MK2 phosphorylation of RIPK1 regulates TNF-mediated cell death

Dondelinger, Yves; Delanghe, Tom; Rojas‐Rivera, Diego; Priem, Dario; Delvaeye, Tinneke; Bruggeman, Inge; Herreweghe, Franky Van; Vandenabeele, Peter; Bertrand, Mathieu J.M.

doi:10.1038/ncb3608

Cited by 164 publications

(160 citation statements)

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“…In complex‐I, ligation of TNFR1 induces various types of RIPK1 ubiquitination, which plays an essential role in recruiting the IKKs (IKKα/β/NEMO) and subsequent transcriptional induction of NF‐κB‐dependent pro‐survival genes including c‐FLIP, A20, and cIAP2 . In addition, transient phosphorylation of RIPK1 at Ser 25 by IKKs prevents its dissociation from complex‐I, and suppresses its Ser 166 ‐autophosphorylation‐dependent association with FADD to initiate formation of complex‐II/necrosome which functions as transcription‐independent players in TNF‐induced cell death . The kinase activity of RIPK1 is required for activation of RIPK3 that plays an essential role in necroptosis induction .…”

Section: Discussionmentioning

confidence: 99%

“…[6][7][8]48 In addition, transient phosphorylation of RIPK1 at Ser 25 by IKKs prevents its dissociation from complex-I, and suppresses its Ser 166 -autophosphorylationdependent association with FADD to initiate formation of complex-II/necrosome which functions as transcription-independent players in TNF-induced cell death. 18,22,49,50 The kinase activity of RIPK1 is required for activation of RIPK3 that plays an essential role in necroptosis induction. 14,15 Thus, discovery of small molecules regulating RIPK1 phosphorylation provides a basic research tool and substantiates the overall importance of early cell death checkpoint controlling apoptosis and necroptosis.…”

Section: Discussionmentioning

confidence: 99%

“…Subsequent biochemical analyses revealed that RIPK1 phosphorylation on Ser 321 or Ser 25 by TAK1 or IKKα/β in complex‐I prevented the RIPK1‐mediated assembly of the complex‐II/necrosome and then inhibited apoptosis/necroptosis in an NF‐κB‐independent manner . Furthermore, it has been proposed that MAPK‐activated protein kinase 2 (MK2) also induces RIPK1 phosphorylation in complex‐I and protects against complex‐II‐mediated cell death . It is now believed that RIPK1 phosphorylation by upstream kinases acts as an early cell death checkpoint to control the cytotoxic potential of TNF.…”

Section: Introductionmentioning

confidence: 99%

“…20,21 Furthermore, it has been proposed that MAPK-activated protein kinase 2 (MK2) also induces RIPK1 phosphorylation in complex-I and protects against complex-II-mediated cell death. [22][23][24] It is now believed that RIPK1 phosphorylation by upstream kinases acts as an early cell death checkpoint to control the cytotoxic potential of TNF. Thus, development of pharmacological agents targeting RIPK1 phosphorylation may provide a novel strategy to promote the therapeutic efficacy of TNF in cancers and inflammatory diseases.…”

Section: Introductionmentioning

confidence: 99%

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3‐O‐acetylrubianol C (3AR‐C) induces RIPK1‐dependent programmed cell death by selective inhibition of IKKβ

et al. 2020

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In tumor necrosis factor (TNF) signaling, phosphorylation and activation of receptor interacting protein kinase 1 (RIPK1) by upstream kinases is an essential checkpoint in the suppression of TNF‐induced cell death. Thus, discovery of pharmacological agents targeting RIPK1 may provide new strategies for improving the therapeutic efficacy of TNF. In this study, we found that 3‐O‐acetylrubianol C (3AR‐C), an arborinane triterpenoid isolated from Rubia philippinesis, promoted TNF‐induced apoptotic and necroptotic cell death. To identify the molecular mechanism, we found that in mouse embryonic fibroblasts, 3AR‐C drastically upregulated RIPK1 kinase activity by selectively inhibiting IKKβ. Notably, 3AR‐C did not interfere with IKKα or affect the formation of the TNF receptor1 (TNFR1) complex‐I. Moreover, in human cancer cells, 3AR‐C was only sufficient to sensitize TNF‐induced cell death when c‐FLIPL expression was downregulated to facilitate the formation of TNFR1 complex‐II and necrosome. Taken together, our study identified a novel arborinane triterpenoid 3AR‐C as a potent activator of TNF‐induced cell death via inhibition of IKKβ phosphorylation and promotion of the cytotoxic potential of RIPK1, thus providing a rationale for further development of 3AR‐C as a selective IKKβ inhibitor to overcome TNF resistance in cancer therpay.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

3‐O‐acetylrubianol C (3AR‐C) induces RIPK1‐dependent programmed cell death by selective inhibition of IKKβ

et al. 2020

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“…In contrast, during ripoptosome signaling in myeloid leukemia cells, p38MAPK has been shown to inhibit TNF expression, and inhibition of MK2 results in enhanced cell death of leukemia cells (59). It was subsequently shown that MK2 mediates an inhibitory phosphorylation of RipK1, which restricts ripoptosome induced cell death (60)(61)(62). Our results indicate that the phosphorylation of RipK1 in macrophages is dependent on MK2, and inhibition of MK2 results in augmentation of ripoptosome induced cell death, particularly on day 12 macrophages.…”

