Judith A. Griffin scite author profile

Vesicular stomatitis virus (VSV) is being developed for cancer therapy. We created a recombinant replicating VSV (rrVSV) that preferentially infected Her2/neu expressing breast cancer cells. We now used this rrVSV to treat macroscopic peritoneal tumor implants of a mouse mammary tumor cell line stably transfected to express Her2/neu. rrVSV therapy alone prolonged survival but did not cure any animals. rrVSV therapy combined with antibody to TGFb or antibody to IL-10 receptor (IL-10R) each produced cure in one of six animals. Strikingly, rrVSV therapy combined with anti-CTLA4 monoclonal antibody (MAb) produced cure in four of five animals. Anti-CTLA4 MAb was only effective when administered within one day of rrVSV therapy. Cure required CD4 T-cells early (o7 days) and late (47 days) after rrVSV therapy whereas CD8 T-cells were required only late (47 days) after rrVSV therapy. Surviving animals were resistant to re-challenge with D2F2/E2 suggesting a memory immune response. Histopathologic analysis demonstrated a dense inflammatory infiltrate of tumor nodules within days of therapy and foamy histiocytes replacing the tumor nodules 2 weeks following therapy. These studies demonstrate that targeted rrVSV combined with anti-CTLA4 MAb can eliminate established macroscopic tumor implants by eliciting an anti-tumor CD4 and CD8 T-cell immunologic response.

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Treatment of implanted mammary tumors with recombinant vesicular stomatitis virus targeted to Her2/neu

Bergman

Griffin

Gao

et al. 2007

Intl Journal of Cancer

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Vesicular stomatitis virus (VSV) is being developed for cancer therapy. We have created a recombinant replicating VSV (rrVSV) that targeted to Her2/neu expressing breast cancer cells and expresses mouse GM‐CSF. We now tested the efficacy of this rrVSV in the treatment of peritoneal tumor implants of D2F2/E2 cells, a BALB/c mouse mammary tumor cell line, which was stably transfected to express Her2/neu. Mice were treated 1 day following tumor implantation with either 2 × 108 infectious doses rrVSV or conditioned media (CM). All control animals developed massive peritoneal tumor with a median survival of 16 days. Nine of 10 rrVSV treated mice survived long term with no evidence of tumor. rrVSV had much less efficacy in treating implants of the parent D2F2 cells that did not express Her2/neu. The median survival was 13.5 days in mice treated with CM and 21 days in those treated with rrVSV. There was one long term survivor in the rrVSV treated group. None of the rrVSV treated animals showed evidence of viral toxicity. Three of 7 long term survivors did not develop tumor when rechallenged first with D2F2/E2 and then with D2F2 cells. Both successful therapy and resistance to rechallenge were T‐cell dependent. These studies demonstrate that targeted rrVSV eliminated peritoneal implants of Her2/neu expressing tumor and elicited an anti‐tumor T‐cell immunologic response. © 2007 Wiley‐Liss, Inc.

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Comparison of in vitro antibody-targeted cytotoxicity using mouse, rat and human effectors

Bergman

Basse

Barmada

et al. 2000

Cancer Immunology, Immunotherapy

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Antibodies can direct tumor cell lysis by activating complement-mediated and cell-mediated cytoxicities (antibody-dependent cell-mediated cytotoxicity, ADCC). Clinical translation of these effects into successful cancer therapy has been slow. Choosing an appropriate animal model to test new therapeutic strategies is difficult because of species differences in immunological effector functions. In previous work, we found that an unmodified anti-ganglioside mouse IgG3 monoclonal antibody (mAb), 3F8, could successfully treat clinical tumors in humans and experimental tumors in rats but not experimental tumors in mice. We explored the reasons for this species difference by performing in vitro antibody-dependent cytotoxicity assays comparing the potency of polymorphonuclear neutrophils (PMN), natural killer (NK) cells and complement from the three species: mouse, rat and human. 3F8-dependent complement-mediated cytotoxicity produced more than 70% specific release when human and rat sera were used and only 20% with mouse serum. PMN-mediated ADCC was 35%-70% with human effectors, 25%-60% with rat and undetectable with mouse. Human eosinophils did not contribute to this ADCC. Cytotoxicity utilizing interleukin-2-activated NK cells was antibody-independent in all three species but the specific release was 60%-70% with human and rat NK cells and 10% with mouse NK cells. These data suggest that, for mouse IgG3, the rat may provide a more relevant rodent model than the mouse for testing the in vivo antitumor effects of monoclonal antibodies.

