Viruses (Feb 2023)

HSV1716 Prevents Myeloma Cell Regrowth When Combined with Bortezomib <i>In Vitro</i> and Significantly Reduces Systemic Tumor Growth in Mouse Models

  • Simon Tazzyman,
  • Georgia R. Stewart,
  • James Yeomans,
  • Adam Linford,
  • Darren Lath,
  • Joe Conner,
  • Munitta Muthana,
  • Andrew D. Chantry,
  • Michelle A. Lawson

DOI
https://doi.org/10.3390/v15030603
Journal volume & issue
Vol. 15, no. 3
p. 603

Abstract

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Multiple myeloma remains largely incurable due to refractory disease; therefore, novel treatment strategies that are safe and well-tolerated are required. Here, we studied the modified herpes simplex virus HSV1716 (SEPREHVIR®), which only replicates in transformed cells. Myeloma cell lines and primary patient cells were infected with HSV1716 and assessed for cell death using propidium iodide (PI) and Annexin-V staining and markers of apoptosis and autophagy by qPCR. Myeloma cell death was associated with dual PI and Annexin-V positivity and increased expression of apoptotic genes, including CASP1, CASP8, CASP9, BAX, BID, and FASL. The combination of HSV1716 and bortezomib treatments prevented myeloma cell regrowth for up to 25 days compared to only transient cell growth suppression with bortezomib treatment. The viral efficacy was tested in a xenograft (JJN-3 cells in NSG mice) and syngeneic (murine 5TGM1 cells in C57BL/KaLwRijHsd mice) systemic models of myeloma. After 6 or 7 days, the post-tumor implantation mice were treated intravenously with the vehicle or HSV1716 (1 × 107 plaque forming units/1 or 2 times per week). Both murine models treated with HSV1716 had significantly lower tumor burden rates compared to the controls. In conclusion, HSV1716 has potent anti-myeloma effects and may represent a novel therapy for multiple myeloma.

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