Abstract
The fully executed epidermal growth factor receptor (EGFR)/Ras/MEK/ERK pathway serves a pro-survival role in renal epithelia under moderate oxidative stress. We and others have demonstrated that during severe oxidative stress, however, the activated EGFR is disconnected from ERK activation in cultured renal proximal tubule cells and also in renal proximal tubules after ischemia/reperfusion injury, resulting in necrotic death. Studies have shown that the tyrosine-phosphorylated p46/52 isoforms of the ShcA family of adaptor proteins connect the activated EGFR to activation of Ras and ERK, whereas the p66(shc) isoform can inhibit this p46/52(shc) function. Here, we determined that severe oxidative stress (after a brief period of activation) terminates activation of the Ras/MEK/ERK pathway, which coincides with ERK/JNK-dependent Ser(36) phosphorylation of p66(shc). Isoform-specific knockdown of p66(shc) or mutation of Ser(36) to Ala, but not to Asp, attenuated severe oxidative stress-mediated ERK inhibition and cell death in vitro. Also, severe oxidative stress (unlike ligand stimulation and moderate oxidative stress, both of which support survival) increased binding of p66(shc) to the activated EGFR and Grb2. This binding dissociated the SOS1 adaptor protein from the EGFR-recruited signaling complex, leading to termination of Ras/MEK/ERK activation. Notably, Ser(36) phosphorylation of p66(shc) and its increased binding to the EGFR also occurred in the kidney after ischemia/reperfusion injury in vivo. At the same time, SOS1 binding to the EGFR declined, similar to the in vitro findings. Thus, the mechanism we propose in vitro offers a means to ameliorate oxidative stress-induced cell injury by either inhibiting Ser(36) phosphorylation of p66(shc) or knocking down p66(shc) expression in vivo.
Highlights
The canonical Ras/MEK2/ERK pathway is activated upon ligand or, in some instances, H2O2 stimulation of the epidermal growth factor receptor (EGFR) [1, 2]
Activation of the EGFR-mediated Ras/MEK/ERK Pathway Is Attenuated during Severe Oxidative Stress—TKPTS cells survive 0.5 mM H2O2 treatment via growth arrest, whereas they undergo necrotic death after treatment with 1 mM H2O2 [14, 15]
We determined that both 0.5 and 1 mM H2O2 tyrosine-phosphorylate the EGFR, similar to EGF treatment [15], but that ERK activation is absent after treatment of the cells with 1 mM H2O2, whereas 0.5 mM H2O2-induced ERK phosphorylation is persistent for a longer time [14], similar to treatment with EGF
Summary
The canonical Ras/MEK2/ERK pathway is activated upon ligand or, in some instances, H2O2 stimulation of the epidermal growth factor receptor (EGFR) [1, 2]. On the other hand, during moderate stress (moderate dose of H2O2) in vitro, renal proximal tubule cells survive through activation of the EGFR and ERK [14, 15]. These observations suggest that the activated EGFR could serve a prodeath function [22] in addition to its more widely accepted role of enhancing regeneration of the injured segments of the kidney [20, 23, 43, 44]. We sought means to manipulate either expression or Ser phosphorylation of p66shc to restore ERK activation and survival
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