Innate Immune Responses of Bat and Human Cells to Filoviruses: Commonalities and Distinctions

Kuzmin, Ivan V.; Schwarz, Toni M.; Ilinykh, Philipp A.; Jordan, Ingo; Ksiazek, Thomas G.; Sachidanandam, Ravi; Basler, Christopher F.; Bukreyev, Alexander

doi:10.1128/jvi.02471-16

Cited by 50 publications

(77 citation statements)

References 65 publications

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“…In contrast to Vero cells, the induced immunity model offered the best fit to all RoNi/7.1 data, consistent with reported patterns in the literature and our own validation by qPCR ( Table 1; Arnold et al, 2018;Kuzmin et al, 2017;Biesold et al, 2011;Pavlovich et al, 2018). As in Vero cell trials, we estimated highest b values for rVSV-G infections on RoNi/7.1 cell lines but here recovered higher b estimates for rVSV-MARV than for rVSV-EBOV.…”

Section: Robust Immunity Is Linked To Rapid Within-host Virus Transmisupporting

confidence: 88%

“…We first explored the influence of innate immune phenotype on within-host viral propagation in a series of infection experiments in cell culture. We conducted plaque assays on six-well plate monolayers of three immortalized mammalian kidney cell lines: [1] Vero (African green monkey) cells, which are IFN-defective and thus limited in antiviral capacity (Desmyter et al, 1968); [2] RoNi/7.1 (Rousettus aegyptiacus) cells which demonstrate idiosyncratic induced interferon responses upon viral challenge (Kuzmin et al, 2017;Arnold et al, 2018;Biesold et al, 2011;Pavlovich et al, 2018); and [3] PaKiT01 (Pteropus alecto) cells which constitutively express IFN-a (Zhou et al, 2016;Crameri et al, 2009). To intensify cell line-specific differences in constitutive immunity, we carried out infectivity assays with GFP-tagged, replication-competent vesicular stomatitis Indiana viruses: rVSV-G, rVSV-EBOV, and rVSV-MARV, which have been previously described (Miller et al, 2012;Wong et al, 2010).…”

Section: Virus Infection Experiments In Antiviral Bat Cell Cultures Ymentioning

confidence: 99%

“…Previous work has demonstrated that all cell lines used are capable of mounting a type I IFN response upon viral challenge, with the exception of Vero cells, which possess an IFN-b deficiency (Desmyter et al, 1968;Rhim et al, 1969;Emeny and Morgan, 1979). RoNi/7.1 cells have been shown to mount idiosyncratic induced IFN defenses upon viral infection (Pavlovich et al, 2018;Kuzmin et al, 2017;Arnold et al, 2018;Kühl et al, 2011;Biesold et al, 2011), while PaKiT01 cells are known to constitutively express the antiviral cytokine, IFN-a (Zhou et al, 2016). This work is the first documentation of IFN signaling induced upon challenge with the particular recombinant VSVs outlined below.…”

Section: Cell Culture Experiments Cellsmentioning

confidence: 99%

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Accelerated viral dynamics in bat cell lines, with implications for zoonotic emergence

Brook

Boots

Chandran

et al. 2020

eLife

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Bats host virulent zoonotic viruses without experiencing disease. A mechanistic understanding of the impact of bats' virus hosting capacities, including uniquely constitutive immune pathways, on cellular-scale viral dynamics is needed to elucidate zoonotic emergence. We carried out virus infectivity assays on bat cell lines expressing induced and constitutive immune phenotypes, then developed a theoretical model of our in vitro system, which we fit to empirical data. Best fit models recapitulated expected immune phenotypes for representative cell lines, supporting robust antiviral defenses in bat cells that correlated with higher estimates for withinhost viral propagation rates. In general, heightened immune responses limit pathogen-induced cellular morbidity, which can facilitate the establishment of rapidly-propagating persistent infections within-host. Rapidly-transmitting viruses that have evolved with bat immune systems will likely cause enhanced virulence following emergence into secondary hosts with immune systems that diverge from those unique to bats.Brook et al. eLife 2020;9:e48401.

