Arming oHSV with ULBP3 drives abscopal immunity in lymphocyte-depleted glioblastoma
Hans-Georg Wirsching, … , A. McGarry Houghton, Eric C. Holland
Hans-Georg Wirsching, … , A. McGarry Houghton, Eric C. Holland
Published July 11, 2019
Citation Information: JCI Insight. 2019;4(13):e128217. https://doi.org/10.1172/jci.insight.128217.
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Research Article Oncology

Arming oHSV with ULBP3 drives abscopal immunity in lymphocyte-depleted glioblastoma

Abstract

Oncolytic viruses induce local tumor destruction and inflammation. Whether virotherapy can also overcome immunosuppression in noninfected tumor areas is under debate. To address this question, we have explored immunologic effects of oncolytic herpes simplex viruses (oHSVs) in a genetically engineered mouse model of isocitrate dehydrogenase (IDH) wild-type glioblastoma, the most common and most malignant primary brain tumor in adults. Our model recapitulates the genomics, the diffuse infiltrative growth pattern, and the extensive macrophage-dominant immunosuppression of human glioblastoma. Infection with an oHSV that was armed with a UL16-binding protein 3 (ULBP3) expression cassette inhibited distant tumor growth in the absence of viral spreading (abscopal effect) and yielded accumulation of activated macrophages and T cells. There was also abscopal synergism of oHSVULBP3 with anti–programmed cell death 1 (anti–PD-1) against distant, uninfected tumor areas; albeit consistent with clinical trials in patients with glioblastoma, monotherapy with anti–PD-1 was ineffective in our model. Arming oHSV with ULBP3 led to upregulation of antigen processing and presentation gene sets in myeloid cells. The cognate ULBP3 receptor NKG2D, however, is not present on myeloid cells, suggesting a noncanonical mechanism of action of ULBP3. Overall, the myeloid-dominant, anti–PD-1–sensitive abscopal effect of oHSVULBP3 warrants further investigation in patients with IDH wild-type glioblastoma.

Authors

Hans-Georg Wirsching, Huajia Zhang, Frank Szulzewsky, Sonali Arora, Paola Grandi, Patrick J. Cimino, Nduka Amankulor, Jean S. Campbell, Lisa McFerrin, Siobhan S. Pattwell, Chibawanye Ene, Alexandra Hicks, Michael Ball, James Yan, Jenny Zhang, Debrah Kumasaka, Robert H. Pierce, Michael Weller, Mitchell Finer, Christophe Quéva, Joseph C. Glorioso, A. McGarry Houghton, Eric C. Holland

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Figure 2

oHSVULBP3 reverts immunologic inertness and prolongs survival of glioblastoma-bearing mice.

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oHSVULBP3 reverts immunologic inertness and prolongs survival of gliobla...
(A) Experimental setup. (B) Symptom-free survival. PBS, n = 35; oHSV, n = 10; oHSVULBP3, n = 36. Kaplan-Meier curves were compared using the log-rank test. (C) Representative H&E staining and immunohistochemistry of EGFP in adjacent tissue slides of oHSVULBP3-treated mouse glioblastomas. Arrows, localized hypocellular zone (left) colocalizing with EGFP+ viral replication (right). Scale bar: 2 mm. (D) Representative immunohistochemistry stains of HSV antigens (left) and Iba1+ TAMs (right) in oHSVULBP3-treated mouse glioblastomas. Inset, activated Iba1+ cells. Scale bar: 200 μm. (E and F) Tumor surface area covered by Iba1+ cells determined by automated image analysis (E) and counts of the maximum number of CD8+ T cells detected per HPF (F) in mouse glioblastomas 7 days after tumor injection with PBS or 1 × 106 PFU of indicated oHSVs. n = 4 tumors per group; 2-tailed, unpaired t test; *P < 0.05. The box plots depict the minimum and maximum values (whiskers), the upper and lower quartiles, and the median. The length of the box represents the interquartile range. (G) Volcano plot of differentially expressed genes of the nCounter myeloid panel in PBS- versus oHSVULBP3-treated mouse glioblastomas (n = 5 per group, day 7 after treatment). (H) Gene set enrichment analysis of genes upregulated in oHSVULBP3 (red in G).