A defect in COPI-mediated transport of STING causes immune dysregulation in COPA syndrome

Deng, Zimu; Chong, Zhenlu; Law, Christopher S.; Mukai, Kojiro; Ho, Frances O.; Martinu, T.; Backes, Bradley J.; Eckalbar, Walter L.; Taguchi, Tomohiko; Shum, Anthony K.

doi:10.1084/jem.20201045

Cited by 119 publications

(124 citation statements)

References 37 publications

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“…Recent advances in the understanding of STING trafficking regulation included the identification of several STING interactors, notably STIM1, involved in its retention in the ER (Srikanth et al, 2019), and STEEP (STING ER exit protein), reportedly essential to load STING into CO-PII vesicles (Zhang et al, 2020). However, whereas these and other previous publications center around the ER enrichment and the anterograde ER-to-Golgi trafficking of STING, the work published in Lepelley et al, 2020 andDeng et al, 2020 in this issue of JEM as well as the work in Mukai et al, 2020 (Preprint) and Steiner et al, 2020 (Preprint) highlight that the regulation of STING "going back"overlooked so far-is as important as the one set in place of "going forward." For future work, it would be interesting to investigate whether a similar adaptor-effector tandem (SURF-COPA equivalent) exists for COPII and anterograde trafficking.…”

Section: Rivara and Ablassermentioning

confidence: 99%

“…All in all, the insight provided in Deng et al, 2020, Lepelley et al, 2020, Mukai et al, 2020, and Steiner et al, 2020 (Preprint) not only opens the door to novel treatment approaches for COPA syndrome, but it also advances understanding on the intricate mechanisms regulating STING activation and trafficking.…”

Section: Rivara and Ablassermentioning

confidence: 99%

“…Given the similarities in the clinical presentations of SAVI and COPA syndrome on the one hand and the overlapping aspect of ER-Golgi/Golgi-ER trafficking on the other hand, the four groups (Deng et al, 2020;Lepelley et al, 2020;Mukai et al, 2020 Preprint;Steiner et al, 2020 Preprint) investigated whether the missing link between COPA mutations and high type I IFN titers might be STING.…”

mentioning

confidence: 99%

“…In their complementary work, the group of Anthony K. Shum and colleagues (Deng et al, 2020) highlight additional insights into the mechanism underlying STING's involvement in the disease and, in addition, provide in vivo proof-of-concept studies on potential pharmacological treatment options. After confirming STING's activation (phosphorylation and localization to the Golgi) in lung fibroblasts from a COPA patient, they show, similar to the results of Lepelley et al (2020), that STING associates with COPA, which is reduced when tested with mutant COPA.…”

mentioning

confidence: 99%

“…Of note, the embryonic lethality of homozygous Copa E241K/E241K mice could be rescued by a deletion of STING (Copa E241K/+ ×Sting gt/gt parents). Based on these findings, Deng et al (2020) reasoned that STING inhibition could have therapeutic benefits. Treating splenocytes from Copa E241K/+ mice and peripheral blood mononuclear cells from a COPA syndrome patient with small molecular inhibitors of STING (Haag et al, 2018) or with a JAK-STAT inhibitor (targeting a signaling step downstream of type I IFN production) indeed decreased ISG levels, but only the STING inhibitors reduced type I IFN expression.…”

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confidence: 99%

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COPA silences STING

Rivara

Ablasser

2020

Journal of Experimental Medicine

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Two studies published in this issue of JEM, by Lepelley et al. (https://doi.org/10.1084/jem.20200600) and Deng et al. (https://doi.org/10.1084/jem.20201045), and two additional manuscripts by Mukai et al. (https://doi.org/10.1101/2020.05.20.107664 Preprint v1) and Steiner et al. (https://doi.org/10.1101/2020.07.09.194399 Preprint v1) demonstrate that COPA syndrome–associated high interferon titers are linked to mutations in COPA preventing STING’s retrieval from the Golgi back to the ER and thereby causing chronic immune activation.

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Section: Rivara and Ablassermentioning

confidence: 99%

Section: Rivara and Ablassermentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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COPA silences STING

Rivara

Ablasser

2020

Journal of Experimental Medicine

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Augmentation of Stimulator of Interferon Genes–Induced Type I Interferon Production in COPA Syndrome

Kato

Yamamoto

Honda

et al. 2021

Arthritis & Rheumatology

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Objective Coatomer subunit alpha (COPA) syndrome, also known as autoinflammatory interstitial lung, joint, and kidney disease, is caused by heterozygous mutations in COPA. We identified a novel COPA variant in 4 patients in one family. We undertook this study to elucidate whether and how the variant causes manifestations of COPA syndrome by studying these 4 patients and by analyzing results from a gene‐targeted mouse model. Methods We performed whole‐exome sequencing in 7 family members and measured the type I interferon (IFN) signature of the peripheral blood cells. We analyzed the effects of COPA variants in in vitro experiments and in Copa mutant mice that were generated. Results We identified a heterozygous variant of COPA (c.725T>G, p.Val242Gly) in the 4 affected members of the family. The IFN score was high in the members carrying the variant. In vitro analysis revealed that COPA V242G, as well as the previously reported disease‐causing variants, augmented stimulator of interferon genes (STING)–induced type I IFN promoter activities. CopaV242G/+ mice manifested interstitial lung disease and STING‐dependent elevation of IFN‐stimulated gene expression. In CopaV242G/+ dendritic cells, the STING pathway was not constitutively activated but was hyperactivated upon stimulation, leading to increased type I IFN production. Conclusion V242G, a novel COPA variant, was found in 4 patients from one family. In gene‐targeted mice with the V242G variant, interstitial lung disease was recapitulated and augmented responses of the STING pathway, leading to an increase in type I IFN production, were demonstrated.

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Intracellular Sensing of DNA in Autoinflammation and Autoimmunity

MacLauchlan

Fitzgerald

Gravallese

2022

Arthritis & Rheumatology

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Evidence has shown that DNA is a pathogen-associated molecular pattern, posing a unique challenge in the discrimination between endogenous and foreign DNA. This challenge is highlighted by certain autoinflammatory diseases that arise from monogenic mutations and result in periodic flares of inflammation, typically in the absence of autoantibodies or antigen-specific T lymphocytes. Several autoinflammatory diseases arise due to mutations in genes that normally prevent the accrual of endogenous DNA or are due to mutations that cause activation of intracellular DNAsensing pathway components. Evidence from genetically modified murine models further support an ability of endogenous DNA and DNA sensing to drive disease pathogenesis, prompting the question of whether endogenous DNA can also induce inflammation in human autoimmune diseases. In this review, we discuss the current understanding of intracellular DNA sensing and downstream signaling pathways as they pertain to autoinflammatory disease, including the development of monogenic disorders such as Stimulator of interferon genes-associated vasculopathy with onset in infancy and Aicardi-Goutières syndrome. In addition, we discuss systemic rheumatic diseases, including certain forms of systemic lupus erythematosus, familial chilblain lupus, and other diseases with established links to intracellular DNA-sensing pathways, and highlight the lessons learned from these examples as they apply to the development of therapies targeting these pathways.

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A defect in COPI-mediated transport of STING causes immune dysregulation in COPA syndrome

Cited by 119 publications

References 37 publications

COPA silences STING

COPA silences STING

Augmentation of Stimulator of Interferon Genes–Induced Type I Interferon Production in COPA Syndrome

Intracellular Sensing of DNA in Autoinflammation and Autoimmunity

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