Beclin 1–ATG14L Protein–Protein Interaction Inhibitor Selectively Inhibits Autophagy through Disruption of VPS34 Complex I

自噬 细胞生物学 化学 自噬体 激酶 内体 磷脂酰肌醇 生物化学 生物 受体 细胞凋亡
作者
Ivan Pavlinov,Maryna Salkovski,Leslie N. Aldrich
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:142 (18): 8174-8182 被引量:32
标识
DOI:10.1021/jacs.9b12705
摘要

Autophagy, a catabolic recycling process, has been implicated as a critical pathway in cancer. Its role in maintaining cellular homeostasis helps to nourish hypoxic, nutrient-starved tumors and protects them from chemotherapy-induced death. Recent efforts to target autophagy in cancer have focused on kinase inhibition, which has led to molecules that lack specificity due to the multiple roles of key kinases in this pathway. For example, the lipid kinase VPS34 is present in two multiprotein complexes responsible for the generation of phosphatidylinositol-3-phosphate. Complex I generates the autophagosome, and Complex II is crucial for endosomal trafficking. Molecules targeting VPS34 inhibit both complexes, which inhibits autophagy but causes undesirable defects in vesicle trafficking. The lack of specific autophagy modulators has limited the utility of autophagy inhibition as a therapeutic strategy. We hypothesize that disruption of the Beclin 1–ATG14L protein–protein interaction, which is required for the formation, proper localization, and function of VPS34 Complex I but not Complex II, will disrupt Complex I formation and selectively inhibit autophagy. To this end, a high-throughput, cellular NanoBRET assay was developed targeting this interaction. An initial screen of 2560 molecules yielded 19 hits that effectively disrupted the interaction, and it was confirmed that one hit disrupted VPS34 Complex I formation and inhibited autophagy. In addition, the molecule did not disrupt the Beclin 1–UVRAG interaction, critical for VPS34 Complex II, and thus had little impact on vesicle trafficking. This molecule is a promising new tool that is critical for understanding how modulation of the Beclin 1–ATG14L interaction affects autophagy. More broadly, its discovery demonstrates that targeting protein–protein interactions found within the autophagy pathway is a viable strategy for the discovery of autophagy-specific probes and therapeutics.
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