Identification of Human Host Substrates of the SARS-CoV-2 M<sup>pro</sup> and PL<sup>pro</sup> Using Subtiligase N-Terminomics

Luo, Shu Y.; Moussa, Eman; López-Orozco, Joaquín; Felix-Lopez, Alberto; Ishida, Ray; Fayad, Nawell; Gomez-Cardona, Erik; Wang, Henry; Wilson, Joyce A.; Kumar, Anil; Hobman, Tom C.; Julien, Olivier

doi:10.1021/acsinfecdis.2c00458

Cited by 5 publications

(5 citation statements)

References 64 publications

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“…The number of identified cleavage sites is low compared to reports in cell extracts from cell lines. , This is the first use of subtiligase N-terminomics in heart tissue, which is highly complex, containing numerous cell types and a connective matrix. Further optimization may be necessary to improve the coverage of proteolytic substrates.…”

Section: Discussionmentioning

confidence: 99%

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

Hartley,

Bassiouni,

Roczkowsky

et al. 2024

J. Proteome Res.

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Myocardial ischemia-reperfusion (IR) (stunning) injury triggers changes in the proteome and degradome of the heart. Here, we utilize quantitative proteomics and comprehensive degradomics to investigate the molecular mechanisms of IR injury in isolated rat hearts. The control group underwent aerobic perfusion, while the IR injury group underwent 20 min of ischemia and 30 min of reperfusion to induce a stunning injury. As MMP-2 activation has been shown to contribute to myocardial injury, hearts also underwent IR injury with ARP-100, an MMP-2-preferring inhibitor, to dissect the contribution of MMP-2 to IR injury. Using data-independent acquisition (DIA) and mass spectroscopy, we quantified 4468 proteins in ventricular extracts, whereby 447 proteins showed significant alterations among the three groups. We then used subtiligase-mediated N-terminomic labeling to identify more than a hundred specific cleavage sites. Among these protease substrates, 15 were identified following IR injury. We identified alterations in numerous proteins involved in mitochondrial function and metabolism following IR injury. Our findings provide valuable insights into the biochemical mechanisms of myocardial IR injury, suggesting alterations in reactive oxygen/nitrogen species handling and generation, fatty acid metabolism, mitochondrial function and metabolism, and cardiomyocyte contraction.

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Section: Discussionmentioning

confidence: 99%

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

Hartley,

Bassiouni,

Roczkowsky

et al. 2024

J. Proteome Res.

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“…The epigenetic reprogramming of the CIITA locus we identified is part of a broader pattern of epigenetic modifications that suppress antiviral interferon responses and to promote the cytokine storm ( Balnis et al, 2021 ; Chlamydas et al, 2021 ). This epigenetic reprogramming occurs, in part, via NSP5 interactions with HDAC2 and BRD2 ( Gordon et al, 2020 ; Luo et al, 2023 ). In addition to altering nuclear epigenetic marks, SARS-CoV-2 NSP5 directly interferes with transcription via cleavage of POLDIP3, a DNA polymerase δ-interacting protein required for transcription of antiviral interferon-induced genes ( Wu et al, 2023 ).…”

Section: Discussionmentioning

confidence: 99%

“…NSP5 also interferes with IRF3-dependent transcription through blocking IRF3 activation downstream of RIG-I signaling, and via modulating its interaction with HDAC2 ( Naik et al, 2022 ; Zheng et al, 2022 ). A screen for host cell targets of NSP5-mediated proteolysis identified 203 proteins, of which a quarter are nuclear proteins that include DNA polymerases, components of the nuclear pore complex, histones, epigenetic modifiers, and transcription factors ( Luo et al, 2023 ). While it is unknown what effect most of these cleavage events have on host cell function, it is clear that nuclear proteins are an important target for NSP5.…”

Section: Discussionmentioning

confidence: 99%

SARS-CoV-2 NSP5 antagonizes MHC II expression by subverting histone deacetylase 2

