Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy

Markus Vähä-Koskela; Siri Tähtinen; Susanna Grönberg-Vähä-Koskela; Kristian Taipale; Dipongkor Saha; Maiju Merisalo-Soikkeli; Marko Ahonen; Noora Rouvinen-Lagerström; Mari Hirvinen; Ville Veckman; Sampsa Matikainen; Fang Zhao; Päivi Pakarinen; Jarmo Salo; Anna Kanerva; Vincenzo Cerullo; Akseli Hemminki

doi:2372-7705

Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy

Markus Vähä-Koskela, Siri Tähtinen, Susanna Grönberg-Vähä-Koskela, Kristian Taipale, Dipongkor Saha, Maiju Merisalo-Soikkeli, Marko Ahonen, Noora Rouvinen-Lagerström, Mari Hirvinen, Ville Veckman, Sampsa Matikainen, Fang Zhao, Päivi Pakarinen, Jarmo Salo, Anna Kanerva, Vincenzo Cerullo, Akseli Hemminki

Biology

Research output: Contribution to journal › Article

Abstract

Successful cancer control relies on overcoming resistance to cell death and on activation of host antitumor immunity. Oncolytic viruses are particularly attractive in this regard, as they lyse infected tumor cells and trigger robust immune responses during the infection. However, repeated injections of the same virus promote antiviral rather than antitumor immunity and tumors may mount innate antiviral defenses to restrict oncolytic virus replication. In this article, we have explored if alternating the therapy virus could circumvent these problems. We demonstrate in two virus-resistant animal models a substantial delay in antiviral immune- and innate cellular response induction by alternating injections of two immunologically distinct oncolytic viruses, adenovirus, and vaccinia virus. Our results are in support of clinical development of heterologous adeno-/vaccinia virus therapy of cancer.

Original language	English
Pages (from-to)	14006
Journal	Unknown journal
Volume	1
DOIs	https://doi.org/2372-7705
State	Published - 2015

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Vähä-Koskela, M., Tähtinen, S., Grönberg-Vähä-Koskela, S., Taipale, K., Saha, D., Merisalo-Soikkeli, M., Ahonen, M., Rouvinen-Lagerström, N., Hirvinen, M., Veckman, V., Matikainen, S., Zhao, F., Pakarinen, P., Salo, J., Kanerva, A., Cerullo, V., & Hemminki, A. (2015). Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy. Unknown journal, 1, 14006. https://doi.org/2372-7705

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title = "Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy",

abstract = "Successful cancer control relies on overcoming resistance to cell death and on activation of host antitumor immunity. Oncolytic viruses are particularly attractive in this regard, as they lyse infected tumor cells and trigger robust immune responses during the infection. However, repeated injections of the same virus promote antiviral rather than antitumor immunity and tumors may mount innate antiviral defenses to restrict oncolytic virus replication. In this article, we have explored if alternating the therapy virus could circumvent these problems. We demonstrate in two virus-resistant animal models a substantial delay in antiviral immune- and innate cellular response induction by alternating injections of two immunologically distinct oncolytic viruses, adenovirus, and vaccinia virus. Our results are in support of clinical development of heterologous adeno-/vaccinia virus therapy of cancer.",

author = "Markus V{\"a}h{\"a}-Koskela and Siri T{\"a}htinen and Susanna Gr{\"o}nberg-V{\"a}h{\"a}-Koskela and Kristian Taipale and Dipongkor Saha and Maiju Merisalo-Soikkeli and Marko Ahonen and Noora Rouvinen-Lagerstr{\"o}m and Mari Hirvinen and Ville Veckman and Sampsa Matikainen and Fang Zhao and P{\"a}ivi Pakarinen and Jarmo Salo and Anna Kanerva and Vincenzo Cerullo and Akseli Hemminki",

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Vähä-Koskela, M, Tähtinen, S, Grönberg-Vähä-Koskela, S, Taipale, K, Saha, D, Merisalo-Soikkeli, M, Ahonen, M, Rouvinen-Lagerström, N, Hirvinen, M, Veckman, V, Matikainen, S, Zhao, F, Pakarinen, P, Salo, J, Kanerva, A, Cerullo, V & Hemminki, A 2015, 'Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy', Unknown journal, vol. 1, pp. 14006. https://doi.org/2372-7705

TY - JOUR

T1 - Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy

AU - Vähä-Koskela, Markus

AU - Tähtinen, Siri

AU - Grönberg-Vähä-Koskela, Susanna

AU - Taipale, Kristian

AU - Saha, Dipongkor

AU - Merisalo-Soikkeli, Maiju

AU - Ahonen, Marko

AU - Rouvinen-Lagerström, Noora

AU - Hirvinen, Mari

AU - Veckman, Ville

AU - Matikainen, Sampsa

AU - Zhao, Fang

AU - Pakarinen, Päivi

AU - Salo, Jarmo

AU - Kanerva, Anna

AU - Cerullo, Vincenzo

AU - Hemminki, Akseli

PY - 2015

Y1 - 2015

N2 - Successful cancer control relies on overcoming resistance to cell death and on activation of host antitumor immunity. Oncolytic viruses are particularly attractive in this regard, as they lyse infected tumor cells and trigger robust immune responses during the infection. However, repeated injections of the same virus promote antiviral rather than antitumor immunity and tumors may mount innate antiviral defenses to restrict oncolytic virus replication. In this article, we have explored if alternating the therapy virus could circumvent these problems. We demonstrate in two virus-resistant animal models a substantial delay in antiviral immune- and innate cellular response induction by alternating injections of two immunologically distinct oncolytic viruses, adenovirus, and vaccinia virus. Our results are in support of clinical development of heterologous adeno-/vaccinia virus therapy of cancer.

AB - Successful cancer control relies on overcoming resistance to cell death and on activation of host antitumor immunity. Oncolytic viruses are particularly attractive in this regard, as they lyse infected tumor cells and trigger robust immune responses during the infection. However, repeated injections of the same virus promote antiviral rather than antitumor immunity and tumors may mount innate antiviral defenses to restrict oncolytic virus replication. In this article, we have explored if alternating the therapy virus could circumvent these problems. We demonstrate in two virus-resistant animal models a substantial delay in antiviral immune- and innate cellular response induction by alternating injections of two immunologically distinct oncolytic viruses, adenovirus, and vaccinia virus. Our results are in support of clinical development of heterologous adeno-/vaccinia virus therapy of cancer.

U2 - 2372-7705

DO - 2372-7705

M3 - Article

VL - 1

SP - 14006

JO - Unknown journal

JF - Unknown journal

ER -

Overcoming tumor resistance by heterologous adeno-poxvirus combination therapy

Abstract

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