The PKC/NF-κB signaling pathway induces APOBEC3B expression in multiple human cancers

Brandon Leonard; Jennifer L. McCann; Gabriel J. Starrett; Leah Kosyakovsky; Elizabeth M. Luengas; Amy M. Molan; Michael B. Burns; Rebecca M. McDougle; Peter J. Parker; William L. Brown; Reuben S. Harris

doi:10.1158/0008-5472.CAN-15-2171-T

The PKC/NF-κB signaling pathway induces APOBEC3B expression in multiple human cancers

Brandon Leonard, Jennifer L. McCann, Gabriel J. Starrett, Leah Kosyakovsky, Elizabeth M. Luengas, Amy M. Molan, Michael B. Burns, Rebecca M. McDougle, Peter J. Parker, William L. Brown, Reuben S. Harris

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104 Scopus citations

Abstract

Overexpression of the antiviral DNA cytosine deaminase APOBEC3B has been linked to somatic mutagenesis in many cancers. Human papillomavirus infection accounts for APOBEC3B upregulation in cervical and head/neck cancers, but the mechanisms underlying nonviral malignancies are unclear. In this study, we investigated the signal transduction pathways responsible for APOBEC3B upregulation. Activation of protein kinase C (PKC) by the diacylglycerol mimic phorbolmyristic acid resulted in specific and dose-responsive increases in APOBEC3B expression and activity, which could then be strongly suppressed by PKC or NF-κB inhibition. PKC activation caused the recruitment of RELB, but not RELA, to the APOBEC3B promoter, implicating noncanonical NF-κB signaling. Notably, PKC was required for APOBEC3B upregulation in cancer cell lines derived from multiple tumor types. By revealing how APOBEC3B is upregulated in many cancers, our findings suggest that PKC and NF-κB inhibitors may be repositioned to suppress cancer mutagenesis, dampen tumor evolution, and decrease the probability of adverse outcomes, such as drug resistance and metastasis.

Original language	English (US)
Pages (from-to)	4538-4547
Number of pages	10
Journal	Cancer Research
Volume	75
Issue number	21
DOIs	https://doi.org/10.1158/0008-5472.CAN-15-2171-T
State	Published - Nov 1 2015

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© 2015 AACR.

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title = "The PKC/NF-κB signaling pathway induces APOBEC3B expression in multiple human cancers",

abstract = "Overexpression of the antiviral DNA cytosine deaminase APOBEC3B has been linked to somatic mutagenesis in many cancers. Human papillomavirus infection accounts for APOBEC3B upregulation in cervical and head/neck cancers, but the mechanisms underlying nonviral malignancies are unclear. In this study, we investigated the signal transduction pathways responsible for APOBEC3B upregulation. Activation of protein kinase C (PKC) by the diacylglycerol mimic phorbolmyristic acid resulted in specific and dose-responsive increases in APOBEC3B expression and activity, which could then be strongly suppressed by PKC or NF-κB inhibition. PKC activation caused the recruitment of RELB, but not RELA, to the APOBEC3B promoter, implicating noncanonical NF-κB signaling. Notably, PKC was required for APOBEC3B upregulation in cancer cell lines derived from multiple tumor types. By revealing how APOBEC3B is upregulated in many cancers, our findings suggest that PKC and NF-κB inhibitors may be repositioned to suppress cancer mutagenesis, dampen tumor evolution, and decrease the probability of adverse outcomes, such as drug resistance and metastasis.",

author = "Brandon Leonard and McCann, {Jennifer L.} and Starrett, {Gabriel J.} and Leah Kosyakovsky and Luengas, {Elizabeth M.} and Molan, {Amy M.} and Burns, {Michael B.} and McDougle, {Rebecca M.} and Parker, {Peter J.} and Brown, {William L.} and Harris, {Reuben S.}",

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AU - McCann, Jennifer L.

AU - Starrett, Gabriel J.

AU - Kosyakovsky, Leah

AU - Luengas, Elizabeth M.

AU - Molan, Amy M.

AU - Burns, Michael B.

AU - McDougle, Rebecca M.

AU - Parker, Peter J.

AU - Brown, William L.

AU - Harris, Reuben S.

PY - 2015/11/1

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N2 - Overexpression of the antiviral DNA cytosine deaminase APOBEC3B has been linked to somatic mutagenesis in many cancers. Human papillomavirus infection accounts for APOBEC3B upregulation in cervical and head/neck cancers, but the mechanisms underlying nonviral malignancies are unclear. In this study, we investigated the signal transduction pathways responsible for APOBEC3B upregulation. Activation of protein kinase C (PKC) by the diacylglycerol mimic phorbolmyristic acid resulted in specific and dose-responsive increases in APOBEC3B expression and activity, which could then be strongly suppressed by PKC or NF-κB inhibition. PKC activation caused the recruitment of RELB, but not RELA, to the APOBEC3B promoter, implicating noncanonical NF-κB signaling. Notably, PKC was required for APOBEC3B upregulation in cancer cell lines derived from multiple tumor types. By revealing how APOBEC3B is upregulated in many cancers, our findings suggest that PKC and NF-κB inhibitors may be repositioned to suppress cancer mutagenesis, dampen tumor evolution, and decrease the probability of adverse outcomes, such as drug resistance and metastasis.

AB - Overexpression of the antiviral DNA cytosine deaminase APOBEC3B has been linked to somatic mutagenesis in many cancers. Human papillomavirus infection accounts for APOBEC3B upregulation in cervical and head/neck cancers, but the mechanisms underlying nonviral malignancies are unclear. In this study, we investigated the signal transduction pathways responsible for APOBEC3B upregulation. Activation of protein kinase C (PKC) by the diacylglycerol mimic phorbolmyristic acid resulted in specific and dose-responsive increases in APOBEC3B expression and activity, which could then be strongly suppressed by PKC or NF-κB inhibition. PKC activation caused the recruitment of RELB, but not RELA, to the APOBEC3B promoter, implicating noncanonical NF-κB signaling. Notably, PKC was required for APOBEC3B upregulation in cancer cell lines derived from multiple tumor types. By revealing how APOBEC3B is upregulated in many cancers, our findings suggest that PKC and NF-κB inhibitors may be repositioned to suppress cancer mutagenesis, dampen tumor evolution, and decrease the probability of adverse outcomes, such as drug resistance and metastasis.

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The PKC/NF-κB signaling pathway induces APOBEC3B expression in multiple human cancers

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