Cancer research
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Delta24-RGD is an infectivity-augmented, conditionally replicative oncolytic adenovirus with significant antiglioma effects. Although intratumoral delivery of Delta24-RGD may be effective, intravascular delivery would improve successful application in humans. Due to their tumor tropic properties, we hypothesized that human mesenchymal stem cells (hMSC) could be harnessed as intravascular delivery vehicles of Delta24-RGD to human gliomas. ⋯ Analysis of tumor size by bioluminescence imaging showed inhibition of glioma growth and eradication of tumors in hMSC-Delta24-treated animals compared with controls (P < 0.0001). There was an increase in median survival from 42 days in controls to 75.5 days in hMSC-Delta24-treated animals (P < 0.0001) and an increase in survival beyond 80 days from 0% to 37.5%, respectively. We conclude that intra-arterially delivered hMSC-Delta24 selectively localize to human gliomas and are capable of delivering and releasing Delta24-RGD into the tumor, resulting in improved survival and tumor eradication in subsets of mice.
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The goal of this study was to characterize a series of anti-Her2/neu immunotoxin constructs to identify how different antibodies and linker choices affect the specificity and cytotoxicity of these proteins. We constructed a series of immunotoxins containing either the human single-chain antibody (scFv) C6.5 or the murine scFv e23 fused to the highly toxic recombinant gelonin (rGel) molecule. Based on the flexible GGGGS linker (L), the fusion construct C6.5-L-rGel was compared with e23-L-rGel to evaluate the specific cytotoxic effects against Her2/neu-positive and Her2/neu-negative tumor cells. ⋯ Xenograft studies with SKOV3 ovarian tumors were done using various C6.5/rGel constructs. C6.5-L-rGel was more efficient in tumor inhibition than constructs containing furin linkers, attributing to a higher stability in vivo of the L version. Therefore, our studies suggest that human C6.5-L-rGel may be an effective novel clinical agent for therapy of patients with Her2/neu-overexpressing malignancies.