Inflammatory monocytes mediate control of acute alphavirus infection in mice

Haist, Kelsey C.; Burrack, Kristina S.; Davenport, Bennett; Morrison, Thomas E.

doi:10.1371/journal.ppat.1006748

Cited by 69 publications

(70 citation statements)

References 79 publications

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“…This result is consistently observed on the UMAP biplot, which showed that mock‐infected joints were lacking an infiltrating leukocyte population corresponding to PhenoGraph clusters 1, 13, 14, 19, 29, 30, 32, 33 (Fig C–E). These clusters are collectively made up of populations expressing CD11b + , CD64 + , Ly6C hi , and MHC‐II + (Figs E and EV3B), indicative of inflammatory monocytes (Haist et al , ). Interestingly, the RH‐CHIKV‐infected group diverged the most from WT‐CHIKV and showed the highest level of similarity to the mock‐infected group (Fig B).…”

Section: Resultsmentioning

confidence: 99%

Mutating chikungunya virus non‐structural protein produces potent live‐attenuated vaccine candidate

et al. 2019

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Currently, there are no commercially available live‐attenuated vaccines against chikungunya virus ( CHIKV ). Here, CHIKV s with mutations in non‐structural proteins (nsPs) were investigated for their suitability as attenuated CHIKV vaccines. R532H mutation in nsP1 caused reduced infectivity in mouse tail fibroblasts but an enhanced type‐I IFN response compared to WT ‐ CHIKV . Adult mice infected with this nsP‐mutant exhibited a mild joint phenotype with low‐level viremia that rapidly cleared. Mechanistically, ingenuity pathway analyses revealed a tilt in the anti‐inflammatory IL ‐10 versus pro‐inflammatory IL ‐1β and IL ‐18 balance during CHIKV nsP‐mutant infection that modified acute antiviral and cell signaling canonical pathways. Challenging CHIKV nsP‐mutant‐infected mice with WT ‐ CHIKV or the closely related O'nyong‐nyong virus resulted in no detectable viremia, observable joint inflammation, or damage. Challenged mice showed high antibody titers with efficient neutralizing capacity, indicative of immunological memory. Manipulating molecular processes that govern CHIKV replication could lead to plausible vaccine candidates against alphavirus infection.

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Section: Resultsmentioning

confidence: 99%

Mutating chikungunya virus non‐structural protein produces potent live‐attenuated vaccine candidate

et al. 2019

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“…Macrophage activation has a crucial role in articular and muscular inflammation-derived lesions in RRV and CHIKV infection (22,44). In addition, the production of type I IFN by activated inflammatory monocytes has been suggested as crucial to control acute RRV infection in mice (25). Here, we observed moderate cellular infiltrate on the focus of necrosis and high expression of inflammatory mediators in the muscle of MAYV infected mice, including TNF levels that may contribute to tissue damage.…”

Section: Discussionmentioning

confidence: 52%

“…Similar diversity and intensity of clinic signals were observed in WT 11-dayold mice ( Table 1). We also investigated MAYV infection in adult recombination activation gene-1 deficient mice (RAG1 -/-), which do not maturate B and T lymphocytes (26), used as a model to investigate the involvement of adaptive immunity in diseases (25). MAYV infection of adult RAG1 -/mice did not cause lethality, weight loss, and even other clinical signals observed in young WT and adult IFNAR -/mice (Table 1).…”

Section: Mayv Inoculation Induces Clinical Signs Of Infection In Younmentioning

confidence: 99%

“…Consistent with this, a difference in cytokine expression between MAYV and CHIKV infection in human U937 cell lineage (21) 24). It was demonstrated that inflammatory monocyte infiltrates trigger tissue damage, contributing to the severity of the disease (25). However, currently, there is no systematic study evaluating replication, tissues damage, and immune activation in MAYV-infected mice.…”

Section: Introductionmentioning

confidence: 99%

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Mayaro virus replication restriction and induction of muscular inflammation in mice are dependent on age and type-I interferon response