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Preferential targeting of vesicular stomatitis virus to breast cancer cells

et al. 2004

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Vesicular stomatitis virus (VSV) is a candidate for development for cancer therapy. We created a recombinant replicating VSV (rrVSV) with an altered surface protein that targeted preferentially to breast cancer cells. The rrVSV genome contained a single glycoprotein (gp) gene derived from Sindbis virus. This gene expressed a chimeric Sindbis E2 binding gp and the native Sindbis E1 fusion gp. The chimeric E2 binding gp, called Sindbis-SCA-erbb2, was modified to reduce its native binding function and to contain a single chain antibody (SCA) with specificity for the human epidermal growth factor receptor Her2/neu protein, erbb2. These viruses selectively infected, replicated in and killed cells expressing erbb2. The titer of rrVSV on SKBR3 cells, a human breast cancer cell line which highly expresses erbb2 was 3.1 x 10(7)/ml compared with a titer of 7.3 x 10(5)/ml on 143 cells, a human osteosarcoma cell line which does not express erbb2. The titer of rrVSV on D2F2/E2 cells, a mouse mammary cancer cell line stably transfected to express human erbb2 was 2.46 x 10(6)/ml compared with a titer of 5 x 10(4)/ml on the parent D2F2 cells which do not express erbb2. When titered on erbb2-negative cells, non-replicating pseudotype VSV coated with Sindbis-SCA-erbb2 had <3% the titer of pseudotype VSV coated with wild type Sindbis gp indicating that the chimeric Sindbis gp had severely impaired binding to the natural receptor. Analysis of the protein composition of the rrVSV found low expression of the modified Sindbis gp on the virus.

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Rapid Adaptation of a Recombinant Vesicular Stomatitis Virus to a Targeted Cell Line

Gao

Whitaker-Dowling

Watkins

et al. 2006

J Virol

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Vesicular stomatitis virus (VSV) is being developed for cancer therapy. We created a recombinant replicating VSV (rrVSV) that preferentially infected Her2/neu-expressing breast cancer cells. This rrVSV did not express the native VSV-G glycoprotein (gp). Instead, it expressed a chimeric Sindbis gp which included a single-chain antibody (SCA) directed to the human Her2/neu receptor. The virus infected mouse mammary carcinoma cells (D2F2/E2) expressing Her2/neu 23-fold better than the parent cells (D2F2). However, viral growth in cultured D2F2/E2 cells was curtailed after several cycles, and viral yield was very poor at 2 ؋ 10 4 infectious doses (ID)/ml. We performed in vitro serial passage in D2F2/E2 cells to evolve a virus with improved growth that could be used for preclinical therapy trials in mice. Fifteen passes generated an adapted virus that progressed through multiple cycles in cultured D2F2/E2 cells until all cells were infected and had a viral yield of 1 ؋ 10 8 ID/ml. Sequencing of the entire viral genomes found only 2 mutations in the adapted virus. Both mutations occurred in the gp gene segment coding for the SCA. An additional N-glycosylation site was created by one of the mutations. The adapted virus showed higher density of gp on the viral envelope, improved infectivity, much greater stability, higher burst size, and decreased induction of cellular interferon. The specificity for cells expressing the Her2/neu receptor was unchanged. These studies demonstrate that serial passage can be used to rapidly evolve a VSV genome encoding an improved chimeric glycoprotein.

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Judith A. Griffin

Recombinant vesicular stomatitis virus targeted to Her2/neu combined with anti-CTLA4 antibody eliminates implanted mammary tumors

Treatment of implanted mammary tumors with recombinant vesicular stomatitis virus targeted to Her2/neu

Comparison of in vitro antibody-targeted cytotoxicity using mouse, rat and human effectors

Preferential targeting of vesicular stomatitis virus to breast cancer cells

Rapid Adaptation of a Recombinant Vesicular Stomatitis Virus to a Targeted Cell Line

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