TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1

Jianwen Zhou; Nikoline Lander Rasmussen; Hallvard Lauritz Olsvik; Vyacheslav Akimov; Zehan Hu; Gry Evjen; Stéphanie Kaeser-Pebernard; Devanarayanan Siva Sankar; Carole Roubaty; Pauline Verlhac; Nicole van de Beck; Fulvio Reggiori; Yakubu Princely Abudu; Blagoy Blagoev; Trond Lamark; Terje Johansen; Jörn Dengjel

doi:10.1083/jcb.202108144

TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1

Jianwen Zhou, Nikoline Lander Rasmussen, Hallvard Lauritz Olsvik, Vyacheslav Akimov, Zehan Hu, Gry Evjen, Stéphanie Kaeser-Pebernard, Devanarayanan Siva Sankar, Carole Roubaty, Pauline Verlhac, Nicole van de Beck, Fulvio Reggiori, Yakubu Princely Abudu, Blagoy Blagoev, Trond Lamark, Terje Johansen, Jörn Dengjel

Microbes in Health and Disease (MHD)

Onderzoeksoutput › Academic › peer review

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Limitation of excessive inflammation due to selective degradation of pro-inflammatory proteins is one of the cytoprotective functions attributed to autophagy. In the current study, we highlight that selective autophagy also plays a vital role in promoting the establishment of a robust inflammatory response. Under inflammatory conditions, here TLR3-activation by poly(I:C) treatment, the inflammation repressor TNIP1 (TNFAIP3 interacting protein 1) is phosphorylated by Tank-binding kinase 1 (TBK1) activating an LIR motif that leads to the selective autophagy-dependent degradation of TNIP1, supporting the expression of pro-inflammatory genes and proteins. This selective autophagy efficiently reduces TNIP1 protein levels early (0-4 h) upon poly(I:C) treatment to allow efficient initiation of the inflammatory response. At 6 h, TNIP1 levels are restored due to increased transcription avoiding sustained inflammation. Thus, similarly as in cancer, autophagy may play a dual role in controlling inflammation depending on the exact state and timing of the inflammatory response.

Originele taal-2	English
Artikelnummer	e202108144
Aantal pagina's	28
Tijdschrift	The Journal of Cell Biology
Volume	222
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1083/jcb.202108144
Status	Published - 6-feb.-2023

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10.1083/jcb.202108144Licentie: CC BY-NC-SA

TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1Final publisher's version, 6,96 MBLicentie: CC BY-NC-SA

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Zhou, J., Rasmussen, N. L., Olsvik, H. L., Akimov, V., Hu, Z., Evjen, G., Kaeser-Pebernard, S., Sankar, D. S., Roubaty, C., Verlhac, P., van de Beck, N., Reggiori, F., Abudu, Y. P., Blagoev, B., Lamark, T., Johansen, T., & Dengjel, J. (2023). TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1. The Journal of Cell Biology, 222(2), Artikel e202108144. https://doi.org/10.1083/jcb.202108144

@article{3c65214054d64d0bad133c81d2b85419,

title = "TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1",

abstract = "Limitation of excessive inflammation due to selective degradation of pro-inflammatory proteins is one of the cytoprotective functions attributed to autophagy. In the current study, we highlight that selective autophagy also plays a vital role in promoting the establishment of a robust inflammatory response. Under inflammatory conditions, here TLR3-activation by poly(I:C) treatment, the inflammation repressor TNIP1 (TNFAIP3 interacting protein 1) is phosphorylated by Tank-binding kinase 1 (TBK1) activating an LIR motif that leads to the selective autophagy-dependent degradation of TNIP1, supporting the expression of pro-inflammatory genes and proteins. This selective autophagy efficiently reduces TNIP1 protein levels early (0-4 h) upon poly(I:C) treatment to allow efficient initiation of the inflammatory response. At 6 h, TNIP1 levels are restored due to increased transcription avoiding sustained inflammation. Thus, similarly as in cancer, autophagy may play a dual role in controlling inflammation depending on the exact state and timing of the inflammatory response.",

