Abstract
Extracellular signal-regulated kinase 8 (ERK8), also known as mitogen-activated protein kinase 15 (MAPK15), is the most recently identified protein kinase of the ERK family members and yet the least has been studied so far. Here, we report that ERK8 is highly expressed in several human lung cancer cell lines and is positively correlated with their sensitivities to the anti-cancer drug arsenic trioxide (As2O3). As2O3 at physiologically relevant concentrations (5–20 μM) potently stimulates the phosphorylation of ERK8 at Thr175 and Tyr177 within the TEY motif in the kinase domain, leading to its activation. Interestingly, activated ERK8 interacts and directly phosphorylates IkappaBalpha (IκBα) at Ser32 and Ser36, resulting in IκBα degradation. This in turn promotes nuclear factor-kappaB (NF-κB) p65 nuclear translocation and chromatin-binding, as well as the subsequent induction and activation of proteins involved in apoptosis. We also show that stable short-hairpin RNA-specific knockdown of endogenous ERK8 or inhibition of NF-κB activity by NF-κB inhibitor in high ERK8 expressing lung cancer H1299 cells blunted the As2O3-induced NF-κB activation and cytotoxicity towards these cells, indicating the critical role of ERK8 and NF-κB in mediating the As2O3 effects. Taken together, our findings suggest for the first time a regulatory paradigm of NF-κB activation by ERK8 upon As2O3 treatment in human lung cancer cells; and implicate a potential therapeutic advantage of As2O3 that might gain more selective killing of cancer cells with high ERK8 expression.
Highlights
Human Extracellular signal-regulated kinase 8 (ERK8), located at 8q24.3, is the most recently identified member of the ERK family [1]
We focused on novel functions and signaling cascade mediated by ERK8
From the results, it can be seen that the phosphorylation of ERK8 is increased by As2O3 treatment in a dose- and time-dependent manner, suggesting that ERK8 can be activated by As2O3 and that ERK8 may mediate the cellular effects of As2O3 (Figure 1A–1C)
Summary
Human ERK8 (alias MAPK15), located at 8q24.3, is the most recently identified member of the ERK family [1]. ERK8 has been considered as an atypical MAPK partly because it contains the long carboxyl-terminal domain that regulating its activity, cellular localization and function [1,2,3]. ERK8 has recently been shown to increase tumorigenesis in human colon cancer cells by activating c-jun and in gastric cancer cells by stabilizing c-Jun [8, 9]. ERK8 is involved in maintaining genome stability as well as autophagy [10, 11] It is still unclear whether ERK8 acts as a proto-oncogene or tumor suppressor. It should www.impactjournals.com/oncotarget be noted that protein expressed in one cell type might function differently in another, leading to diverse phenotypes. No unified functions of ERK8 can be drawn conclusively at present
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