Global and cell type-specific immunological hallmarks of severe dengue progression

Ghita, Luca; Yao, Zhiyuan; Xie, Yike; Durán, Verónica; Cagirici, Busra Halise; Samir, Jerome; Osman, Ilham; Agudelo, Olga Lucia; Sanz, A.; Sahoo, Malaya K.; Robinson, Makeda; Gélvez, Rosa Margarita; Bueno, Nathalia; Luciani, Fabio; Pinsky, Benjamin A.; Montoya, Jose Gilberto; Cardenas, Maria Isabel Estupiñan; Villar, Luis; Garrido, Elsa Marina Rojas; Rosso, Fernando; Quake, Stephen R.; Zanini, Fabio; Einav, Shirit

doi:10.1101/2022.12.11.519930

Cited by 3 publications

(3 citation statements)

References 51 publications

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“…Data from Ghita et al. 137 was generously shared. Both datasets were processed via Seurat and scanpy for QC, dimension reduction, clustering, and cell type classification.…”

Section: Methodsmentioning

confidence: 99%

Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

Ratnasiri,

Zheng,

Toh

et al. 2024

Cell Reports

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“…Data from Ghita et al. 137 was generously shared. Both datasets were processed via Seurat and scanpy for QC, dimension reduction, clustering, and cell type classification.…”

Section: Methodsmentioning

confidence: 99%

Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

Ratnasiri,

Zheng,

Toh

et al. 2024

Cell Reports

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“…The reasons for occurrence of symptomatic and severe disease in some individuals remain incompletely understood. Many factors appear to be involved such as presence of host comorbidities (diabetes, cardiovascular disease and obesity), heterologous infections, the magnitude, breadth and the specificity of DENV specific antibody and T cell responses, the virulence of the infecting DENV strain, the extent viraemia and an altered dysfunctional immune responses [7,16,25,37].…”

Section: Introductionmentioning

confidence: 99%

“…The DENV infects many different cell types including monocytes, macrophages, hepatocytes and B cells causing disease pathogenesis [16,25]. However, in addition to the virus, dengue NS1 independently has shown to contribute to disease pathogenesis by disrupting the endothelial glycocalyx [4,32], inducing cytokine production from immune cells [26], activating phospholipase A2 enzymes [34] and immune evasion by interfering with complement activation [3], based on in vitro experiments and in dengue mouse models.…”

Section: Introductionmentioning

confidence: 99%

Dengue NS1 interaction with lipids alters its pathogenic effects on monocyte derived macrophages

Dayarathna,

Senadheera,

Jeewandara

et al. 2024

Preprint

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Background: While dengue NS1 antigen has been shown to be associated with disease pathogenesis in some studies, it has not been linked in other studies, with the reasons remaining unclear. NS1 antigen levels in acute dengue are often associated with increased disease severity, but there have been a wide variation in results based on past dengue infection and infecting dengue virus (DENV) serotype. As NS1 engages with many host lipids, we hypothesize that the type of NS1-lipid interactions alters its pathogenicity. Methods: Primary human monocyte derived macrophages (MDMs) were co-cultured with NS1 alone or with HDL, LDL, LPS and/or platelet activating factor (PAF) from individuals with a history of past dengue fever (DF=8) or dengue haemorrhagic fever (DHF=8). IL-1β levels were measured in culture supernatants, and gene expression analysis carried out in MDMs. Monocyte subpopulations were assessed by flow cytometry. Hierarchical cluster analysis with Euclidean distance calculations were used to differentiate clusters. Differentially expressed variables were extracted and a classifier model was developed to differentiate between past DF and DHF. Results: Significantly higher levels of IL-1β were seen in culture supernatants when NS1 was co-cultured with LDL (p=0.01), but with lower levels with HDL (p=0.05). MDMs of those past DHF produced more IL-1β when NS1 with PAF (p=0.02). MDMs of individuals with past DHF, were significantly more likely to down-regulate RPLP2 gene expression when macrophages were co-cultured with either PAF alone, or NS1 combined with PAF, or NS1 combined with LDL. When NS1 was co-cultured with PAF, HDL or LDL two clusters were detected based on IL10 expression, but these did not differentiate those with past DF or DHF. Conclusions: As RPLP2 is important in DENV replication and in regulating cellular stress responses and immune responses and IL-10 is associated with severe disease, it would be important to further explore how differential expression of RPLP2 and IL-10 could lead to disease pathogenesis based on NS1 and lipid interactions.

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Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

Ratnasiri

Zheng

Toh

et al. 2023

Preprint

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Viral pandemics and epidemics pose a significant global threat, with emerging and re-emerging viruses responsible for four pandemics in the 21st century alone. While macaques have been utilized as a model for understanding viral disease in a controlled setting, it remains unclear how conserved the antiviral responses to diverse viruses are between macaques and humans. To address this critical knowledge gap, we conducted a comprehensive cross-species analysis of transcriptomic data from over 6000 blood samples from macaques and humans infected with one of 31 viruses, including Lassa, Ebola, Marburg, Zika, and dengue. Our findings demonstrate that irrespective of primate or viral species, there are conserved antiviral responses which are consistent regardless of infection phase (acute, chronic, or latent) and viral genome type (DNA or RNA viruses). Moreover, by leveraging longitudinal data from experimental challenges, we identified virus-specific response dynamics such as host responses to Coronaviridae and Orthomyxoviridae infections peaking 1-3 days earlier than responses to Filoviridae and Arenaviridae viral infections. Additionally, through comparative analysis of immune responses across viruses, we identified a unique enrichment of lymphoid cellular response modules in macaque Flaviviridae infection that persists in human responses to dengue. Our results underscore macaque studies as a powerful tool for gaining new insights into viral pathogenesis and immune responses that translate to humans, which can inform viral therapeutic development and enable pandemic preparedness.

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Global and cell type-specific immunological hallmarks of severe dengue progression

Cited by 3 publications

References 51 publications

Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

Dengue NS1 interaction with lipids alters its pathogenic effects on monocyte derived macrophages

Systems immunology of transcriptional responses to viral infection identifies conserved antiviral pathways across macaques and humans

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