Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals

Qiang Zhang; Antonino Schepis; Hai Huang; Junjiao Yang; Wen Ma; Joaquim Torra; Shao Qing Zhang; Lina Yang; Haifan Wu; Santi Nonell; Zhiqiang Dong; Thomas B. Kornberg; Shaun R. Coughlin; Xiaokun Shu

doi:10.1021/jacs.8b13042

Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals

Qiang Zhang
, Antonino Schepis
, Hai Huang
, Junjiao Yang
, Wen Ma
, Joaquim Torra
, Shao Qing Zhang
, Lina Yang
, Haifan Wu
, Santi Nonell
, Zhiqiang Dong
, Thomas B. Kornberg
, Shaun R. Coughlin
, Xiaokun Shu^*

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

77 Citas (Scopus)

Resumen

A family of proteases called caspases mediate apoptosis signaling in animals. We report a GFP-based fluorogenic protease reporter, dubbed "FlipGFP", by flipping a beta strand of the GFP. Upon protease activation and cleavage, the beta strand is restored, leading to reconstitution of the GFP and fluorescence. FlipGFP-based TEV protease reporter achieves 100-fold fluorescence change. A FlipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. FlipGFP also visualized apoptotic cells in the midgut of Drosophila. Thus, the FlipGFP-based caspase reporter will be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond caspases. The design strategy can be further applied to a red fluorescent protein for engineering a red fluorogenic protease reporter.

Idioma original	Inglés
Páginas (desde-hasta)	4526-4530
Número de páginas	5
Publicación	Journal of the American Chemical Society
Volumen	141
N.º	11
DOI	https://doi.org/10.1021/jacs.8b13042
Estado	Publicada - 20 mar 2019

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Zhang, Q., Schepis, A., Huang, H., Yang, J., Ma, W., Torra, J., Zhang, S. Q., Yang, L., Wu, H., Nonell, S., Dong, Z., Kornberg, T. B., Coughlin, S. R., & Shu, X. (2019). Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals. Journal of the American Chemical Society, 141(11), 4526-4530. https://doi.org/10.1021/jacs.8b13042

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title = "Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals",

abstract = "A family of proteases called caspases mediate apoptosis signaling in animals. We report a GFP-based fluorogenic protease reporter, dubbed {"}FlipGFP{"}, by flipping a beta strand of the GFP. Upon protease activation and cleavage, the beta strand is restored, leading to reconstitution of the GFP and fluorescence. FlipGFP-based TEV protease reporter achieves 100-fold fluorescence change. A FlipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. FlipGFP also visualized apoptotic cells in the midgut of Drosophila. Thus, the FlipGFP-based caspase reporter will be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond caspases. The design strategy can be further applied to a red fluorescent protein for engineering a red fluorogenic protease reporter.",

keywords = "Programmed cell-death, Fluorescent protein, Caspase activation, Drosophila, Variants",

author = "Qiang Zhang and Antonino Schepis and Hai Huang and Junjiao Yang and Wen Ma and Joaquim Torra and Zhang, \{Shao Qing\} and Lina Yang and Haifan Wu and Santi Nonell and Zhiqiang Dong and Kornberg, \{Thomas B.\} and Coughlin, \{Shaun R.\} and Xiaokun Shu",

note = "*[email protected] ORCID Haifan Wu: 0000-0002-2050-9950 Santi Nonell: 0000-0002-8900-5291 Xiaokun Shu: 0000-0001-9248-7095 Author Contributions ‡These authors contributed equally. Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

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doi = "10.1021/jacs.8b13042",

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Zhang, Q, Schepis, A, Huang, H, Yang, J, Ma, W, Torra, J, Zhang, SQ, Yang, L, Wu, H, Nonell, S, Dong, Z, Kornberg, TB, Coughlin, SR & Shu, X 2019, 'Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals', Journal of the American Chemical Society, vol. 141, n.º 11, pp. 4526-4530. https://doi.org/10.1021/jacs.8b13042

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AU - Zhang, Qiang

AU - Schepis, Antonino

AU - Huang, Hai

AU - Yang, Junjiao

AU - Ma, Wen

AU - Torra, Joaquim

AU - Zhang, Shao Qing

AU - Yang, Lina

AU - Wu, Haifan

AU - Nonell, Santi

AU - Dong, Zhiqiang

AU - Kornberg, Thomas B.

AU - Coughlin, Shaun R.

AU - Shu, Xiaokun

N1 - *[email protected] ORCID Haifan Wu: 0000-0002-2050-9950 Santi Nonell: 0000-0002-8900-5291 Xiaokun Shu: 0000-0001-9248-7095 Author Contributions ‡These authors contributed equally. Publisher Copyright: © 2019 American Chemical Society.

PY - 2019/3/20

Y1 - 2019/3/20

N2 - A family of proteases called caspases mediate apoptosis signaling in animals. We report a GFP-based fluorogenic protease reporter, dubbed "FlipGFP", by flipping a beta strand of the GFP. Upon protease activation and cleavage, the beta strand is restored, leading to reconstitution of the GFP and fluorescence. FlipGFP-based TEV protease reporter achieves 100-fold fluorescence change. A FlipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. FlipGFP also visualized apoptotic cells in the midgut of Drosophila. Thus, the FlipGFP-based caspase reporter will be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond caspases. The design strategy can be further applied to a red fluorescent protein for engineering a red fluorogenic protease reporter.

AB - A family of proteases called caspases mediate apoptosis signaling in animals. We report a GFP-based fluorogenic protease reporter, dubbed "FlipGFP", by flipping a beta strand of the GFP. Upon protease activation and cleavage, the beta strand is restored, leading to reconstitution of the GFP and fluorescence. FlipGFP-based TEV protease reporter achieves 100-fold fluorescence change. A FlipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. FlipGFP also visualized apoptotic cells in the midgut of Drosophila. Thus, the FlipGFP-based caspase reporter will be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond caspases. The design strategy can be further applied to a red fluorescent protein for engineering a red fluorogenic protease reporter.

KW - Programmed cell-death

KW - Fluorescent protein

KW - Caspase activation

KW - Drosophila

KW - Variants

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ER -

Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals

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