Unveiling immune interference: How the dendritic cell response to co-infection with Aspergillus fumigatus is modulated by human cytomegalovirus and its virokine CMVIL-10
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Human cytomegalovirus (HCMV) is a master of immune evasion and a potent modulator of the human immune system. The best-characterized mechanism employed by HCMV to suppress host immunity is the production of a viral interleukin-10 homolog ( CMV IL-10). While CMV IL-10 is known to suppress immune responses and promote viral persistence, its capacity to promote increased susceptibility to co-infecting pathogens like Aspergillus fumigatus remains unknown. Therefore, we studied the impact of wild-type (WT) HCMV (strain TB40 BAC4), a CMV IL-10-deficient HCMV mutant (Δ UL111A ), and recombinant CMV IL-10 on the immune activity of monocyte-derived dendritic cells (moDCs) during co-infection with A. fumigatus . Using a combination of transcriptomic and phenotypic readouts, our data revealed a strong and time-dependent immuno-paralytic effect of HCMV by suppressing pathogen recognition pathways, cytokine production, DC maturation, and expression of genes that are essential for host defense and tissue repair. Although infection with Δ UL111A lacking CMV IL-10 led to stronger expression of type I interferons, IFN-γ-inducible chemokines, and proinflammatory cytokines than WT infection, interference with antifungal immune defense and fungal clearance during co-infection was largely similar between both strains. The limited effect of CMV IL-10 on antifungal immune defense persisted even after prolonged pre-exposure of DCs to the recombinant virokine. In summary, although CMV IL-10 contributes to shaping an anti-inflammatory environment, HCMV’s suppression of antifungal immunity appears to be multifactorial, with CMV IL-10 alone playing a rather subtle role in altering DC responses to A. fumigatus during viral-fungal co-infection.
Importance
Human cytomegalovirus (HCMV) is a highly prevalent herpesvirus that establishes lifelong latency and frequently reactivates in immunocompromised individuals, including hematopoietic stem cell transplant recipients. Reactivation not only causes direct disease but also increases the risk of secondary infections, such as invasive pulmonary aspergillosis caused by Aspergillus fumigatus . Specifically, studies estimated that about 6-25% of critically ill HCMV-positive patients develop HCMV-associated pulmonary aspergillosis. However, the mechanisms by which HCMV creates a permissive environment for fungal superinfection remain poorly understood. HCMV encodes a viral homolog of interleukin-10 ( CMV IL-10), which mimics host IL-10 and elicits potent immunomodulatory activity. Here, we show that CMV IL-10 dampens specific anti-viral responses, DC activation, and cytokine signaling. However, HCMV-mediated impairment of fungal control in co-infection settings occurred largely independent of CMV IL-10 expression. These findings suggest that HCMV undermines antifungal defenses through multifactorial mechanisms beyond CMV IL-10, highlighting the need for targeted strategies to restore immune function in high-risk patients.
