Abstract
Autophagy-related protein 8 (ATG8) is a highly conserved ubiquitin-like protein that modulates autophagy pathways by binding autophagic membranes and a number of proteins, including cargo receptors and core autophagy components. Throughout plant evolution, ATG8 has expanded from a single protein in algae to multiple isoforms in higher plants. However, the degree to which ATG8 isoforms have functionally specialized to bind distinct proteins remains unclear. Here, we describe a comprehensive protein–protein interaction resource, obtained using in planta immunoprecipitation (IP) followed by mass spectrometry (MS), to define the potato ATG8 interactome. We discovered that ATG8 isoforms bind distinct sets of plant proteins with varying degrees of overlap. This prompted us to define the biochemical basis of ATG8 specialization by comparing two potato ATG8 isoforms using both in vivo protein interaction assays and in vitro quantitative binding affinity analyses. These experiments revealed that the N-terminal β-strand—and, in particular, a single amino acid polymorphism—underpins binding specificity to the substrate PexRD54 by shaping the hydrophobic pocket that accommodates this protein’s ATG8-interacting motif (AIM). Additional proteomics experiments indicated that the N-terminal β-strand shapes the broader ATG8 interactor profiles, defining interaction specificity with about 80 plant proteins. Our findings are consistent with the view that ATG8 isoforms comprise a layer of specificity in the regulation of selective autophagy pathways in plants.
Highlights
Macroautophagy is a conserved cellular quality control pathway that removes unwanted self and non-self macromolecules to maintain homeostasis in response
About half (48%) of proteins in our dataset had closely related proteins within the human Autophagy-related protein 8 (ATG8) interactome defined by Behrends and colleagues (2010) [22] using IP-mass spectrometry (MS)—a figure that is markedly higher compared with random sets of proteins of the same size (621 proteins) (S9 Fig; S2 Table)
We provide evidence that biochemical specialization of ATG8s is another layer of specificity that may contribute to functional specialization and subcellular compartmentalization of autophagy
Summary
ZessID1, Cassandra Jensen, Neftaly Cruz-MirelesID1,2, Juan Carlos De la Concepcion, Jan SklenarID1, Madlen Stephani, Richard Imre, Elisabeth RoitingerID3,4,5, Richard HughesID2, Khaoula Belhaj, Karl Mechtler, Frank L. BanfieldID2, Sophien KamounID1*, Abbas Maqbool1,2*, Yasin F. Data Availability Statement: Proteomics data associated with the manuscript are deposited to the PRIDE server with accession numbers PXD011226 and 1-20181024-42155. All the other data are contained in the Supporting information files
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