Section: Discussionmentioning

confidence: 99%

Differentiated macrophages acquire a pro-inflammatory and cell death–resistant phenotype due to increasing XIAP and p38-mediated inhibition of RipK1

Rijal

Ariana

Wight

et al. 2018

Journal of Biological Chemistry

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Monocytes differentiate into macrophages, which deactivate invading pathogens. Macrophages can be resistant to cell death mechanisms in some situations and the mechanisms involved are not clear. Here, using mouse immune cells, we investigated whether the differentiation of macrophages affects their susceptibility to cell death by the ripoptosome/necrosome pathways. We show that treatment of macrophages with a mimetic of second mitochondrial activator of caspases (SMAC) resulted in ripoptosome driven cell death that specifically depended on tumor necrosis factor  (TNF expression and the receptor-interacting serine/threonine protein kinase 1 (RipK1)-RipK3-caspase-8 interaction in activated and cycling macrophages. Differentiation of macrophages increased the expression of proinflammatory cytokines but reduced RipK1-dependent cell death and the RipK3-caspase-8 interaction. The expression of the antiapoptotic mediators, X-linked inhibitor of apoptosis protein (XIAP) and caspase-like apoptosis regulatory protein (cFLIPL) also increased in differentiated macrophages, which inhibited caspase activation. The resistance to cell death was abrogated in XIAP-deficient macrophages. However, even in the presence of increased XIAP expression, inhibition of the mitogenactivated protein kinase (MAPK) p38 and MAPK-activated protein kinase 2 (MK2) made differentiated macrophages susceptible to cell death. These results suggest that the p38/MK2 pathway overrides apoptosis inhibition by XIAP, and that acquisition of resistance to cell death by increased expression of XIAP and cFLIPL may allow inflammatory macrophages to participate in pathogen control for a longer duration. ____________________________________ http://www.jbc.org/cgi

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Phosphoproteomics identifies pathways underlying the role of receptor‐interaction protein kinase 3 in alcohol‐associated liver disease and uncovers apoptosis signal‐regulating kinase 1 as a target

et al. 2022

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Receptor‐interaction protein kinase 3 (RIP3), a critical determinant of the necroptotic pathway of programmed cell death, contributes to injury in murine models of alcohol‐associated liver disease (ALD); however, the underlying mechanisms are unknown. We investigated the effect of chronic ethanol feeding on the hepatic phosphoproteome in C57BL/6 and RIP3‐deficient (Rip3−/−) mice, focusing on death receptor (DR) signaling pathways. C57BL/6 and Rip3−/− mice were fed an ethanol‐containing liquid diet or pair‐fed control diet. A label‐free mass spectrometry‐based approach identified differentially phosphorylated proteins that were mapped to pathways affected by ethanol and Rip3 genotype. Identified targets were validated in both the murine model of ALD and in liver tissue from patients with alcohol‐associated hepatitis (AH) and healthy controls. Chronic ethanol dysregulated hepatic tumor necrosis factor‐induced DR signaling pathways. Of particular importance, chronic ethanol feeding to C57BL/6 mice decreased the phosphorylation of apoptosis signal‐regulating kinase 1 (ASK1) at serine (S)1036/S1040 (S1029/S1033 human), sites linked with the inhibition of ASK1 death‐promoting activity. This decrease in phosphorylation of inhibitory sites was muted in Rip3−/− mice. Decreased phosphorylation at S1033 was also lower in liver of patients with severe AH compared to healthy controls, and phosphorylation at the ASK1 activation site (threonine [Thr]‐838) was increased in patients with AH. The net impact of these changes in phosphorylation of ASK1 was associated with increased phosphorylation of p38, a downstream target of ASK1, in patients with AH and C57BL/6 but not Rip3−/− mice. Similarly, chronic ethanol feeding affected the c‐Jun N‐terminal kinase pathway in C57BL/6 but not Rip3−/− mice. Taken together, our data indicate that changes in inhibitory phosphorylation of ASK1 are an important target in ALD and suggest the involvement of noncanonical functions of Rip3 in ALD.

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MK2 phosphorylation of RIPK1 regulates TNF-mediated cell death

Cited by 164 publications

References 50 publications

3‐O‐acetylrubianol C (3AR‐C) induces RIPK1‐dependent programmed cell death by selective inhibition of IKKβ

3‐O‐acetylrubianol C (3AR‐C) induces RIPK1‐dependent programmed cell death by selective inhibition of IKKβ

Differentiated macrophages acquire a pro-inflammatory and cell death–resistant phenotype due to increasing XIAP and p38-mediated inhibition of RipK1

Phosphoproteomics identifies pathways underlying the role of receptor‐interaction protein kinase 3 in alcohol‐associated liver disease and uncovers apoptosis signal‐regulating kinase 1 as a target

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