S H MacLeod scite author profile

Despite the tremendous potential of adenovirus (Ad) as a delivery vector for cancer gene therapy, its use in clinical settings has been limited, mainly as a result of the limited infectivity in many tumors and the wide tissue tropism associated with Ad. To modify the tropism of the virus, we have inserted the epidermal growth factor-like domain of the human heregulin-a (HRG) into the HI loop of Ad5 fiber. This insertion had no adverse effect on fiber trimerization nor did it affect incorporation of the modified fiber into infectious viral particles. Virions bearing modified fiber displayed growth characteristics and viral yields indistinguishable from those of wild-type (wt) virus. Most importantly, HRG-tagged virions showed enhanced infection of cells expressing the cognate receptors HER3/ErbB3 and HER4/ErbB4. This was significantly reduced in the presence of soluble HRG. Furthermore, HER3-expressing Chinese hamster ovary (CHO) cells were transduced by the HRG-modified virus, but not by wt virus. In contrast, CHO cells expressing the coxsackie-Ad receptor were transduced with both viruses. However, infection of an in vivo breast cancer xenograft model after intratumoral injection was similar with both viruses, suggesting that the tumor microenvironment and/or the route of delivery have important roles in infection of target cells with fiber-modified Ads.Cancer Gene Therapy (2012) 2,3 In addition to being among the most extensively studied viral vectors, Ads can be easily and economically manipulated, maintained and propagated to produce high titer stocks. 4,5 Moreover, they have the capacity to carry relatively large fragments of exogenous DNA into a wide range of cell and tissue types. 4,5 Subgroup C Ads (exemplified by the most widely used Ad5 and Ad2) attach to and enter host cells in a two-step process. 6 The initial recognition/attachment step is mediated by interactions between the knob component of fiber protein on the Ad capsid and the extracellular domain of the coxsackieadenovirus receptor (CAR) on the host cell surface. 7-11 This attachment is followed by a second interaction between the RGD motif in the penton base of the virus capsid and a v b 3 or a v b 5 cell surface integrins (secondary Ad receptors), which allows viral entry via receptor-mediated endocytosis. [12][13][14][15] Both the primary and secondary Ad receptors are expressed on a wide range of tissues leading to the observed broad tissue tropism of Ads. 16,17 Unfortunately, a large number of tumor cells appear relatively refractory to Ad infection because of limited surface expression of the primary Ad receptor. 1,[18][19][20][21][22][23] This observation has been a driving force behind recent intensive efforts to generate Ad viral vectors with altered tropism.

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2-Aminopurine Enhances the Oncolytic Activity of an E1b-Deleted Adenovirus in Hepatocellular Carcinoma Cells

Sharon

Schümann

MacLeod

et al. 2013

PLoS ONE

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Adenoviruses with deletions of viral genes have been extensively studied as potential cancer therapeutics. Although a high degree of cancer selectivity has been demonstrated with these conditionally replicating adenoviruses, low levels of virus replication can be detected in normal cells. Furthermore, these mutations were also found to reduce the activity of the replicating viruses in certain cancer cells. Recent studies have shown that co-administration of chemotherapeutic drugs may increase the activity of these viruses without affecting their specificity. We constructed an adenovirus with deletions of both the E1b and the VA-RNA genes and found that replication of this virus was selective for human hepatocellular carcinoma (HCC) cell lines when compared to normal cell lines. Furthermore, we show that 2-aminopurine (2′AP) treatment selectively enhanced virus replication and virus-mediated death of HCC cells. 2′AP did not compensate for the loss of VA-RNA activities, but rather the loss of an E1b-55K activity, such as the DNA damage response, suggesting that co-administration of 2′AP derivatives that block host DNA damage response, may increase the oncolytic activity of AdΔE1bΔVA without reducing its selectivity for HCC cells.

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Assessment of Specificity of an Adenovirus Targeted to HER3/4

MacLeod

Potts

Chaurasiya

et al. 2017

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Gene therapy with viral vectors, such as adenovirus (Ad), targeted to the human epidermal growth factor receptors 3 and 4 (HER3/4) are potentially useful for cancer therapy. Testing the expression of a reporter gene from these viruses in target cells is essential to determine functionality of the targeted virus. A competition assay with a relevant ligand (heregulin, HRG) can provide convincing evidence that blocking binding to the HER3/4 receptor results in decreased reporter gene expression. Labeling individual viruses with a fluorescent molecule allows examination of the targeted virus in specific steps in the infection. Virus internalization into cell lines can be determined using antibody-labeled receptors, and the virus colocalization with receptors can also be visualized. Characterization of a targeted virus in this fashion is important to demonstrate that the targeting of the virus functions in an expected manner, and provides support for larger-scale testing of the virus. Information acquired in these experiments may also be useful to inform and improve on the design of future targeted viruses.

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Binding, internalization, and transgene expression of an adenoviral vector retargeted to HER3/4

MacLeod¹

2013

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S H MacLeod

HER3 targeting of adenovirus by fiber modification increases infection of breast cancer cells in vitro, but not following intratumoral injection in mice

2-Aminopurine Enhances the Oncolytic Activity of an E1b-Deleted Adenovirus in Hepatocellular Carcinoma Cells

Assessment of Specificity of an Adenovirus Targeted to HER3/4

Binding, internalization, and transgene expression of an adenoviral vector retargeted to HER3/4

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