Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling

Anne Louise Hansen; Gregory J. Buchan; Michael Rühl; Kojiro Mukai; Sonia R. Salvatore; Emari Ogawa; Sidsel D. Andersen; Marie B. Iversen; Anne L. Thielke; Camilla Gunderstofte; Mona Motwani; Charlotte T. Møller; Andreas S. Jakobsen; Katherine A. Fitzgerald; Jessica Roos; Rongtuan Lin; Thorsten J. Maier; Raphaela Goldbach-Mansky; Cathrine A. Miner; Wei Qian; Jonathan J. Miner; Rachel E. Rigby; Jan Rehwinkel; Martin R. Jakobsen; Hiroyuki Arai; Tomohiko Taguchi; Francisco J. Schopfer; David Olagnier; Christian K. Holm

doi:10.1073/pnas.1806239115

Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling

Anne Louise Hansen, Gregory J. Buchan, Michael Rühl, Kojiro Mukai, Sonia R. Salvatore, Emari Ogawa, Sidsel D. Andersen, Marie B. Iversen, Anne L. Thielke, Camilla Gunderstofte, Mona Motwani, Charlotte T. Møller, Andreas S. Jakobsen, Katherine A. Fitzgerald, Jessica Roos, Rongtuan Lin, Thorsten J. Maier, Raphaela Goldbach-Mansky, Cathrine A. Miner, Wei QianJonathan J. Miner, Rachel E. Rigby, Jan Rehwinkel, Martin R. Jakobsen, Hiroyuki Arai, Tomohiko Taguchi, Francisco J. Schopfer, David Olagnier, Christian K. Holm

Research output: Contribution to journal › Article › peer-review

116 Citations (Scopus)

Abstract

The adaptor molecule stimulator of IFN genes (STING) is central to production of type I IFNs in response to infection with DNA viruses and to presence of host DNA in the cytosol. Excessive release of type I IFNs through STING-dependent mechanisms has emerged as a central driver of several interferonopathies, including systemic lupus erythematosus (SLE), Aicardi–Goutières syndrome (AGS), and stimulator of IFN genes-associated vasculopathy with onset in infancy (SAVI). The involvement of STING in these diseases points to an unmet need for the development of agents that inhibit STING signaling. Here, we report that endogenously formed nitro-fatty acids can covalently modify STING by nitro-alkylation. These nitro-alkylations inhibit STING palmitoylation, STING signaling, and subsequently, the release of type I IFN in both human and murine cells. Furthermore, treatment with nitro-fatty acids was sufficient to inhibit production of type I IFN in fibroblasts derived from SAVI patients with a gain-of-function mutation in STING. In conclusion, we have identified nitro-fatty acids as endogenously formed inhibitors of STING signaling and propose for these lipids to be considered in the treatment of STING-dependent inflammatory diseases.

Original language	English
Pages (from-to)	E7768-E7775
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	115
Issue number	33
DOIs	https://doi.org/10.1073/pnas.1806239115
Publication status	Published - 2018 Aug 14
Externally published	Yes

Keywords

IFN
Nitro-fatty acids
Palmitoylation
SAVI
STING

ASJC Scopus subject areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1073/pnas.1806239115

Cite this

Hansen, A. L., Buchan, G. J., Rühl, M., Mukai, K., Salvatore, S. R., Ogawa, E., Andersen, S. D., Iversen, M. B., Thielke, A. L., Gunderstofte, C., Motwani, M., Møller, C. T., Jakobsen, A. S., Fitzgerald, K. A., Roos, J., Lin, R., Maier, T. J., Goldbach-Mansky, R., Miner, C. A., ... Holm, C. K. (2018). Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling. Proceedings of the National Academy of Sciences of the United States of America, 115(33), E7768-E7775. https://doi.org/10.1073/pnas.1806239115

Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling. / Hansen, Anne Louise; Buchan, Gregory J.; Rühl, Michael et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 115, No. 33, 14.08.2018, p. E7768-E7775.

