Genome-Wide Profiling Reveals Alternative Polyadenylation of Innate Immune-Related mRNA in Patients With COVID-19

An, Sanqi; Li, Yueqi; Yao, Lin; Chu, Jiemei; Su, Jinming; Chen, Qiuli; Wang, Hailong; Pan, Peijiang; Zheng, Ruili; Li, Jingyi; Jiang, Junjun; Li, Ye; Liang, Hao

doi:10.3389/fimmu.2021.756288

Cited by 26 publications

(18 citation statements)

References 47 publications

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“…This data depth accords a robust framework to navigate through the complex transcriptional landscape, enabling the detection of genes with low expression levels, and unraveling rare alternative splicing events. Building upon recent studies 13,15,16,49,52 that highlighted the potential targeting of the mRNA splicing machinery by viruses and reported a dysregulation of alternative splicing in COVID-19 patients, our transcriptomic analysis including healthy controls and patients reinforced the global dynamic alterations of alternative splicing in COVID-19 patients. A notable extent of these changes was observed in those infected with the Omicron variant.…”

Section: Discussionsupporting

confidence: 55%

Variant- and Vaccination-Specific Alternative Splicing Profiles in SARS-CoV-2 Infections

Lee,

Furth,

Hennighausen

et al. 2023

Preprint

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SummaryThe COVID-19 pandemic, caused by the coronavirus SARS-CoV-2, and its subsequent variants has underscored the importance of understanding the host-viral molecular interactions to devise effective therapeutic strategies. A significant aspect of these interactions is the role of alternative splicing in modulating host responses and viral replication mechanisms. Our study sought to delineate the patterns of alternative splicing of RNAs from immune cells across different SARS-CoV-2 variants and vaccination statuses, utilizing a robust dataset of 190 RNA-seq samples from our previous studies, encompassing an average of 212 million reads per sample. We identified a dynamic alteration in alternative splicing and genes related to RNA splicing were highly deactivated in COVID-19 patients and showed variant- and vaccination-specific expression profiles. Overall, Omicron-infected patients exhibited a gene expression profile akin to healthy controls, unlike the Alpha or Beta variants. However, significantly, we found identified a subset of infected individuals, most pronounced in vaccinated patients infected with Omicron variant, that exhibited a specific dynamic in their alternative splicing patterns that was not widely shared amongst the other groups. Our findings underscore the complex interplay between SARS-CoV-2 variants, vaccination-induced immune responses, and alternative splicing, emphasizing the necessity for further investigations into these molecular cross-talks to foster deeper understanding and guide strategic therapeutic development.

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Section: Discussionsupporting

confidence: 55%

Variant- and Vaccination-Specific Alternative Splicing Profiles in SARS-CoV-2 Infections

Lee,

Furth,

Hennighausen

et al. 2023

Preprint

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show abstract

“…This signature corresponds to a differential inflammatory profile between patients with severe and mild outcome, with the implication of humoral immune response, complement activation and interferon signalling pathway. This signature includes the over expression of inflammation markers previously reported in patients with severe COVID-19 pneumonia, such as IFI27 (Shojaei et al 2023 ) or CD177 (Jackson et al 2022 ; Wang et al 2022 ; Lévy et al 2019 ; An et al 2021 ; An et al 2022 ).This signature shows a gradient of expression from mild to intermediate and severe forms. Thus, the inflammatory signature observed in patients with severe COVID-19 pneumonia seems to be present early in the course of the disease, and to reflect the risk of developing a severe outcome.…”

Section: Resultsmentioning

confidence: 94%

Whole blood transcriptome signature predicts severe forms of COVID-19: Results from the COVIDeF cohort study

Armignacco,

Carlier,

Jouinot

et al. 2024

Funct Integr Genomics

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COVID-19 is associated with heterogeneous outcome. Early identification of a severe progression of the disease is essential to properly manage the patients and improve their outcome. Biomarkers reflecting an increased inflammatory response, as well as individual features including advanced age, male gender, and pre-existing comorbidities, are risk factors of severe COVID-19. Yet, these features show limited accuracy for outcome prediction. The aim was to evaluate the prognostic value of whole blood transcriptome at an early stage of the disease. Blood transcriptome of patients with mild pneumonia was profiled. Patients with subsequent severe COVID-19 were compared to those with favourable outcome, and a molecular predictor based on gene expression was built. Unsupervised classification discriminated patients who would later develop a COVID-19-related severe pneumonia. The corresponding gene expression signature reflected the immune response to the viral infection dominated by a prominent type I interferon, with IFI27 among the most over-expressed genes. A 48-genes transcriptome signature predicting the risk of severe COVID-19 was built on a training cohort, then validated on an external independent cohort, showing an accuracy of 81% for predicting severe outcome. These results identify an early transcriptome signature of severe COVID-19 pneumonia, with a possible relevance to improve COVID-19 patient management.

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“…Next set of features are related to the prediction of treatment stage of the COVID-19 patients. Same analysis on those genes shows that they are closely related to the biological processes such as neutral amino acid transport [95] , regulation of cellular protein metabolic process [84] , negative regulation of cellular macromolecule biosynthetic process [93] , endosome to lysosome transport [50] , chondrocyte morphogenesis involved in endochondral bone morphogenesis, growth plate cartilage chondrocyte morphogenesis, ferrochelatase activity, chondrocyte morphogenesis, phosphatase activator activity [116] , regulation of protein kinase activity [52] , [79] , negative regulation of cellular metabolic process [11] , [8] , response to inorganic substance [111] , [22] , toll-like receptor 9 signaling pathway [1] , [25] , [49] , [70] , [90] , positive regulation of NIK/NF-kappaB signaling [54] , myeloid dendritic cell activation [6] , [85] , regulation of transcription from RNA polymerase II promoter, protein localization to cilium, positive regulation of cell morphogenesis involved in differentiation, mRNA/RNA polyadenylation [102] , [5] , protein localization to cilium, phosphatidylinositol binding, optic cup structural organization [2] , endosome to plasma membrane transport vesicle, SET domain binding, negative regulation of phosphorus metabolic process [110] , regulation of fatty acid transport/ long-chain fatty acid transport [101] , [108] , [32] , [94] , positive regulation of mRNA catabolic process [87] , positive regulation of mRNA metabolic process [54] , transcription from RNA polymerase II promoter, positive regulation of cellular biosynthetic process, negative regulation of RNA metabolic process, negative regulation of nitrogen compound metabolic process [16] , [76] and negative regulation of cellular macromolecule biosynthetic process [30] .…”

Section: Study On the Selected Featuresmentioning

confidence: 99%

Role of different types of RNA molecules in the severity prediction of SARS-CoV-2 patients

Jeyananthan

2023

Pathology - Research and Practice

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Genome-Wide Profiling Reveals Alternative Polyadenylation of Innate Immune-Related mRNA in Patients With COVID-19

Cited by 26 publications

References 47 publications

Variant- and Vaccination-Specific Alternative Splicing Profiles in SARS-CoV-2 Infections

Variant- and Vaccination-Specific Alternative Splicing Profiles in SARS-CoV-2 Infections

Whole blood transcriptome signature predicts severe forms of COVID-19: Results from the COVIDeF cohort study

Role of different types of RNA molecules in the severity prediction of SARS-CoV-2 patients

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