Background: In preclinical models, infection of tumors by oncolytic strains of herpes simplex virus 1 (HSV-1) resulted in the destruction of tumor cells by viral replication and release of progeny virion that infected and destroyed adjacent tumor cells. However, complete tumor regression was rarely observed.
Methods: To augment the antitumor effect of viral oncolysis, a replication conditional HSV-1 mutant (HSV-Endo) was constructed in which the murine endostatin gene was incorporated into the HSV-1 genome.
Results: Replication of HSV-Endo effectively destroyed several colon carcinoma cell lines in vitro. Secretion of endostatin by HSV-Endo-infected HT29 human colon carcinoma cells was confirmed by Western blot analysis. The secreted endostatin was biologically active as assessed in a chick chorioallantoic membrane assay. Importantly, endostatin production at the site of viral replication did not inhibit viral replication. Direct injection of HSV-Endo into flank tumors caused tumor destruction, and some of the HSV-Endo-treated flank tumors completely sloughed. Immunohistochemical staining of the tumors revealed a decreased number of blood vessels in the HSV-Endo-treated group versus the control group.
Conclusions: The oncolytic HSV-1 mutant HSV-Endo provided a two-pronged therapy; namely, inhibition of angiogenesis and direct tumor cell destruction by viral replication.
Copyright 2004 American Cancer Society.