The giant protein HERC1 is recruited to aluminum fluoride-induced actin-rich surface protrusions in HeLa cells.

HERC1 is a very large protein involved in membrane traffic through both its ability to bind clathrin and its guanine nucleotide exchange factor (GEF) activity over ARF and Rab family GTPases. Herein, we show that HERC1 is recruited onto actin-rich surface protrusions in ARF6-transfected HeLa cells upon aluminum fluoride (AlF(4)(-)) treatment. Moreover, the fact that HERC1 overexpression does not stimulate protrusion formation in the absence of AlF(4)(-), in conditions where ARNO does, indicates that HERC1 is not acting as an ARF6-GEF in this system, but that instead its recruitment takes place downstream of ARF6 activation. Finally, we suggest a phosphoinositide-binding mechanism whereby HERC1 may translocate to these protrusions.