Th1 to Th2 skewing of the immune response. Differently, in the Th2 model, TIM4 targeting precipitates graft rejection by further enhancing the Th2 response. The effect of anti-TIM4 treatment in preventing autoimmune diabetes was marginal with only minor Th1 to Th2 skewing. B-Cell depletion abolished the effect of TIM4 targeting. TIM4 is expressed on human B-cells and is upregulated in diabetic and islet-transplanted patients. Our data suggest a model in which TIM4 targeting promotes Th2 response over Th1 via B-cells. The targeting of TIM4 could become a component of an immunoregulatory protocol in clinical islet transplantation, aiming at redirecting the immune system toward a Th2 response.