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ATG5 Promotes Death Signaling in Response to the Cyclic Depsipeptides Coibamide A and Apratoxin A. | LitMetric

AI Article Synopsis

  • - The discovery of natural products like Coibamide A has advanced our understanding of autophagy and lysosomal functions, revealing new cell signaling patterns related to stress responses.
  • - Coibamide A triggers autophagy in a manner that does not rely on the mTOR pathway, with ATG5 being essential for this autophagic response but not for inducing cell death (apoptosis).
  • - Research using different mouse embryonic fibroblast (MEF) models shows that cells with a functional autophagy pathway are more susceptible to Coibamide A toxicity, exhibiting changes in cell stress markers distinct from other stress-inducing agents.

Article Abstract

Our understanding of autophagy and lysosomal function has been greatly enhanced by the discovery of natural product structures that can serve as chemical probes to reveal new patterns of signal transduction in cells. Coibamide A is a cytotoxic marine natural product that induces mTOR-independent autophagy as an adaptive stress response that precedes cell death. Autophagy-related (ATG) protein 5 (ATG5) is required for coibamide-induced autophagy but not required for coibamide-induced apoptosis. Using wild-type and autophagy-deficient mouse embryonic fibroblasts (MEFs) we demonstrate that coibamide-induced toxicity is delayed in ATG5 cells relative to ATG5 cells. Time-dependent changes in annexin V staining, membrane integrity, metabolic capacity and caspase activation indicated that MEFs with a functional autophagy pathway are more sensitive to coibamide A. This pattern could be distinguished from autophagy modulators that induce acute ER stress (thapsigargin, tunicamycin), ATP depletion (oligomycin A) or mTORC1 inhibition (rapamycin), but was shared with the Sec61 inhibitor apratoxin A. Coibamide- or apratoxin-induced cell stress was further distinguished from the action of thapsigargin by a pattern of early LC3-II accumulation in the absence of CHOP or BiP expression. Time-dependent changes in ATG5-ATG12, PARP1 and caspase-3 expression patterns were consistent with the conversion of ATG5 to a pro-death signal in response to both compounds.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5867621PMC
http://dx.doi.org/10.3390/md16030077DOI Listing

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