Future Pharmacology (Oct 2022)

Macrophage Delivered HSV1716 Is Active against Triple Negative Breast Cancer

  • Amy Kwan,
  • Faith Howard,
  • Natalie Winder,
  • Emer Atkinson,
  • Ameera Jailani,
  • Priya B. Patel,
  • Richard Allen,
  • Penelope D. Ottewell,
  • Gary C. Shaw,
  • Joe Conner,
  • Caroline Wilson,
  • Sanjay K. Srivastava,
  • Sarah J. Danson,
  • Claire Lewis,
  • Janet E. Brown,
  • Munitta Muthana

DOI
https://doi.org/10.3390/futurepharmacol2040029
Journal volume & issue
Vol. 2, no. 4
pp. 444 – 459

Abstract

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Oncolytic viruses (OV) promote anti-tumour responses through the initiation of immunogenic cancer cell death which activates the host’s systemic anti-tumour immunity. We have previously shown that intravenously administered HSV1716 is an effective treatment for mammary cancer. However, intravenous administration of a virus has the potential to result in neutralization and sequestration of the virus which may reduce efficacy. Here, we show that the oncolytic virus HSV1716 can be administered within a cellular carrier (macrophages). PyMT and 4T1 murine mammary cancer cell lines were implanted into immuno-competent murine models (orthotopic primary, early metastatic and brain metastasis models). HSV1716 or macrophages armed with HSV1716 (M-HSV1716) were administered intravenously, and tumour size was quantified using caliper measurement or bioluminescence imaging. Administration of M-HSV1716 led to tumour shrinkage and increased the survival of animals. Furthermore, these results were achieved with a 100-fold lower viral load, which has the potential for decreased toxicity. Our results demonstrate that M-HSV1716 is associated with activity against murine mammary cancers and provides an alternative platform for the systemic delivery of OV.

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