Cell Death and Disease (Feb 2023)

A vector-encoded bispecific killer engager to harness virus-activated NK cells as anti-tumor effectors

  • Alessia Floerchinger,
  • Jessica E. Klein,
  • Maximiliane S. C. Finkbeiner,
  • Theresa E. Schäfer,
  • Gwendolin Fuchs,
  • Johannes Doerner,
  • Hubert Zirngibl,
  • Maximilian Ackermann,
  • Hans M. Kvasnicka,
  • Kerry A. Chester,
  • Dirk Jäger,
  • Claudia R. Ball,
  • Guy Ungerechts,
  • Christine E. Engeland

DOI
https://doi.org/10.1038/s41419-023-05624-3
Journal volume & issue
Vol. 14, no. 2
pp. 1 – 15

Abstract

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Abstract Treatment with oncolytic measles vaccines (MV) elicits activation of immune cells, including natural killer (NK) cells. However, we found that MV-activated NK cells show only modest direct cytotoxic activity against tumor cells. To specifically direct NK cells towards tumor cells, we developed oncolytic measles vaccines encoding bispecific killer engagers (MV-BiKE) targeting CD16A on NK cells and carcinoembryonic antigen (CEA) as a model tumor antigen. MV-BiKE are only slightly attenuated compared to parental MV and mediate secretion of functional BiKE from infected tumor cells. We tested MV-BiKE activity in cocultures of colorectal or pancreatic cancer cells with primary human NK cells. MV-BiKE mediate expression of effector cytokines, degranulation and specific anti-tumor cytotoxicity by NK cells. Experiments with patient-derived pancreatic cancer cultures indicate that efficacy of MV-BiKE may vary between individual tumors with differential virus permissiveness. Remarkably, we confirmed MV-BiKE activity in primaryhuman colorectal carcinoma specimens with autochthonous tumor and NK cells.This study provides proof-of-concept for MV-BiKE as a novel immunovirotherapy to harness virus-activated NK cells as anti-tumor effectors.