A novel domain of caveolin‐2 that controls nuclear targeting: regulation of insulin‐specific ERK activation and nuclear translocation by caveolin‐2

Herein, we report that insulin‐activated extracellular signal‐regulated kinase (ERK) is translocated to the nuclear envelope by caveolin‐2 (cav‐2) and associates with lamin A/C in the inner nuclear membrane in response to insulin. We identified that the Ser¹⁵⁴–Val¹⁵⁵–Ser¹⁵⁶ domain on the C‐terminal of cav‐2 is essential for insulin‐induced phosphorylation and nuclear targeting of ERK and cav‐2. In human embryonic kidney 293T cells, ERK was not activated and translocated to the nucleus by insulin in comparison to insulin‐like growth factor‐1 (IGF‐1). However, insulin‐stimulated activation of ERK was induced by exogenous addition of cav‐2. The activated ERK associated and translocated with the cav‐2 to the nucleus. In turn, cav‐2 promoted phospho‐ERK interaction with lamin A/C in the inner nuclear membrane. In contrast, ERK, but not cav‐2, was phosphorylated and translocated to the nucleus by IGF‐1. The nuclear targeted phospho‐ERK failed to localize in the nuclear envelope in response to IGF‐1. Together, our data demonstrate that translocation of phospho‐ERK to the nuclear envelope is mediated by Ser¹⁵⁴–Val¹⁵⁵–Ser¹⁵⁶ domain of cav‐2 and this event is an insulin‐specific action.