Atg12-Interacting Motif Is Crucial for E2-E3 Interaction in Plant Atg8 System.

Autophagy is an intracellular degradation system regulating cellular homeostasis. The two ubiquitin-like modification systems named the Atg8 system and the Atg12 system are essential for autophagy. Atg8 and Atg12 are ubiquitin-like proteins covalently conjugated with a phosphatidylethanolamine (PE) and Atg5, respectively, via enzymatic reactions. The Atg8-PE conjugate binds to autophagic membranes and recruits various proteins through direct interaction, whereas the Atg12-Atg5 conjugate recognizes Atg3, the E2 enzyme for Atg8, and facilitates Atg8-PE conjugation by functioning as the E3 enzyme. Although structural and biochemical analyses have well established the Atg8-family interacting motif (AIM), studies on the interacting sequence for Atg12 are rare (only one example for human ATG12-ATG3), thereby making it challenging to define a binding motif. Here we determined the crystal structure of the plant ATG12b as a complex with the ATG12b-binding region of ATG3 and revealed that ATG12b recognizes the aspartic acid (Asp)-methionine (Met) motif in ATG3 via a hydrophobic pocket and a basic residue, which we confirmed critical for the complex formation by mutational analysis. This recognition mode is similar to that reported between human ATG12 and ATG3, suggesting that the Asp-Met sequence is a conserved Atg12-interacting motif (AIM12). These data suggest that AIM12 mediates E2-E3 interaction during Atg8 lipidation and provide structural basis for developing chemicals that regulate autophagy by targeting Atg12-family proteins.

Time-resolved FRET and NMR analyses reveal selective binding of peptides containing the LC3-interacting region to ATG8 family proteins.

Selective autophagy sequesters cytoplasmic cargo for lysosomal degradation via the binding of autophagy receptors to Atg8 (autophagy-related 8) family proteins on the autophagic membrane. The sole yeast Atg8 gene has six mAtg8 (mammalian Atg8) homologs, including the MAP1LC3 (microtubule-associated protein-1 light chain 3) family and the GABA receptor-associated proteins. Selective autophagy receptors interact with two conserved hydrophobic pockets (termed the W-site and L-site) of mATG8 proteins through a linear motif called the LC3-interacting region (LIR) with the general composition (W/F/Y)XX(I/L/V). To address a lack in our knowledge regarding LIR peptide specificity toward each mATG8 homolog, here we used competitive time-resolved FRET to sensitively and quantitatively characterize the interactions between LIRs and mAtg8. We report that 14 representative LIR-containing peptides display differential binding affinities toward the mAtg8 proteins and identified the LIR domain peptide of TP53INP1 as exhibiting high affinity for all six mATG8 proteins. Using peptide truncation studies, we found that both N- and C-terminal acidic residues, as well as the C-terminal Cys residue of the TP53INP1 LIR peptide, are required for its high-affinity binding to LC3A and LC3B, whereas binding to the GABARAP subfamily proteins was facilitated by residues either N-terminal or C-terminal to the core motif. Finally, we used NMR chemical shift perturbation analysis to gain molecular insights into these findings. Collectively, our results may aid in the development of molecules that selectively disrupt specific mATG8-LIR interactions to dissect the biological roles of the six mATG8 homologs for potential therapeutic applications.