Research output: Contribution to journal › Article › peer-review

Hansen, AL, Buchan, GJ, Rühl, M, Mukai, K, Salvatore, SR, Ogawa, E, Andersen, SD, Iversen, MB, Thielke, AL, Gunderstofte, C, Motwani, M, Møller, CT, Jakobsen, AS, Fitzgerald, KA, Roos, J, Lin, R, Maier, TJ, Goldbach-Mansky, R, Miner, CA, Qian, W, Miner, JJ, Rigby, RE, Rehwinkel, J, Jakobsen, MR, Arai, H, Taguchi, T, Schopfer, FJ, Olagnier, D & Holm, CK 2018, 'Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling', Proceedings of the National Academy of Sciences of the United States of America, vol. 115, no. 33, pp. E7768-E7775. https://doi.org/10.1073/pnas.1806239115

@article{8a47e009b60046cca9b99f8d80220037,

title = "Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling",

abstract = "The adaptor molecule stimulator of IFN genes (STING) is central to production of type I IFNs in response to infection with DNA viruses and to presence of host DNA in the cytosol. Excessive release of type I IFNs through STING-dependent mechanisms has emerged as a central driver of several interferonopathies, including systemic lupus erythematosus (SLE), Aicardi–Gouti{\`e}res syndrome (AGS), and stimulator of IFN genes-associated vasculopathy with onset in infancy (SAVI). The involvement of STING in these diseases points to an unmet need for the development of agents that inhibit STING signaling. Here, we report that endogenously formed nitro-fatty acids can covalently modify STING by nitro-alkylation. These nitro-alkylations inhibit STING palmitoylation, STING signaling, and subsequently, the release of type I IFN in both human and murine cells. Furthermore, treatment with nitro-fatty acids was sufficient to inhibit production of type I IFN in fibroblasts derived from SAVI patients with a gain-of-function mutation in STING. In conclusion, we have identified nitro-fatty acids as endogenously formed inhibitors of STING signaling and propose for these lipids to be considered in the treatment of STING-dependent inflammatory diseases.",

keywords = "IFN, Nitro-fatty acids, Palmitoylation, SAVI, STING",

author = "Hansen, {Anne Louise} and Buchan, {Gregory J.} and Michael R{\"u}hl and Kojiro Mukai and Salvatore, {Sonia R.} and Emari Ogawa and Andersen, {Sidsel D.} and Iversen, {Marie B.} and Thielke, {Anne L.} and Camilla Gunderstofte and Mona Motwani and M{\o}ller, {Charlotte T.} and Jakobsen, {Andreas S.} and Fitzgerald, {Katherine A.} and Jessica Roos and Rongtuan Lin and Maier, {Thorsten J.} and Raphaela Goldbach-Mansky and Miner, {Cathrine A.} and Wei Qian and Miner, {Jonathan J.} and Rigby, {Rachel E.} and Jan Rehwinkel and Jakobsen, {Martin R.} and Hiroyuki Arai and Tomohiko Taguchi and Schopfer, {Francisco J.} and David Olagnier and Holm, {Christian K.}",

