Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection

Oxana V. Denisova; Laura Kakkola; Lin Feng; Jakob Stenman; Ashwini Nagaraj; Johanna Lampe; Bhagwan Yadav; Tero Aittokallio; Pasi Kaukinen; Tero Ahola; Suvi Kuivanen; Olli Vapalahti; Anu Kantele; Janne Tynell; Ilkka Julkunen; Hannimari Kallio-Kokko; Henrik Paavilainen; Veijo Hukkanen; Richard M. Elliott; Jef K. De Brabander; Xavier Saelens; Denis E. Kainov

doi:10.1074/jbc.M112.392142

Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection

Oxana V. Denisova, Laura Kakkola, Lin Feng, Jakob Stenman, Ashwini Nagaraj, Johanna Lampe, Bhagwan Yadav, Tero Aittokallio, Pasi Kaukinen, Tero Ahola, Suvi Kuivanen, Olli Vapalahti, Anu Kantele, Janne Tynell, Ilkka Julkunen, Hannimari Kallio-Kokko, Henrik Paavilainen, Veijo Hukkanen, Richard M. Elliott, Jef K. De BrabanderXavier Saelens, Denis E. Kainov

Research output: Contribution to journal › Article › peer-review

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Abstract

Influenza A viruses (IAVs) infect humans and cause significant morbidity and mortality. Different treatment options have been developed; however, these were insufficient during recent IAV outbreaks. Here, we conducted a targeted chemical screen in human nonmalignant cells to validate known and search for novel host-directed antivirals. The screen validated saliphenylhalamide (SaliPhe) and identified two novel anti-IAV agents, obatoclax and gemcitabine. Further experiments demonstrated that Mcl-1 (target of obatoclax) provides a novel host target for IAV treatment. Moreover, we showed that obatoclax and SaliPhe inhibited IAV uptake and gemcitabine suppressed viral RNA transcription and replication. These compounds possess broad spectrum antiviral activity, although their antiviral efficacies were virus-, cell type-, and species-specific. Altogether, our results suggest that phase II obatoclax, investigational SaliPhe, and FDA/EMEA-approved gemcitabine represent potent antiviral agents.

Original language	English (US)
Pages (from-to)	35324-35332
Number of pages	9
Journal	Journal of Biological Chemistry
Volume	287
Issue number	42
DOIs	https://doi.org/10.1074/jbc.M112.392142
State	Published - Oct 12 2012

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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Denisova, O. V., Kakkola, L., Feng, L., Stenman, J., Nagaraj, A., Lampe, J., Yadav, B., Aittokallio, T., Kaukinen, P., Ahola, T., Kuivanen, S., Vapalahti, O., Kantele, A., Tynell, J., Julkunen, I., Kallio-Kokko, H., Paavilainen, H., Hukkanen, V., Elliott, R. M., ... Kainov, D. E. (2012). Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection. Journal of Biological Chemistry, 287(42), 35324-35332. https://doi.org/10.1074/jbc.M112.392142

Denisova, OV, Kakkola, L, Feng, L, Stenman, J, Nagaraj, A, Lampe, J, Yadav, B, Aittokallio, T, Kaukinen, P, Ahola, T, Kuivanen, S, Vapalahti, O, Kantele, A, Tynell, J, Julkunen, I, Kallio-Kokko, H, Paavilainen, H, Hukkanen, V, Elliott, RM, De Brabander, JK, Saelens, X & Kainov, DE 2012, 'Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection', Journal of Biological Chemistry, vol. 287, no. 42, pp. 35324-35332. https://doi.org/10.1074/jbc.M112.392142

