A mono phenylalanine-based motif (F790) and a leucine-dependent motif (LI760) mediate internalization of furin.

The eukaryotic endoprotease furin, a member of the subtilisin-related family of prohormone convertases, is synthesized and transported within the constitutive secretory pathway to the plasma membrane, from where it recycles to the trans-Golgi network (TGN). Previous studies showed that TGN-residence and recycling are mediated by the cytoplasmic tail. Two targeting determinants have been described so far, the acidic signal CPSDSEEDEG783 containing two casein kinase II (CKII) phosphorylation sites and the internalization signal YKGL765. Refined analyses of the cytoplasmic domain of furin, which was mutagenized and tagged to the influenza hemagglutinin and to the membrane cofactor protein (CD46) as reporter molecules reveal two additional internalization determinants, a leucine-isoleucine signal, LI760, and a mono phenylalanine-based motif at F790, which functions without any specific neighboring amino acid sequence. Both signals are capable of independently mediating internalization, as has been shown previously for the tyrosine-based signal. Thus, furin internalization is mediated by at least three independent endocytosis signals.