Figueiredo

Leopoldino

et al. 2019

Preprint

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These authors contributed equally to this work. AbstractMayaro virus (MAYV) is an emergent Arbovirus belonging to the Alphavirus genus from the Togaviridae family which has been circulated in forest regions of American continent through small outbreaks. Recent studies warned for the risk of MAYV dispersion to new areas and for the potential establishment of an urban epidemic cycle.Similar to Chikungunya and other arthritogenic Alphavirus, MAYV-induced disease shows a high prevalence of arthralgia and myalgia that can persist for months. Despite this, knowledge regarding pathogenesis, characteristics of host immune response, and resolution of MAYV infections are still limited. Here we investigated the dependence of age, innate and adaptive immunity for the control of MAYV replication and induction of inflammation in mice. We observed that age and type I interferon response are related to restriction of MAYV infection and tissue inflammation in mice. Moreover, we showed that MAYV continues to replicate persistently in adult recombination activation gene-1 efficient mice (RAG1 -/-), indicating that adaptive immunity is essential to MAYV clearance. Despite chronic replication, infected adult RAG1 -/mice did not develop an apparent signal of muscle damage at late infection. On the other hand, MAYV infection induces muscular and paw inflammation in young WT and adult Type I Interferon receptor deficient mice (IFNAR -/-). In addition, MAYV infection triggers an increase in the expression of pro-inflammatory mediators, such as TNF, IL-6, KC, IL-1β, MCP-1, and RANTES, in muscle tissue, and decreases TGF-β expression.Taken together, our study contributes to the comprehension of MAYV pathogenesis, and describes a translational mouse model for further studies of MAYV infection, as well for testing vaccine and therapeutic strategies against this virus. Author SummaryMAYV-induced disease presents a high prevalence of arthralgia and myalgia that potentially persist for months, which is characteristic of the arthritogenic Alphavirus group. However, information regarding MAYV infection and the molecular mechanism of pathogenesis is still scarce. Here we investigated the dependence of age, innate and adaptive immunity for the control of MAYV replication and induction of inflammation in mice. We observed that tissue inflammation and the restriction of MAYV replication in mice are affected by aging and type I interferon response. Besides, we also showed that adaptive immunity was important for MAYV clearance in adult mice. Histological analyses demonstrated that MAYV replication triggered muscular and paw inflammation in young WT and adult type-I interferon receptor deficient mice. In addition, the level of expression of several pro-inflammatory cytokines was increased in the muscle MAYV-infected mice. Our data provide an advance for understanding the molecular mechanism involved in MAYV pathogenesis, as well as describes an in vivo model for further investigations on MAYV infection and for antiviral compounds and vaccine testing.

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“…Total RNA from Vero cells infected with dengue virus type 2 (New Guinea C), influenza A (H3N2 Udorn) or mock-infected was extracted using Trizol (Thermo-Scientific) [19] and provided by Alex Stabell and Sara Sawyer (University of Colorado, Boulder). Total RNA extracted from whole quad muscle collected 5 days post-infection from C57BL/6J mice that were mock-infected or infected with Ross River virus (T48) as described in [20] was provided by Kelsey Haist and Thomas Morrison (University of Colorado, Anschutz Medical Campus). All mouse studies were performed at the University of Colorado Anschutz Medical Campus (Animal Welfare Assurance #A 3269-01) using protocols approved by the University of Colorado Institutional Animal Care and Use Committee and in accordance with the recommendations in the Guide for the Care and Use of Laboratory Animals of the National Institutes of Health.…”

Section: Dsrna Purificationmentioning

confidence: 99%

dsRNA-Seq: Identification of viral infection by purifying and sequencing dsRNA

Decker

Steiner²,

Hoon-Hanks

et al. 2019

Preprint

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RNA viruses are a major source of emerging and re-emerging infectious diseases around the world. We developed a method to identify RNA viruses that is based on the fact that all RNA viruses produce dsRNA while replicating. Purifying and sequencing dsRNA from total RNA isolated from infected tissue allowed us to recover replicating viral sequences. We refer to this approach as dsRNA-Seq. By assembling dsRNA sequences into contigs we identified full length RNA viruses of varying genome types infecting mammalian culture samples, identified a known viral disease agent in laboratory infected mice, and successfully detected naturally occurring RNA viral infections in reptiles. Here we show that dsRNA-Seq is a preferable method for identifying viruses in organisms that don't have sequenced genomes and/or commercially available rRNA depletion reagents.Similar to other metagenomic strategies, dsRNA-Seq has the potential to identify unknown viral disease agents that share little to no similarity to known viruses. However, the significant advantage of this method is the ability to identify replicated viral sequences, which is useful for distinguishing infectious viral agents from potential noninfectious viral particles or contaminants.

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Inflammatory monocytes mediate control of acute alphavirus infection in mice

Cited by 69 publications

References 79 publications

Mutating chikungunya virus non‐structural protein produces potent live‐attenuated vaccine candidate

Mutating chikungunya virus non‐structural protein produces potent live‐attenuated vaccine candidate

Mayaro virus replication restriction and induction of muscular inflammation in mice are dependent on age and type-I interferon response

dsRNA-Seq: Identification of viral infection by purifying and sequencing dsRNA

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