The F-BAR Protein PACSIN2 Regulates Epidermal Growth Factor Receptor Internalization

Bart-Jan De Kreuk,Eloise C Anthony,Dirk Geerts,Peter L Hordijk

doi:10.1074/jbc.m112.391078

Bart-Jan De Kreuk, Eloise C Anthony + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m112.391078

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Abstract

Signaling via growth factor receptors, including the epidermal growth factor (EGF) receptor, is key to various cellular processes, such as proliferation, cell survival, and cell migration. In a variety of human diseases such as cancer, aberrant expression and activation of growth factor receptors can lead to disturbed signaling. Intracellular trafficking is crucial for proper signaling of growth factor receptors. As a result, the level of cell surface expression of growth factor receptors is an important determinant for the outcome of downstream signaling. BAR domain-containing proteins represent an important family of proteins that regulate membrane dynamics. In this study, we identify a novel role for the F-BAR protein PACSIN2 in the regulation of EGF receptor signaling. We show that internalized EGF as well as the (activated) EGF receptor translocated to PACSIN2-positive endosomes. Furthermore, loss of PACSIN2 increased plasma membrane expression of the EGF receptor in resting cells and increased EGF-induced phosphorylation of the EGF receptor. As a consequence, EGF-induced activation of Erk and Akt as well as cell proliferation were enhanced in PACSIN2-depleted cells. In conclusion, this study identifies a novel role for the F-BAR-domain protein PACSIN2 in regulating EGF receptor surface levels and EGF-induced downstream signaling.

Highlights

Endocytic traffic, mediated partially by BAR proteins, is essential for proper growth factor function
We identify a novel role for the F-BAR protein PACSIN2 in the regulation of epidermal growth factor (EGF) receptor signaling
The Activated EGF Receptor and Internalized EGF Localize to PACSIN2-positive Early Endosomes—In resting cells, YFPPACSIN2 dynamically shuttles from peripheral membrane ruffles to intracellular vesiculotubular structures [16]

Summary

Background

Endocytic traffic, mediated partially by BAR proteins, is essential for proper growth factor function. The level of cell surface expression of growth factor receptors is an important determinant for the outcome of downstream signaling. This study identifies a novel role for the F-BAR-domain protein PACSIN2 in regulating EGF receptor surface levels and EGF-induced downstream signaling. BAR domains induce invaginations of the plasma membrane and, subsequently, vesicular-tubular structures that are involved in membrane dynamics, including receptor internalization [11, 12] Several of these BAR proteins have been implicated in controlling EGF receptor signaling. We show that in PACSIN2 knockdown cells, as well as in cells expressing an SH3 or BAR domain mutant of PACSIN2 (inhibiting protein interactions and internalization, respectively), EGF receptor surface levels were increased. These data show that PACSIN2 is a key regulator of growth factor signaling in epithelial and in endothelial cells, regulating growth factor receptor surface levels and downstream signaling

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DISCUSSION