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Section: Robust Immunity Is Linked To Rapid Within-host Virus Transmisupporting

confidence: 88%

Section: Virus Infection Experiments In Antiviral Bat Cell Cultures Ymentioning

confidence: 99%

Section: Cell Culture Experiments Cellsmentioning

confidence: 99%

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Accelerated viral dynamics in bat cell lines, with implications for zoonotic emergence

Brook

Boots

Chandran

et al. 2020

eLife

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“…Cell culture assays with bat cell lines, or, in some instances, primary bat cells, have been used to assess whether bats are permissive for viral replication and to determine whether particular immune receptor signaling pathways are intact. As discussed below, such studies have probed the type I IFN pathway in particular, revealing some possible species-specific differences among bats (71)(72)(73)(74)(75)(76)(77)(78)(79)(80)(81)(82)(83). However, it is important to note that in some instances immortalized cells can behave differently from primary cells and that such cultures may miss additional differences imposed by changes in cell localization, cell recruitment or cell-cell interactions in a whole animal.…”

Section: Anti-viral Immune Responses Of Batsmentioning

confidence: 99%

“…Moreover, R. aegyptiacus were a suspected reservoir for ebolavirus (EBOV) based on epidemiological evidence and detected seroreactivity to EBOV, but no infectious virus has been isolated thus far from wild rousettus bats (107). Indeed, while cell lines from R. aegyptiacus are equally susceptible to MARV and EBOV (79,108), experimental infections of R. aegyptiacus seem to confirm that it is a reservoir for MARV, but is unlikely to be the source of EBOV spillover to humans. Subcutaneous EBOV infection results in very low viral replication, no viremia, little dissemination to other tissues, and no viral shedding, although some animals seroconvert, suggesting that R. aegyptiacus are unlikely to perpetuate EBOV in the wild (109,110).…”

Section: Rousettus Batsmentioning

confidence: 99%

Going to Bat(s) for Studies of Disease Tolerance

Mandl

Schneider

et al. 2018

Front. Immunol.

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A majority of viruses that have caused recent epidemics with high lethality rates in people, are zoonoses originating from wildlife. Among them are filoviruses (e.g., Marburg, Ebola), coronaviruses (e.g., SARS, MERS), henipaviruses (e.g., Hendra, Nipah) which share the common features that they are all RNA viruses, and that a dysregulated immune response is an important contributor to the tissue damage and hence pathogenicity that results from infection in humans. Intriguingly, these viruses also all originate from bat reservoirs. Bats have been shown to have a greater mean viral richness than predicted by their phylogenetic distance from humans, their geographic range, or their presence in urban areas, suggesting other traits must explain why bats harbor a greater number of zoonotic viruses than other mammals. Bats are highly unusual among mammals in other ways as well. Not only are they the only mammals capable of powered flight, they have extraordinarily long life spans, with little detectable increases in mortality or senescence until high ages. Their physiology likely impacted their history of pathogen exposure and necessitated adaptations that may have also affected immune signaling pathways. Do our life history traits make us susceptible to generating damaging immune responses to RNA viruses or does the physiology of bats make them particularly tolerant or resistant? Understanding what immune mechanisms enable bats to coexist with RNA viruses may provide critical fundamental insights into how to achieve greater resilience in humans.

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Mammalia: Chiroptera: Immunology of Bats

Baker

Schountz

2018

Advances in Comparative Immunology

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Innate Immune Responses of Bat and Human Cells to Filoviruses: Commonalities and Distinctions

Cited by 50 publications

References 65 publications

Accelerated viral dynamics in bat cell lines, with implications for zoonotic emergence

Accelerated viral dynamics in bat cell lines, with implications for zoonotic emergence

Going to Bat(s) for Studies of Disease Tolerance

Mammalia: Chiroptera: Immunology of Bats

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