Lack of strong innate immune reactivity renders macrophages alone unable to control productive Varicella-Zoster Virus infection in an isogenic human iPSC-derived neuronal co-culture model

Van Breedam, Elise; Buyle-Huybrecht, Tamariche; Govaerts, Jonas; Meysman, Pieter; Bours, Andrea; Boeren, Marlies; Di Stefano, Julia; Caers, Thalissa; De Reu, Hans; Dirkx, Laura; Schippers, Jolien; Bartholomeus, Esther; Lebrun, Marielle; Sadzot-Delvaux, Catherine; Rybakowska, Paulina; Alarcón-Riquelme, Marta E.; Marañón, Concepción; Laukens, Kris; Delputte, Peter; Ogunjimi, Benson; Ponsaerts, Peter

doi:10.3389/fimmu.2023.1177245

Front. Immunol.

2023

DOI: 10.3389/fimmu.2023.1177245

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Lack of strong innate immune reactivity renders macrophages alone unable to control productive Varicella-Zoster Virus infection in an isogenic human iPSC-derived neuronal co-culture model

Elise Van Breedam,

Tamariche Buyle-Huybrecht,

Jonas Govaerts

et al.

Abstract: With Varicella-Zoster Virus (VZV) being an exclusive human pathogen, human induced pluripotent stem cell (hiPSC)-derived neural cell culture models are an emerging tool to investigate VZV neuro-immune interactions. Using a compartmentalized hiPSC-derived neuronal model allowing axonal VZV infection, we previously demonstrated that paracrine interferon (IFN)-α2 signalling is required to activate a broad spectrum of interferon-stimulated genes able to counteract a productive VZV infection in hiPSC-neurons. In th… Show more

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2024

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Varicella-zoster virus recapitulates its immune evasive behaviour in matured hiPSC-derived neurospheroids

Govaerts,

Van Breedam,

De Beuckeleer

et al. 2024

Front. Immunol.

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Varicella-zoster virus (VZV) encephalitis and meningitis are potential central nervous system (CNS) complications following primary VZV infection or reactivation. With Type-I interferon (IFN) signalling being an important first line cellular defence mechanism against VZV infection by the peripheral tissues, we here investigated the triggering of innate immune responses in a human neural-like environment. For this, we established and characterised 5-month matured hiPSC-derived neurospheroids (NSPHs) containing neurons and astrocytes. Subsequently, NSPHs were infected with reporter strains of VZV (VZVeGFP-ORF23) or Sendai virus (SeVeGFP), with the latter serving as an immune-activating positive control. Live cell and immunocytochemical analyses demonstrated VZVeGFP-ORF23 infection throughout the NSPHs, while SeVeGFP infection was limited to the outer NSPH border. Next, NanoString digital transcriptomics revealed that SeVeGFP-infected NSPHs activated a clear Type-I IFN response, while this was not the case in VZVeGFP-ORF23-infected NSPHs. Moreover, the latter displayed a strong suppression of genes related to IFN signalling and antigen presentation, as further demonstrated by suppression of IL-6 and CXCL10 production, failure to upregulate Type-I IFN activated anti-viral proteins (Mx1, IFIT2 and ISG15), as well as reduced expression of CD74, a key-protein in the MHC class II antigen presentation pathway. Finally, even though VZVeGFP-ORF23-infection seems to be immunologically ignored in NSPHs, its presence does result in the formation of stress granules upon long-term infection, as well as disruption of cellular integrity within the infected NSPHs. Concluding, in this study we demonstrate that 5-month matured hiPSC-derived NSPHs display functional innate immune reactivity towards SeV infection, and have the capacity to recapitulate the strong immune evasive behaviour towards VZV.

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Varicella-zoster virus recapitulates its immune evasive behaviour in matured hiPSC-derived neurospheroids

Govaerts,

Van Breedam,

De Beuckeleer

et al. 2024

Front. Immunol.

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Lack of strong innate immune reactivity renders macrophages alone unable to control productive Varicella-Zoster Virus infection in an isogenic human iPSC-derived neuronal co-culture model

Cited by 1 publication

References 41 publications

Varicella-zoster virus recapitulates its immune evasive behaviour in matured hiPSC-derived neurospheroids

Varicella-zoster virus recapitulates its immune evasive behaviour in matured hiPSC-derived neurospheroids

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