The tyrosine phosphatase SHP2 regulates focal adhesion kinase to promote EGF-induced lamellipodia persistence and cell migration.

The Src homology phosphotyrosyl phosphatase 2 (SHP2) is a positive effector of receptor tyrosine kinases (RTK) signaling. Furthermore, SHP2 is known to promote cell migration and invasiveness, key steps in cancer metastasis. To date, however, the mechanism by which SHP2 regulates cell movement is not fully understood. In the current report, a new role for SHP2 in regulating cell migration has been suggested. We show that SHP2 mediates lamellipodia persistence and cell polarity to promote directional cell migration in the MDA-MB231 and the MDA-MB468 basal-like and triple-negative breast cancer cell lines. We further show that SHP2 modulates the activity of focal adhesion kinase (FAK) by dephosphorylating pTyr397, the autophosphorylation site that primes FAK function. Because hyperactivation of FAK is known to counter the maturation of nascent focal complexes to focal adhesions, we propose that one of the mechanisms by which SHP2 promotes lamellipodia persistence is by downregulating FAK activity through dephosphorylation of pTyr397. The finding that inhibition of FAK activity partially restores EGF-induced lamellipodia persistence and cell migration in SHP2-silenced cells supports our proposition that SHP2 promotes growth factor-induced cell movement by acting, at least in part, on FAK. However, the effect of SHP2 inhibition in nonstimulated cells seems FAK independent as there was no significant difference between the control and the SHP2-silenced cells in pY397-FAK levels. Also, FAK inhibition did not rescue Golgi orientation defects in SHP2-silenced cells, suggesting that SHP2 acts through other mechanisms to promote cell polarity.