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title = "Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection",

abstract = "Influenza A viruses (IAVs) infect humans and cause significant morbidity and mortality. Different treatment options have been developed; however, these were insufficient during recent IAV outbreaks. Here, we conducted a targeted chemical screen in human nonmalignant cells to validate known and search for novel host-directed antivirals. The screen validated saliphenylhalamide (SaliPhe) and identified two novel anti-IAV agents, obatoclax and gemcitabine. Further experiments demonstrated that Mcl-1 (target of obatoclax) provides a novel host target for IAV treatment. Moreover, we showed that obatoclax and SaliPhe inhibited IAV uptake and gemcitabine suppressed viral RNA transcription and replication. These compounds possess broad spectrum antiviral activity, although their antiviral efficacies were virus-, cell type-, and species-specific. Altogether, our results suggest that phase II obatoclax, investigational SaliPhe, and FDA/EMEA-approved gemcitabine represent potent antiviral agents.",

author = "Denisova, {Oxana V.} and Laura Kakkola and Lin Feng and Jakob Stenman and Ashwini Nagaraj and Johanna Lampe and Bhagwan Yadav and Tero Aittokallio and Pasi Kaukinen and Tero Ahola and Suvi Kuivanen and Olli Vapalahti and Anu Kantele and Janne Tynell and Ilkka Julkunen and Hannimari Kallio-Kokko and Henrik Paavilainen and Veijo Hukkanen and Elliott, {Richard M.} and {De Brabander}, {Jef K.} and Xavier Saelens and Kainov, {Denis E.}",

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doi = "10.1074/jbc.M112.392142",

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AU - Denisova, Oxana V.

AU - Kakkola, Laura

AU - Feng, Lin

AU - Stenman, Jakob

AU - Nagaraj, Ashwini

AU - Lampe, Johanna

AU - Yadav, Bhagwan

AU - Aittokallio, Tero

AU - Kaukinen, Pasi

AU - Ahola, Tero

AU - Kuivanen, Suvi

AU - Vapalahti, Olli

AU - Kantele, Anu

AU - Tynell, Janne

AU - Julkunen, Ilkka

AU - Kallio-Kokko, Hannimari

AU - Paavilainen, Henrik

AU - Hukkanen, Veijo

AU - Elliott, Richard M.

AU - De Brabander, Jef K.

AU - Saelens, Xavier

AU - Kainov, Denis E.

PY - 2012/10/12

Y1 - 2012/10/12

N2 - Influenza A viruses (IAVs) infect humans and cause significant morbidity and mortality. Different treatment options have been developed; however, these were insufficient during recent IAV outbreaks. Here, we conducted a targeted chemical screen in human nonmalignant cells to validate known and search for novel host-directed antivirals. The screen validated saliphenylhalamide (SaliPhe) and identified two novel anti-IAV agents, obatoclax and gemcitabine. Further experiments demonstrated that Mcl-1 (target of obatoclax) provides a novel host target for IAV treatment. Moreover, we showed that obatoclax and SaliPhe inhibited IAV uptake and gemcitabine suppressed viral RNA transcription and replication. These compounds possess broad spectrum antiviral activity, although their antiviral efficacies were virus-, cell type-, and species-specific. Altogether, our results suggest that phase II obatoclax, investigational SaliPhe, and FDA/EMEA-approved gemcitabine represent potent antiviral agents.

AB - Influenza A viruses (IAVs) infect humans and cause significant morbidity and mortality. Different treatment options have been developed; however, these were insufficient during recent IAV outbreaks. Here, we conducted a targeted chemical screen in human nonmalignant cells to validate known and search for novel host-directed antivirals. The screen validated saliphenylhalamide (SaliPhe) and identified two novel anti-IAV agents, obatoclax and gemcitabine. Further experiments demonstrated that Mcl-1 (target of obatoclax) provides a novel host target for IAV treatment. Moreover, we showed that obatoclax and SaliPhe inhibited IAV uptake and gemcitabine suppressed viral RNA transcription and replication. These compounds possess broad spectrum antiviral activity, although their antiviral efficacies were virus-, cell type-, and species-specific. Altogether, our results suggest that phase II obatoclax, investigational SaliPhe, and FDA/EMEA-approved gemcitabine represent potent antiviral agents.

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Obatoclax, saliphenylhalamide, and gemcitabine inhibit influenza A virus infection

Abstract

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