Science and Research

Rational design of PD-1-CD28 immunostimulatory fusion proteins for CAR T cell therapy

BACKGROUND: In many situations, the therapeutic efficacy of CAR T cells is limited due to immune suppression and poor persistence. Immunostimulatory fusion protein (IFP) constructs have been advanced as a tool to convert suppressive signals into stimulation and thus promote the persistence of T cells, but no universal IFP design has been established so far. We now took advantage of a PD-1-CD28 IFP as a clinically relevant structure to define key determinants of IFP activity. METHODS: We compared different PD-1-CD28 IFP variants in a human leukemia model to assess the impact of distinctive design choices on CAR T cell performance in vitro and a xenograft mouse model. RESULTS: We observed that IFP constructs that putatively exceed the extracellular length of PD-1 induce T-cell response without CAR target recognition, rendering them unsuitable for tumour-specific therapy. IFP variants with physiological PD-1 length ameliorated CAR T cell effector function and proliferation in response to PD-L1(+) tumour cells in vitro and prolonged survival in vivo. Transmembrane or extracellular CD28 domains were found to be replaceable by corresponding PD-1 domains for in vivo efficacy. CONCLUSION: PD-1-CD28 IFP constructs must mimic the physiological interaction of PD-1 with PD-L1 to retain selectivity and mediate CAR-conditional therapeutic activity.

  • Lorenzini, T.
  • Cadilha, B. L.
  • Obeck, H.
  • Benmebarek, M. R.
  • Märkl, F.
  • Michaelides, S.
  • Strzalkowski, T.
  • Briukhovetska, D.
  • Müller, P. J.
  • Nandi, S.
  • Winter, P.
  • Majed, L.
  • Grünmeier, R.
  • Seifert, M.
  • Rausch, S.
  • Feuchtinger, T.
  • Endres, S.
  • Kobold, S.
Publication details
DOI: 10.1038/s41416-023-02332-9
Journal: Br J Cancer
Work Type: Original
Location: CPC-M
Disease Area: LC
Partner / Member: KUM
Access-Number: 37400680

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