Author: Szomolay, Barbara ; Vitale, Maria ; D'Argenio, Valeria ; Guarracino, Mario Rosario ; Passariello, Margherita ; Cerullo, Vincenzo ; Capasso, Cristian ; Gentile, Laura ; Scalia, Giulia ; Granata, Ilaria ; Tripodi, Lorella ; Castaldo, Giuseppe ; Whalley, Thomas ; Pastore, Lucio ; Coluccino, Ludovica ; De Lorenzo, Claudia ; Feola, Sara

Gut microbiota plays a key role in modulating responses to cancer immunotherapy in melanoma patients. Oncolytic viruses (OVs) represent emerging tools in cancer therapy, inducing a potent immunogenic cancer cell death (ICD) and recruiting immune cells in tumors, poorly infiltrated by T cells. We investigated whether the antitumoral activity of oncolytic adenovirus Ad5D24-CpG (Ad-CpG) was gut microbiota-mediated in a syngeneic mouse model of melanoma and observed that ICD was weakened by vancomycin-mediated perturbation of gut microbiota. Ad-CpG efficacy was increased by oral supplementation with Bifidobacterium, reducing melanoma progression and tumor-infiltrating regulatory T cells. Fecal microbiota was enriched in bacterial species belonging to the Firmicutes phylum in mice treated with both Bifidobacterium and Ad-CpG; furthermore, our data suggest that molecular mimicry between melanoma and Bifidobacterium-derived epitopes may favor activation of cross-reactive T cells and constitutes one of the mechanisms by which gut microbiota modulates OVs response.

01 Nov 2012·Molecular therapy : the journal of the American Society of Gene TherapyQ1 · MEDICINE

An Oncolytic Adenovirus Enhanced for Toll-like Receptor 9 Stimulation Increases Antitumor Immune Responses and Tumor Clearance

Q1 · MEDICINE

Article

Author: Sirkka-Liisa Holm ; Mari Hirvinen ; Sophie Escutenaire ; Akseli Hemminki ; Iulia Diaconu ; Anna Kanerva ; Anja Kipar ; Valentina Romano ; Vincenzo Cerullo ; Matteo Ugolini

Oncolytic viruses represent a multifaceted tool for cancer treatment. In addition to specific killing of cancer cells (oncolysis), these agents also provide danger signals prompting the immune system to stimulate an antitumor immune response. To increase adenovirus adjuvancy, we engineered the genome of Ad5D24 by inserting 18 immunostimulatory islands (Ad5D24-CpG). The toxicity and immunogenicity profile of Ad5D24-CpG showed that the safety of the maternal virus was retained. The efficacy of the CpG-enriched virus was assessed in a xenograft model of lung cancer where a significant increase in antitumor effect was seen in comparison with controls. When the experiment was repeated in animal depleted of natural killer (NK) cells, Ad5D24-CpG lost its advantage. The same was seen when Toll-like receptor (TLR)9 was blocked systemically. In a syngeneic model of melanoma (B16-OVA), we observed a significant increase of OVA-specific T cells and a decrease of activation of myeloid-derived suppressor cells in Ad5D24-CpG-treated mice. In conclusion, we have generated the first genetically modified oncolytic adenovirus backbone able to enhance TLR9-stimulation for increased antitumor activity.

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Indication	Highest Phase	Country/Location	Organization	Date
Melanoma	Preclinical	Finland	University of Helsinki	01 Nov 2012

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