Melat T. Gebru scite author profile

The mechanism of phagophore closure remains unclear due to technical limitations in distinguishing unclosed and closed autophagosomal membranes. Here, we report the HaloTag-LC3 autophagosome completion assay that specifically detects phagophores, nascent autophagosomes, and mature autophagic structures. Using this assay, we identify the endosomal sorting complexes required for transport (ESCRT)-III component CHMP2A as a critical regulator of phagophore closure. During autophagy, CHMP2A translocates to the phagophore and regulates the separation of the inner and outer autophagosomal membranes to form double-membrane autophagosomes. Consistently, inhibition of the AAA-ATPase VPS4 activity impairs autophagosome completion. The ESCRT-mediated membrane abscission appears to be a critical step in forming functional autolysosomes by preventing mislocalization of lysosome-associated membrane glycoprotein 1 to the inner autophagosomal membrane. Collectively, our work reveals a function for the ESCRT machinery in the final step of autophagosome formation and provides a useful tool for quantitative analysis of autophagosome biogenesis and maturation.

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Atg2A/B deficiency switches cytoprotective autophagy to non-canonical caspase-8 activation and apoptosis

Tang

Takahashi

Chen

et al. 2017

Cell Death Differ

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Autophagosomal membranes are emerging as platforms for various cell survival and death signaling networks beyond autophagy. While autophagy-dependent cell death has been reported in response to a variety of stimuli, the underlying molecular mechanisms remain far from clear. Here, we demonstrate that inhibition of autophagosome completion by Atg2A/B deletion accumulates immature autophagosomal membranes that promote non-canonical caspase-8 activation in response to nutrient starvation via an intracellular death-inducing signaling complex (iDISC). Importantly, iDISC-induced caspase-8 dimerization and activation occurs on accumulated autophagosomal membranes and requires the LC3 conjugation machinery but is independent from the extrinsic pathway of apoptosis. Moreover, we have identified NF-κB signaling and c-FLIP as negative regulators of iDISC-mediated caspase-8 activation and apoptosis. Collectively, these findings reveal autophagosomal membrane completion as a novel target to switch cytoprotective autophagy to apoptosis.

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Targeted Inhibition of ULK1 Promotes Apoptosis and Suppresses Tumor Growth and Metastasis in Neuroblastoma

Dower

Bhat

Gebru

et al. 2018

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Neuroblastoma is the most common extracranial solid malignancy in the pediatric population, accounting for over 9% of all cancer-related deaths in children. Autophagy is a cell self-protective mechanism that promotes tumor cell growth and survival, making it an attractive target for treating cancer. However, the role of autophagy in neuroblastoma tumor growth and metastasis is largely undefined. Here we demonstrate that targeted inhibition of an essential autophagy kinase, unc-51 like autophagy kinase 1 (ULK1), with a recently developed small-molecule inhibitor of ULK1, SBI-0206965, significantly reduces cell growth and promotes apoptosis in SK-N-AS, SH-SY5Y, and SK-N-DZ neuroblastoma cell lines. Furthermore, inhibition of ULK1 by a dominant-negative mutant of ULK1 (dnULK1) significantly reduces growth and metastatic disease and prolongs survival of mice bearing SK-N-AS xenograft tumors. We also show that SBI-0206965 sensitizes SK-N-AS cells to TRAIL treatment, but not to mTOR inhibitors (INK128, Torin1) or topoisomerase inhibitors (doxorubicin, topotecan). Collectively, these findings demonstrate that ULK1 is a viable drug target and suggest that inhibitors of ULK1 may provide a novel therapeutic option for the treatment of neuroblastoma. .

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

Atkinson

Gebru

et al. 2019

Journal of Biological Chemistry

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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 receptorassociated 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.

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Melat T. Gebru

An autophagy assay reveals the ESCRT-III component CHMP2A as a regulator of phagophore closure

Atg2A/B deficiency switches cytoprotective autophagy to non-canonical caspase-8 activation and apoptosis

Targeted Inhibition of ULK1 Promotes Apoptosis and Suppresses Tumor Growth and Metastasis in Neuroblastoma

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

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