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Diversity-Oriented Stapling Yields Intrinsically Cell-Penetrant Inducers of Autophagy.


ABSTRACT: Autophagy is an essential pathway by which cellular and foreign material are degraded and recycled in eukaryotic cells. Induction of autophagy is a promising approach for treating diverse human diseases, including neurodegenerative disorders and infectious diseases. Here, we report the use of a diversity-oriented stapling approach to produce autophagy-inducing peptides that are intrinsically cell-penetrant. These peptides induce autophagy at micromolar concentrations in vitro, have aggregate-clearing activity in a cellular model of Huntington's disease, and induce autophagy in vivo. Unexpectedly, the solution structure of the most potent stapled peptide, DD5-o, revealed an ?-helical conformation in methanol, stabilized by an unusual (i,i+3) staple which cross-links two d-amino acids. We also developed a novel assay for cell penetration that reports exclusively on cytosolic access and used it to quantitatively compare the cell penetration of DD5-o and other autophagy-inducing peptides. These new, cell-penetrant autophagy inducers and their molecular details are critical advances in the effort to understand and control autophagy. More broadly, diversity-oriented stapling may provide a promising alternative to polycationic sequences as a means for rendering peptides more cell-penetrant.

SUBMITTER: Peraro L 

PROVIDER: S-EPMC5473019 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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Diversity-Oriented Stapling Yields Intrinsically Cell-Penetrant Inducers of Autophagy.

Peraro Leila L   Zou Zhongju Z   Makwana Kamlesh M KM   Cummings Ashleigh E AE   Ball Haydn L HL   Yu Hongtao H   Lin Yu-Shan YS   Levine Beth B   Kritzer Joshua A JA  

Journal of the American Chemical Society 20170509 23


Autophagy is an essential pathway by which cellular and foreign material are degraded and recycled in eukaryotic cells. Induction of autophagy is a promising approach for treating diverse human diseases, including neurodegenerative disorders and infectious diseases. Here, we report the use of a diversity-oriented stapling approach to produce autophagy-inducing peptides that are intrinsically cell-penetrant. These peptides induce autophagy at micromolar concentrations in vitro, have aggregate-cle  ...[more]

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