author = "Jianwen Zhou and Rasmussen, {Nikoline Lander} and Olsvik, {Hallvard Lauritz} and Vyacheslav Akimov and Zehan Hu and Gry Evjen and St{\'e}phanie Kaeser-Pebernard and Sankar, {Devanarayanan Siva} and Carole Roubaty and Pauline Verlhac and {van de Beck}, Nicole and Fulvio Reggiori and Abudu, {Yakubu Princely} and Blagoy Blagoev and Trond Lamark and Terje Johansen and J{\"o}rn Dengjel",

note = "{\textcopyright} 2022 Zhou et al.",

year = "2023",

month = feb,

day = "6",

doi = "10.1083/jcb.202108144",

language = "English",

volume = "222",

journal = "The Journal of Cell Biology",

issn = "0021-9525",

publisher = "ROCKEFELLER UNIV PRESS",

number = "2",

}

Zhou, J, Rasmussen, NL, Olsvik, HL, Akimov, V, Hu, Z, Evjen, G, Kaeser-Pebernard, S, Sankar, DS, Roubaty, C, Verlhac, P, van de Beck, N, Reggiori, F, Abudu, YP, Blagoev, B, Lamark, T, Johansen, T & Dengjel, J 2023, 'TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1', The Journal of Cell Biology, vol. 222, nr. 2, e202108144. https://doi.org/10.1083/jcb.202108144

TY - JOUR

T1 - TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1

AU - Zhou, Jianwen

AU - Rasmussen, Nikoline Lander

AU - Olsvik, Hallvard Lauritz

AU - Akimov, Vyacheslav

AU - Hu, Zehan

AU - Evjen, Gry

AU - Kaeser-Pebernard, Stéphanie

AU - Sankar, Devanarayanan Siva

AU - Roubaty, Carole

AU - Verlhac, Pauline

AU - van de Beck, Nicole

AU - Reggiori, Fulvio

AU - Abudu, Yakubu Princely

AU - Blagoev, Blagoy

AU - Lamark, Trond

AU - Johansen, Terje

AU - Dengjel, Jörn

PY - 2023/2/6

Y1 - 2023/2/6

N2 - Limitation of excessive inflammation due to selective degradation of pro-inflammatory proteins is one of the cytoprotective functions attributed to autophagy. In the current study, we highlight that selective autophagy also plays a vital role in promoting the establishment of a robust inflammatory response. Under inflammatory conditions, here TLR3-activation by poly(I:C) treatment, the inflammation repressor TNIP1 (TNFAIP3 interacting protein 1) is phosphorylated by Tank-binding kinase 1 (TBK1) activating an LIR motif that leads to the selective autophagy-dependent degradation of TNIP1, supporting the expression of pro-inflammatory genes and proteins. This selective autophagy efficiently reduces TNIP1 protein levels early (0-4 h) upon poly(I:C) treatment to allow efficient initiation of the inflammatory response. At 6 h, TNIP1 levels are restored due to increased transcription avoiding sustained inflammation. Thus, similarly as in cancer, autophagy may play a dual role in controlling inflammation depending on the exact state and timing of the inflammatory response.

AB - Limitation of excessive inflammation due to selective degradation of pro-inflammatory proteins is one of the cytoprotective functions attributed to autophagy. In the current study, we highlight that selective autophagy also plays a vital role in promoting the establishment of a robust inflammatory response. Under inflammatory conditions, here TLR3-activation by poly(I:C) treatment, the inflammation repressor TNIP1 (TNFAIP3 interacting protein 1) is phosphorylated by Tank-binding kinase 1 (TBK1) activating an LIR motif that leads to the selective autophagy-dependent degradation of TNIP1, supporting the expression of pro-inflammatory genes and proteins. This selective autophagy efficiently reduces TNIP1 protein levels early (0-4 h) upon poly(I:C) treatment to allow efficient initiation of the inflammatory response. At 6 h, TNIP1 levels are restored due to increased transcription avoiding sustained inflammation. Thus, similarly as in cancer, autophagy may play a dual role in controlling inflammation depending on the exact state and timing of the inflammatory response.

U2 - 10.1083/jcb.202108144

DO - 10.1083/jcb.202108144

M3 - Article

C2 - 36574265

SN - 0021-9525

VL - 222

JO - The Journal of Cell Biology

JF - The Journal of Cell Biology

IS - 2

M1 - e202108144

ER -

TBK1 phosphorylation activates LIR-dependent degradation of the inflammation repressor TNIP1

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