Sara Seegers scite author profile

Vesicular stomatitis virus (VSV) based oncolytic viruses are promising agents against various cancers. We have shown that pancreatic ductal adenocarcinoma (PDAC) cell lines exhibit great diversity in susceptibility and permissibility to VSV. Here, using a directed evolution approach with our two previously described oncolytic VSV recombinants, VSV-p53wt and VSV-p53-CC, we generated novel oncolytic VSVs with an improved ability to replicate in virus-resistant PDAC cell lines. VSV-p53wt and VSV-p53-CC encode a VSV matrix protein (M) with a ΔM51 mutation (M-ΔM51) and one of two versions of a functional human tumor suppressor, p53, fused to a far-red fluorescent protein, eqFP650. Each virus was serially passaged 32 times (which accounts for more than 60 viral replication cycles) on either the SUIT-2 (moderately resistant to VSV) or MIA PaCa-2 (highly permissive to VSV) human PDAC cell lines. While no phenotypic changes were observed for MIA PaCa-2-passaged viruses, both SUIT-2-passaged VSV-p53wt and VSV-p53-CC showed improved replication in SUIT-2 and AsPC-1, another human PDAC cell line also moderately resistant to VSV, while remaining highly attenuated in nonmalignant cells. Surprisingly, two identical VSV glycoprotein (VSV-G) mutations, K174E and E238K, were identified in both SUIT-2-passaged viruses. Additional experiments indicated that the acquired G mutations improved VSV replication, at least in part due to improved virus attachment to SUIT-2 cells. Importantly, no mutations were found in the M-ΔM51 protein, and no deletions or mutations were found in the p53 or eqFP650 portions of virus-carried transgenes in any of the passaged viruses, demonstrating long-term genomic stability of complex VSV recombinants carrying large transgenes. IMPORTANCE Vesicular stomatitis virus (VSV)-based oncolytic viruses are promising agents against pancreatic ductal adenocarcinoma (PDAC). However, some PDAC cell lines are resistant to VSV. Here, using a directed viral evolution approach, we generated novel oncolytic VSVs with an improved ability to replicate in virus-resistant PDAC cell lines, while remaining highly attenuated in nonmalignant cells. Two independently evolved VSVs obtained 2 identical VSV glycoprotein mutations, K174E and E238K. Additional experiments indicated that these acquired G mutations improved VSV replication, at least in part due to improved virus attachment to SUIT-2 cells. Importantly, no deletions or mutations were found in the virus-carried transgenes in any of the passaged viruses. Our findings demonstrate long-term genomic stability of complex VSV recombinants carrying large transgenes and support further clinical development of oncolytic VSV recombinants as safe therapeutics for cancer.

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P1-12-23: HER4 Coexpression Is Associated with Improved Recurrence Free Survival in HER2−Positive, Herceptin Treated Patients.

Brockhoff

Machleidt

Piendl

et al. 2011

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Background: Individual therapy efficiency of HER2−positive metastatic and pre-metastatic breast cancer patients varies significantly and spans from effectual responsiveness over acquired insensitivity to complete resistance from the outset. Thus no predictive information can be deduced from HER2 diagnostics so that molecular biomarkers indicative for sensitivity / resistance to Herceptin are needed to be identified. The HER2 related HER4-receptor has been shown to have ambivalent (pro-apoptotic or pro-proliferative) activity and consequently represents a prime candidate to affect HER2 activity under Herceptin treatment. We retrospectively analyzed potential her4 gene amplification and HER4 protein expression in HER2−positive, Herceptin treated patients. Patient's overall and recurrence free survival was evaluated as a function of HER2/HER4 expression. Methods: Using dual color Fluorescence in-situ Hybridization (FISH probes, Zytovision, Bremerhaven, Germany) and qPCR (LC480, Roche, Penzberg, Germany) we quantitatively investigated primary breast cancer tissues from nearly 50 (FISH) and 160 (PCR) patients who received Herceptin treatment. We quantified the her4 gene copy numbers and evaluated the protein expression profile of all four known HER4 isotypes (JM-a/CYT1, JM-a/CYT2, JM-b/CYT1, JM-b/CYT2). Results: FISH analysis revealed a positive and independent prognostic marker in Herceptin treated breast cancer patients with respect to overall survival. Moreover by quantitative PCR analysis we found a significant variability of HER4 protein expression (JM-a/CYT1 and JM-a/CYT2; no JM-b isotypes) in HER2 positive breast cancer tissues, whereas HER2/HER4 positive patients show a significant better recurrence free survival compared to HER2 positive but HER4 negative patients (p = 0,003). Conclusions: HER4 has been demonstrated to potentially exert tumor suppressing activity and in turn to have a favourable impact on the course of breast cancer disease. We show here that HER4 expression prolongs in particular recurrence free survival of Herceptin treated patients which indicates a functional integration of HER4 into anti-HER2 targeting. Complementing functional studies allowing for isotype specific function of HER4 will elucidate the special role of this receptor tyrosine kinase in the context of Herceptin treatment and might facilitate individualized anti-ErbB-receptor targeting with higher efficiency. Citation Information: Cancer Res 2011;71(24 Suppl):Abstract nr P1-12-23.

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Sara Seegers

Experimental Evolution Generates Novel Oncolytic Vesicular Stomatitis Viruses with Improved Replication in Virus-Resistant Pancreatic Cancer Cells

P1-12-23: HER4 Coexpression Is Associated with Improved Recurrence Free Survival in HER2−Positive, Herceptin Treated Patients.

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