Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target

William N. Beavers; Kristie L. Rose; James J. Galligan; Michelle M. Mitchener; Carol A. Rouzer; Keri A. Tallman; Connor R. Lamberson; Xiaojing Wang; Salisha Hill; Pavlina T. Ivanova; H. Alex Brown; Bing Zhang; Ned A. Porter; Lawrence J. Marnett

doi:10.1021/acschembio.7b00480

Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target

William N. Beavers, Kristie L. Rose, James J. Galligan, Michelle M. Mitchener, Carol A. Rouzer, Keri A. Tallman, Connor R. Lamberson, Xiaojing Wang, Salisha Hill, Pavlina T. Ivanova, H. Alex Brown, Bing Zhang, Ned A. Porter, Lawrence J. Marnett

Producción científica: Article › revisión exhaustiva

30 Citas (Scopus)

Resumen

Determining the impact of lipid electrophile-mediated protein damage that occurs during oxidative stress requires a comprehensive analysis of electrophile targets adducted under pathophysiological conditions. Incorporation of ω -alkynyl linoleic acid into the phospholipids of macrophages prior to activation by Kdo₂-lipid A, followed by protein extraction, click chemistry, and streptavidin affinity capture, enabled a systems-level survey of proteins adducted by lipid electrophiles generated endogenously during the inflammatory response. Results revealed a dramatic enrichment for membrane and mitochondrial proteins as targets for adduction. A marked decrease in adduction in the presence of MitoTEMPO demonstrated a primary role for mitochondrial superoxide in electrophile generation and indicated an important role for mitochondria as both a source and target of lipid electrophiles, a finding that has not been revealed by prior studies using exogenously provided electrophiles.

Idioma original	English (US)
Páginas (desde-hasta)	2062-2069
Número de páginas	8
Publicación	ACS Chemical Biology
Volumen	12
N.º	8
DOI	https://doi.org/10.1021/acschembio.7b00480
Estado	Published - ago 18 2017
Publicado de forma externa	Sí

ASJC Scopus subject areas

Molecular Medicine
Biochemistry

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10.1021/acschembio.7b00480

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Beavers, W. N., Rose, K. L., Galligan, J. J., Mitchener, M. M., Rouzer, C. A., Tallman, K. A., Lamberson, C. R., Wang, X., Hill, S., Ivanova, P. T., Brown, H. A., Zhang, B., Porter, N. A., & Marnett, L. J. (2017). Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target. ACS Chemical Biology, 12(8), 2062-2069. https://doi.org/10.1021/acschembio.7b00480

Beavers, WN, Rose, KL, Galligan, JJ, Mitchener, MM, Rouzer, CA, Tallman, KA, Lamberson, CR, Wang, X, Hill, S, Ivanova, PT, Brown, HA, Zhang, B, Porter, NA & Marnett, LJ 2017, 'Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target', ACS Chemical Biology, vol. 12, n.º 8, pp. 2062-2069. https://doi.org/10.1021/acschembio.7b00480

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title = "Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target",

abstract = "Determining the impact of lipid electrophile-mediated protein damage that occurs during oxidative stress requires a comprehensive analysis of electrophile targets adducted under pathophysiological conditions. Incorporation of ω -alkynyl linoleic acid into the phospholipids of macrophages prior to activation by Kdo2-lipid A, followed by protein extraction, click chemistry, and streptavidin affinity capture, enabled a systems-level survey of proteins adducted by lipid electrophiles generated endogenously during the inflammatory response. Results revealed a dramatic enrichment for membrane and mitochondrial proteins as targets for adduction. A marked decrease in adduction in the presence of MitoTEMPO demonstrated a primary role for mitochondrial superoxide in electrophile generation and indicated an important role for mitochondria as both a source and target of lipid electrophiles, a finding that has not been revealed by prior studies using exogenously provided electrophiles.",

author = "Beavers, {William N.} and Rose, {Kristie L.} and Galligan, {James J.} and Mitchener, {Michelle M.} and Rouzer, {Carol A.} and Tallman, {Keri A.} and Lamberson, {Connor R.} and Xiaojing Wang and Salisha Hill and Ivanova, {Pavlina T.} and Brown, {H. Alex} and Bing Zhang and Porter, {Ned A.} and Marnett, {Lawrence J.}",

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doi = "10.1021/acschembio.7b00480",

language = "English (US)",

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T2 - Mitochondria as the Source and Target

AU - Beavers, William N.

AU - Rose, Kristie L.

AU - Galligan, James J.

AU - Mitchener, Michelle M.

AU - Rouzer, Carol A.

AU - Tallman, Keri A.

AU - Lamberson, Connor R.

AU - Wang, Xiaojing

AU - Hill, Salisha

AU - Ivanova, Pavlina T.

AU - Brown, H. Alex

AU - Zhang, Bing

AU - Porter, Ned A.

AU - Marnett, Lawrence J.

PY - 2017/8/18

Y1 - 2017/8/18

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AB - Determining the impact of lipid electrophile-mediated protein damage that occurs during oxidative stress requires a comprehensive analysis of electrophile targets adducted under pathophysiological conditions. Incorporation of ω -alkynyl linoleic acid into the phospholipids of macrophages prior to activation by Kdo2-lipid A, followed by protein extraction, click chemistry, and streptavidin affinity capture, enabled a systems-level survey of proteins adducted by lipid electrophiles generated endogenously during the inflammatory response. Results revealed a dramatic enrichment for membrane and mitochondrial proteins as targets for adduction. A marked decrease in adduction in the presence of MitoTEMPO demonstrated a primary role for mitochondrial superoxide in electrophile generation and indicated an important role for mitochondria as both a source and target of lipid electrophiles, a finding that has not been revealed by prior studies using exogenously provided electrophiles.

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Protein Modification by Endogenously Generated Lipid Electrophiles: Mitochondria as the Source and Target

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