note = "Funding Information: We thank S{\o}ren R. Paludan for reagents used in this study. A.L.H. is supported by C. C. Klestrup and Wife Henriette Klestrup{\textquoteright}s Foundation, Director Jacob Madsen and Wife Olga Madsen{\textquoteright}s Foundation, The Bohemian Foundation, and Lily Benthine Lund{\textquoteright}s Foundation of 1.6.1978 in addition to a PhD fellowship from the Department of Health Sciences at Aarhus University. K.M. is supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grant JP17K15445 and ONO Medical Research Foundation. M.B.I. is supported by a Lundbeck postdoctoral fellowship. H.A. is supported by JSPS KAKENHI Grants JP17H06164 and JP17H06418, and AMED-CREST Grant 15652265. T.T. is supported by JSPS KAKENHI Grants JP16H04782 and JP15H05903 and AMED-PRIME. F.J.S. is supported by NIH Grants R01-GM125944 and R01-DK112854 and American Heart Association Grant 17GRN33660955. D.O. is supported by a Carlsbergfonden International Research Fellowship. C.K.H. is supported by The Hoerslev Foundation, Agnes and Poul Friis Foundation, The Brothers Hartmann{\textquoteright}s Foundation, Oda and Hans Svenningsen{\textquoteright}s Foundation, The Augustinus Foundation, and Hede Nielsen{\textquoteright}s Foundation. Funding Information: ACKNOWLEDGMENTS. We thank S{\o}ren R. Paludan for reagents used in this study. A.L.H. is supported by C. C. Klestrup and Wife Henriette Klestrup{\textquoteright}s Foundation, Director Jacob Madsen and Wife Olga Madsen{\textquoteright}s Foundation, The Bohemian Foundation, and Lily Benthine Lund{\textquoteright}s Foundation of 1.6.1978 in addition to a PhD fellowship from the Department of Health Sciences at Aarhus University. K.M. is supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grant JP17K15445 and ONO Medical Research Foundation. M.B.I. is supported by a Lundbeck postdoctoral fellowship. H.A. is supported by JSPS KAKENHI Grants JP17H06164 and JP17H06418, and AMED-CREST Grant 15652265. T.T. is supported by JSPS KAKENHI Grants JP16H04782 and JP15H05903 and AMED-PRIME. F.J.S. is supported by NIH Grants R01-GM125944 and R01-DK112854 and American Heart Association Grant 17GRN33660955. D.O. is supported by a Carlsbergfonden International Research Fellowship. C.K.H. is supported by The Hoerslev Foundation, Agnes and Poul Friis Foundation, The Brothers Hartmann{\textquoteright}s Foundation, Oda and Hans Svenningsen{\textquoteright}s Foundation, The Augustinus Foundation, and Hede Nielsen{\textquoteright}s Foundation. Publisher Copyright: {\textcopyright} 2018 National Academy of Sciences. All rights reserved.",

year = "2018",

month = aug,

day = "14",

doi = "10.1073/pnas.1806239115",

language = "English",

volume = "115",

pages = "E7768--E7775",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "33",

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TY - JOUR

T1 - Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling

AU - Hansen, Anne Louise

AU - Buchan, Gregory J.

AU - Rühl, Michael

AU - Mukai, Kojiro

AU - Salvatore, Sonia R.

AU - Ogawa, Emari

AU - Andersen, Sidsel D.

AU - Iversen, Marie B.

AU - Thielke, Anne L.

AU - Gunderstofte, Camilla

AU - Motwani, Mona

AU - Møller, Charlotte T.

AU - Jakobsen, Andreas S.

AU - Fitzgerald, Katherine A.

AU - Roos, Jessica

AU - Lin, Rongtuan

AU - Maier, Thorsten J.

AU - Goldbach-Mansky, Raphaela

AU - Miner, Cathrine A.

AU - Qian, Wei

AU - Miner, Jonathan J.

AU - Rigby, Rachel E.

AU - Rehwinkel, Jan

AU - Jakobsen, Martin R.

AU - Arai, Hiroyuki

AU - Taguchi, Tomohiko

AU - Schopfer, Francisco J.

AU - Olagnier, David

AU - Holm, Christian K.

