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A highly conserved glutamic acid in ALFY inhibits membrane binding to aid in aggregate clearance
Author(s) -
Reinhart Erin F.,
Litt Nicole A.,
Katzenell Sarah,
Pellegrini Maria,
Yamamoto Ai,
Ragusa Michael J.
Publication year - 2020
Publication title -
traffic
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.677
H-Index - 130
eISSN - 1600-0854
pISSN - 1398-9219
DOI - 10.1111/tra.12771
Subject(s) - biology , glutamic acid , microbiology and biotechnology , membrane , biochemistry , biophysics , amino acid
Autophagy‐linked FYVE protein (ALFY) is a large, multidomain protein involved in the degradation of protein aggregates by selective autophagy. The C‐terminal FYVE domain of ALFY has been shown to bind phosphatidylinositol 3‐phosphate (PI(3)P); however, ALFY only partially colocalizes with other FYVE domains in cells. Thus, we asked if the FYVE domain of ALFY has distinct membrane binding properties compared to other FYVE domains and whether these properties might affect its function in vivo. We found that the FYVE domain of ALFY binds weakly to PI(3)P containing membranes in vitro. This weak binding is the result of a highly conserved glutamic acid within the membrane insertion loop in the FYVE domain of ALFY that is not present in any other human FYVE domain. In addition, not only does this glutamic acid reduce binding to membranes in vitro and inhibits its targeting to membranes in vivo, but it is also important for the ability of ALFY to clear protein aggregates.