Abstract
Nox4-derived ROS is increased in response to hyperglycemia and is required for IGF-I-stimulated Src activation. This study was undertaken to determine the mechanism by which Nox4 mediates sustained Src activation. IGF-I stimulated sustained Src activation, which occurred primarily on the SHPS-1 scaffold protein. In vitro oxidation experiments indicated that Nox4-derived ROS was able to oxidize Src when they are in close proximity, and Src oxidation leads to its activation. Therefore we hypothesized that Nox4 recruitment to the plasma membrane scaffold SHPS-1 allowed localized ROS generation to mediate sustained Src oxidation and activation. To determine the mechanism of Nox4 recruitment, we analyzed the role of Grb2, a component of the SHPS-1 signaling complex. We determined that Nox4 Tyr-491 was phosphorylated after IGF-I stimulation and was responsible for Nox4 binding to the SH2 domain of Grb2. Overexpression of a Nox4 mutant, Y491F, prevented Nox4/Grb2 association. Importantly, it also prevented Nox4 recruitment to SHPS-1. The role of Grb2 was confirmed using a Pyk2 Y881F mutant, which blocked Grb2 recruitment to SHPS-1. Cells expressing this mutant had impaired Nox4 recruitment to SHPS-1. IGF-I-stimulated downstream signaling and biological actions were also significantly impaired in Nox4 Y491F-overexpressing cells. Disruption of Nox4 recruitment to SHPS-1 in aorta from diabetic mice inhibited IGF-I-stimulated Src oxidation and activation as well as cell proliferation. These findings provide insight into the mechanism by which localized Nox4-derived ROS regulates the sustained activity of a tyrosine kinase that is critical for mediating signal transduction and biological actions.
Highlights
Nox4-derived reactive oxygen species (ROS) is required for Src oxidation and activation
Sustained Src Activation in Response to IGF-I Primarily Occurs on the SHPS-1 Complex— Src activation is required for mediating the IGF-I signaling response during hyperglycemia [15], it is unknown whether IGF-I stimulates sustained Src activation
Because our previous studies showed that hyperglycemia induced the formation of a signaling complex on the cytoplasmic domain (CD) of the scaffolding protein SHPS-1 and that IGF-I stimulated Src recruitment to that complex [13, 14], we determined whether Src recruitment to SHPS-1 resulted in sustained activation
Summary
Nox4-derived ROS is required for Src oxidation and activation. Results: Grb recruits Nox to the scaffold protein SHPS-1, and Nox colocalization with Src on SHPS-1 allows Nox to activate Src. Disruption of Nox recruitment to SHPS-1 in aorta from diabetic mice inhibited IGF-I-stimulated Src oxidation and activation as well as cell proliferation These findings provide insight into the mechanism by which localized Nox4derived ROS regulates the sustained activity of a tyrosine kinase that is critical for mediating signal transduction and biological actions. Our previous studies have shown that SHPS-1, a plasma membrane protein, functions as a localized scaffold for the formation of a signaling complex, which is required for mediating IGF-I signaling and biological functions in VSMC in response. Because Nox4-derived ROS mediates IGF-I-stimulated Src oxidation and activation [9], we hypothesized that recruitment of Nox and Src to SHPS-1 results in localized ROS generation, which is required for oxidation of Src and its sustained activation. We determined how Nox is recruited to SHPS-1 in response to IGF-I stimulation in VSMC and the consequences of disruption Nox recruitment for IGF-I signaling and biological actions in vivo
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