Abstract
Two-cycle cesium chloride (2 × CsCl) gradient ultracentrifugation is a conventional approach for purifying recombinant adenoviruses (rAds) for research purposes (gene therapy, vaccines, and oncolytic vectors). However, rAds containing the RGD-4C peptide in the HI loop of the fiber knob domain tend to aggregate during 2 × CsCl gradient ultracentrifugation resulting in a low infectious titer yield or even purification failure. An iodixanol-based purification method preventing aggregation of the RGD4C-modified rAds has been proposed. However, the reason explaining aggregation of the RGD4C-modified rAds during 2 × CsCl but not iodixanol gradient ultracentrifugation has not been revealed. In the present study, we showed that rAds with the RGD-4C peptide in the HI loop but not at the C-terminus of the fiber knob domain were prone to aggregate during 2 × CsCl but not iodixanol gradient ultracentrifugation. The cysteine residues with free thiol groups after the RGD motif within the inserted RGD-4C peptide were responsible for formation of the interparticle disulfide bonds under atmospheric oxygen and aggregation of Ad5-delta-24-RGD4C-based rAds during 2 × CsCl gradient ultracentrifugation, which could be prevented using iodixanol gradient ultracentrifugation, most likely due to antioxidant properties of iodixanol. A cysteine-to-glycine substitution of the cysteine residues with free thiol groups (RGD-2C2G) prevented aggregation during 2 × CsCl gradient purification but in coxsackie and adenovirus receptor (CAR)-low/negative cancer cell lines of human and rodent origin, this reduced cytolytic efficacy to the levels observed for a fiber non-modified control vector. However, both Ad5-delta-24-RGD4C and Ad5-delta-24-RGD2C2G were equally effective in the murine immunocompetent CT-2A glioma model due to a primary role of antitumor immune responses in the therapeutic efficacy of oncolytic virotherapy.
Highlights
Human adenovirus 5 (Ad5)-based oncolytic recombinant viruses have been the most commonly used across many cancer types in clinical trials
It was observed that recombinant adenoviruses (rAds) containing the RGD-4C peptide in the HI loop of the fiber knob domain tended to aggregate during 2 × CsCl gradient ultracentrifugation, especially in the second round of ultracentrifugation, forming floccules without a sharp band, which resulted in a low infectious titer yield or even purification failure[19]
Recombinant adenoviruses with the RGD‐4C peptide in the HI loop of the fiber knob domain but not at the C‐terminus of the serotype chimeric fibers aggregate during 2 × CsCl gradient ultracentrifugation
Summary
Human adenovirus 5 (Ad5)-based oncolytic recombinant viruses (rAds) have been the most commonly used across many cancer types in clinical trials. Wild type Ad5 transduces host cells by attaching via the fiber knob domain to coxsackievirus and adenovirus receptor (CAR) and internalizing by endocytosis through the interaction of the conserved RGD sequences of its penton base proteins with αVβ3/αVβ5 integrins. Ad5 tropism modification by inserting the RGD-4C peptide in the HI loop of the fiber knob domain enhanced CAR-independent transduction of a wide range of tumor cells of different tissue origin, including g lioma[1,14,15]. It was observed that rAds containing the RGD-4C peptide in the HI loop of the fiber knob domain tended to aggregate during 2 × CsCl gradient ultracentrifugation, especially in the second round of ultracentrifugation, forming floccules without a sharp band, which resulted in a low infectious titer yield or even purification failure[19]. We provided a mechanistic explanation on this long-standing issue
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