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Merck

DNA-based delivery of anti-DR5 Nanobodies improves exposure and anti-tumor efficacy over protein-based administration.

Cancer gene therapy (2020-08-01)
Giles Vermeire, Elien De Smidt, Peter Casteels, Nick Geukens, Paul Declerck, Kevin Hollevoet
RESUMEN

Nanobodies present an appealing class of potential cancer therapeutics. The current study explores the in vivo expression of these molecules through DNA-encoded delivery. We hypothesized that this approach could address the rapid clearance of Nanobodies and, through half-life modulation, increase the produced levels in circulation. We therefore evaluated pharmacokinetics and efficacy of variants of an anti-death receptor 5 Nanobody (NbDR5), either monovalent or multivalent with half-life extension properties, after DNA-based administration. Intramuscular electrotransfer of a monovalent NbDR5-encoding plasmid (pNbDR5) did not result in detectable plasma levels in BALB/c mice. A tetravalent NbDR5-encoding plasmid (pNbDR54) provided peak concentrations of 54 ng/mL, which remained above 24 ng/mL during a 12-week follow-up. DNA-based delivery of these Nanobody formats fused to a Nanobody binding to serum albumin (NbSA), pNbDR5-NbSA and pNbDR54-NbSA, resulted in significantly higher plasma levels, with peak titers of 5.2 and 7.7 µg/mL, respectively. In an athymic-nude mice COLO 205 colon-cancer model, a quadrupled intramuscular DNA dose led to peak plasma levels of 270 ng/mL for pNbDR54 and 38 µg/mL for pNbDR54-NbSA. Potent anti-tumor responses were only observed for pNbDR54, following either intramuscular or intratumoral delivery. Despite comparable in vitro activity and superior plasma exposure, NbDR54-NbSA was less effective than NbDR54 in vivo, regardless of whether delivered as DNA or protein. Overall, DNA-based Nanobody delivery resulted in more potent and durable anti-tumor responses than protein-based Nanobody delivery. In conclusion, this study demonstrates pre-clinical proof of concept for DNA-based Nanobodies in oncology and highlights the improved outcome over conventional protein administration.

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Hialuronidasa from bovine testes, Type IV-S, powder, suitable for mouse embryo cell culture, 750-3000 units/mg solid