Taefehshokr,

Lac,

Vrieze

et al. 2024

Journal of Cell Science

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SARS-CoV-2 interferes with antigen presentation by downregulating MHC II on antigen-presenting cells, but the mechanism mediating this process is unelucidated. Herein, analysis of protein and gene expression in human antigen-presenting cells reveals that MHC II is downregulated by the SARS-CoV-2 main protease, NSP5. This suppression of MHC II expression occurs via decreased expression of the MHC II regulatory protein CIITA. CIITA downregulation is independent of NSP5's proteolytic activity, and rather, NSP5 delivers HDAC2 to IRF3 at an IRF binding site within the CIITA promoter. Here, HDAC2 deacetylates and inactivates the CIITA promoter. This loss of CIITA expression prevents further expression of MHC II, with this suppression alleviated by ectopic expression of CIITA or knockdown of HDAC2. These results identify a mechanism by which SARS-CoV-2 limits MHC II expression, thereby delaying or weakening the subsequent adaptive immune response.

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“…Only a few studies have used N-terminal labeling strategies to characterize proteolysis in samples of higher complexity, such as blood (enzymatic labeling), pancreatic tumors (chemical labeling), and colon biopsies (chemical labeling) . Subtiligase labeling, despite the limitation of high amounts of starting material (in the mg range), has allowed the generation of valid information about proteolytic events in important biological processes such as viral infections (Zika virus and SARS-CoV-2) or cleavage event at the cell surface . In our study, we explored the applicability of subtiligase-based N-terminomics for the first time in brain samples.…”

Section: Discussionmentioning

confidence: 99%

Application of N-Terminal Labeling Methods Provide Novel Insights into Endoproteolysis of the Prion Protein in Vivo

Gomez-Cardona,

Eskandari-Sedighi,

Fahlman

et al. 2023

ACS Chem. Neurosci.

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Alternative αand β-cleavage events in the cellular prion protein (PrP C ) central region generate fragments with distinct biochemical features that affect prion disease pathogenesis, but the assignment of precise cleavage positions has proven challenging. Exploiting mouse transgenic models expressing wildtype (WT) PrP C and an octarepeat region mutant allele (S3) with increased β-fragmentation, cleavage sites were defined using LC− MS/MS in conjunction with N-terminal enzymatic labeling and chemical in-gel acetylation. Our studies profile the net proteolytic repertoire of the adult brain, as deduced from defining hundreds of proteolytic events in other proteins, and position individual cleavage events in PrP C αand β-target areas imputed from earlier, lower resolution methods; these latter analyses established site heterogeneity, with six cleavage sites positioned in the β-cleavage region of WT PrP C and nine positions for S3 PrP C . Regarding α-cleavage, aside from reported N-termini at His110 and Val111, we identified a total of five shorter fragments in the brain of both mice lines. We infer that aminopeptidase activity in the brain could contribute to the ragged N-termini observed around PrP C 's αand β-cleavage sites, with this work providing a point of departure for further in vivo studies of brain proteases.

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Identification of Human Host Substrates of the SARS-CoV-2 M^pro and PL^pro Using Subtiligase N-Terminomics

Cited by 5 publications

References 64 publications

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

SARS-CoV-2 NSP5 antagonizes MHC II expression by subverting histone deacetylase 2

Application of N-Terminal Labeling Methods Provide Novel Insights into Endoproteolysis of the Prion Protein in Vivo

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Identification of Human Host Substrates of the SARS-CoV-2 Mpro and PLpro Using Subtiligase N-Terminomics

Cited by 5 publications

References 64 publications

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

Data-Independent Acquisition Proteomics and N-Terminomics Methods Reveal Alterations in Mitochondrial Function and Metabolism in Ischemic-Reperfused Hearts

SARS-CoV-2 NSP5 antagonizes MHC II expression by subverting histone deacetylase 2

Application of N-Terminal Labeling Methods Provide Novel Insights into Endoproteolysis of the Prion Protein in Vivo

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Identification of Human Host Substrates of the SARS-CoV-2 M^pro and PL^pro Using Subtiligase N-Terminomics