Gabriel Brooks scite author profile

Replication-selective oncolytic viruses constitute a rapidly evolving and new treatment platform for cancer. Gene-deleted viruses have been engineered for tumor selectivity, but these gene deletions also reduce the anti-cancer potency of the viruses. We have identified an E1A mutant adenovirus, dl922-947, that replicates in and lyses a broad range of cancer cells with abnormalities in cell-cycle checkpoints. This mutant demonstrated reduced S-phase induction and replication in non-proliferating normal cells, and superior in vivo potency relative to other gene-deleted adenoviruses. In some cancers, its potency was superior to even wild-type adenovirus. Intravenous administration reduced the incidence of metastases in a breast tumor xenograft model. dl922-947 holds promise as a potent, replication-selective virus for the local and systemic treatment of cancer.

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E3 gene manipulations affect oncolytic adenovirus activity in immunocompetent tumor models

Wang

et al. 2003

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Oncolytic replication-selective adenoviruses constitute a rapidly growing therapeutic platform for cancer. However, the role of the host immune response and the E3 immunoregulatory genes of the human adenovirus were unknown until now. We identified four mouse carcinoma lines of variable permissivity for adenoviral gene expression, cytopathic effects and/or burst size. To determine E3 gene effects in immunocompetent tumor-bearing hosts, we injected tumors with one of three adenoviruses: Ad5 (E3 wild type), dl309 (del. E3 10.4/14.5, 14.7 kDa) or dl704 (del. E3 gp19 kDa). Compared with Ad5 and dl704, dl309 was cleared much more rapidly and/or its activity was lower in all four models. Intratumoral injection with dl309 resulted in markedly greater macrophage infiltration and expression of both tumor necrosis factor and interferon-gamma. Adenovirus replication, CD8(+) lymphocyte infiltration and efficacy were similar upon intratumoral injection with either dl704 or Ad5. E3-dependent differences were not evident in athymic mice. These findings have important implications for the design of oncolytic adenoviruses and may explain the rapid clearance of E3-10.4/14.5,14.7-deleted adenoviruses in patients.

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An E1B-19 kDa gene deletion mutant adenovirus demonstrates tumor necrosis factor-enhanced cancer selectivity and enhanced oncolytic potency

Liu¹,

Halldén²,

Wang³

et al. 2004

Molecular Therapy

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Oncolytic adenoviruses hold promise as a new treatment platform for cancer, but limitations have been identified, including limited spread and potency. The adenoviral protein E1B-19 kDa is a Bcl-2 homologue that blocks apoptosis induction via the intrinsic and extrinsic pathways, specifically including tumor necrosis factor-mediated cell death. We demonstrate that an E1B-19 kDa gene deletion mutant had tumor necrosis factor-enhanced cancer selectivity, in vitro and in vivo, due to genetic blocks in apoptosis pathways in cancer cells. In addition, this mutant demonstrated significantly enhanced viral spread and antitumoral potency relative to dl1520 (aka Onyx-015) and wild-type adenovirus in vitro. Significant antitumoral efficacy was demonstrated in vivo by intratumoral and intravenous routes of administration. E1B-19 kDa deletion should be considered as a feature of oncolytic adenoviruses to enhance their safety, spread, and efficacy.

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Functional interactions of antiapoptotic proteins and tumor necrosis factor in the context of a replication-competent adenovirus

et al. 2005

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Replication-selective oncolytic adenoviruses hold promise, but novel mechanisms must be identified to maximize intratumoral virus persistence, spread and therapeutic transgene-carrying capacity while maintaining safety. One of the main approaches to engineering cancer-selectivity has been to delete a viral gene that is theoretically expendable in cancer cells. Results with this approach have been mixed, however, as evidenced by controversy over Onyx-015 (E1B-55kD(À)) selectivity. We hypothesized that the functional redundancy between viral gene products might limit selectivity and/or potency with this approach. Antiviral immune inducers of apoptosis (eg TNF-a) have not been thoroughly investigated in previous studies. We therefore explored whether deletion of functionally redundant viral genes, E1B-19kD and E3B, both independently antagonize TNF-a, could lead to enhanced oncolytic potency while maintaining selectivity. Since tumors have numerous blocks in apoptotic pathways, we hypothesized that deletion of one or both gene regions would result in cancer-selectivity in the presence of TNF-a. We have previously shown that the E1B-19kD deletion resulted in enhanced viral spread in vitro and in immunocompetent tumor models in vivo. In contrast, the impact of E3B deletion, especially its in vitro selectivity and potency, was not thoroughly characterized, although it resulted in rapid immune-mediated viral clearance in vivo. Furthermore, previous publications indicated that doubledeleted mutants have selectivity but unsatisfactory efficacy. We compared the selectivity and potency of E1B-19kD(À), E3B(À) and E1B-19kD(À)/E3B(À) mutants to wild-type adenovirus. In cancer cells, the E1B-19kD(À) mutant had superior replication, spread and cytolysis (+) or (À) TNF-a; deletion of both E1B-19kD and E3B was relatively deleterious. In normal cells without TNF-a, similar results were obtained. In contrast, all three mutants were significantly inhibited in the presence of TNF-a. In immunocompetent mice, all three mutants were significantly inhibited in normal tissue. In tumors, only the E1B-19kD(À) mutant demonstrated enhanced replication, spread and antitumoral efficacy. Therefore, E1B-19kD deletion and E3B retention should be incorporated in oncolytic adenoviruses for enhanced safety and efficacy. In addition, functional redundant viral genes and their biological mediators/targets need to be carefully examined for the next generation of gene-deleted oncolytic viruses.

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Gabriel Brooks

An adenovirus E1A mutant that demonstrates potent and selective systemic anti-tumoral efficacy

E3 gene manipulations affect oncolytic adenovirus activity in immunocompetent tumor models

An E1B-19 kDa gene deletion mutant adenovirus demonstrates tumor necrosis factor-enhanced cancer selectivity and enhanced oncolytic potency

Functional interactions of antiapoptotic proteins and tumor necrosis factor in the context of a replication-competent adenovirus

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