N1 - Funding Information: We thank Søren R. Paludan for reagents used in this study. A.L.H. is supported by C. C. Klestrup and Wife Henriette Klestrup’s Foundation, Director Jacob Madsen and Wife Olga Madsen’s Foundation, The Bohemian Foundation, and Lily Benthine Lund’s Foundation of 1.6.1978 in addition to a PhD fellowship from the Department of Health Sciences at Aarhus University. K.M. is supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grant JP17K15445 and ONO Medical Research Foundation. M.B.I. is supported by a Lundbeck postdoctoral fellowship. H.A. is supported by JSPS KAKENHI Grants JP17H06164 and JP17H06418, and AMED-CREST Grant 15652265. T.T. is supported by JSPS KAKENHI Grants JP16H04782 and JP15H05903 and AMED-PRIME. F.J.S. is supported by NIH Grants R01-GM125944 and R01-DK112854 and American Heart Association Grant 17GRN33660955. D.O. is supported by a Carlsbergfonden International Research Fellowship. C.K.H. is supported by The Hoerslev Foundation, Agnes and Poul Friis Foundation, The Brothers Hartmann’s Foundation, Oda and Hans Svenningsen’s Foundation, The Augustinus Foundation, and Hede Nielsen’s Foundation. Funding Information: ACKNOWLEDGMENTS. We thank Søren R. Paludan for reagents used in this study. A.L.H. is supported by C. C. Klestrup and Wife Henriette Klestrup’s Foundation, Director Jacob Madsen and Wife Olga Madsen’s Foundation, The Bohemian Foundation, and Lily Benthine Lund’s Foundation of 1.6.1978 in addition to a PhD fellowship from the Department of Health Sciences at Aarhus University. K.M. is supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grant JP17K15445 and ONO Medical Research Foundation. M.B.I. is supported by a Lundbeck postdoctoral fellowship. H.A. is supported by JSPS KAKENHI Grants JP17H06164 and JP17H06418, and AMED-CREST Grant 15652265. T.T. is supported by JSPS KAKENHI Grants JP16H04782 and JP15H05903 and AMED-PRIME. F.J.S. is supported by NIH Grants R01-GM125944 and R01-DK112854 and American Heart Association Grant 17GRN33660955. D.O. is supported by a Carlsbergfonden International Research Fellowship. C.K.H. is supported by The Hoerslev Foundation, Agnes and Poul Friis Foundation, The Brothers Hartmann’s Foundation, Oda and Hans Svenningsen’s Foundation, The Augustinus Foundation, and Hede Nielsen’s Foundation. Publisher Copyright: © 2018 National Academy of Sciences. All rights reserved.

PY - 2018/8/14

Y1 - 2018/8/14

N2 - The adaptor molecule stimulator of IFN genes (STING) is central to production of type I IFNs in response to infection with DNA viruses and to presence of host DNA in the cytosol. Excessive release of type I IFNs through STING-dependent mechanisms has emerged as a central driver of several interferonopathies, including systemic lupus erythematosus (SLE), Aicardi–Goutières syndrome (AGS), and stimulator of IFN genes-associated vasculopathy with onset in infancy (SAVI). The involvement of STING in these diseases points to an unmet need for the development of agents that inhibit STING signaling. Here, we report that endogenously formed nitro-fatty acids can covalently modify STING by nitro-alkylation. These nitro-alkylations inhibit STING palmitoylation, STING signaling, and subsequently, the release of type I IFN in both human and murine cells. Furthermore, treatment with nitro-fatty acids was sufficient to inhibit production of type I IFN in fibroblasts derived from SAVI patients with a gain-of-function mutation in STING. In conclusion, we have identified nitro-fatty acids as endogenously formed inhibitors of STING signaling and propose for these lipids to be considered in the treatment of STING-dependent inflammatory diseases.

AB - The adaptor molecule stimulator of IFN genes (STING) is central to production of type I IFNs in response to infection with DNA viruses and to presence of host DNA in the cytosol. Excessive release of type I IFNs through STING-dependent mechanisms has emerged as a central driver of several interferonopathies, including systemic lupus erythematosus (SLE), Aicardi–Goutières syndrome (AGS), and stimulator of IFN genes-associated vasculopathy with onset in infancy (SAVI). The involvement of STING in these diseases points to an unmet need for the development of agents that inhibit STING signaling. Here, we report that endogenously formed nitro-fatty acids can covalently modify STING by nitro-alkylation. These nitro-alkylations inhibit STING palmitoylation, STING signaling, and subsequently, the release of type I IFN in both human and murine cells. Furthermore, treatment with nitro-fatty acids was sufficient to inhibit production of type I IFN in fibroblasts derived from SAVI patients with a gain-of-function mutation in STING. In conclusion, we have identified nitro-fatty acids as endogenously formed inhibitors of STING signaling and propose for these lipids to be considered in the treatment of STING-dependent inflammatory diseases.

KW - IFN

KW - Nitro-fatty acids

KW - Palmitoylation

KW - SAVI

KW - STING

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U2 - 10.1073/pnas.1806239115

DO - 10.1073/pnas.1806239115

M3 - Article

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AN - SCOPUS:85052738022

SN - 0027-8424

VL - 115

SP - E7768-E7775

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 33

ER -

Nitro-fatty acids are formed in response to virus infection and are potent inhibitors of STING palmitoylation and signaling

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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