Abstract
Despite a broad cell-type tropism, cytomegalovirus (CMV) is an evidentially pulmonary pathogen. Predilection for the lungs is of medical relevance in immunocompromised recipients of hematopoietic cell transplantation, in whom interstitial CMV pneumonia is a frequent and, if left untreated, fatal clinical manifestation of human CMV infection. A conceivable contribution of CMV to airway diseases of other etiology is an issue that so far attracted little medical attention. As the route of primary CMV infection upon host-to-host transmission in early childhood involves airway mucosa, coincidence of CMV airway infection and exposure to airborne environmental antigens is almost unavoidable. For investigating possible consequences of such a coincidence, we established a mouse model of airway co-exposure to CMV and ovalbumin (OVA) representing a protein antigen of an inherently low allergenic potential. Accordingly, intratracheal OVA exposure alone failed to sensitize for allergic airway disease (AAD) upon OVA aerosol challenge. In contrast, airway infection at the time of OVA sensitization predisposed for AAD that was characterized by airway inflammation, IgE secretion, thickening of airway epithelia, and goblet cell hyperplasia. This AAD histopathology was associated with a T helper type 2 (Th2) transcription profile in the lungs, including IL-4, IL-5, IL-9, and IL-25, known inducers of Th2-driven AAD. These symptoms were all prevented by a pre-challenge depletion of CD4+ T cells, but not of CD8+ T cells. As to the underlying mechanism, murine CMV activated migratory CD11b+ as well as CD103+ conventional dendritic cells (cDCs), which have been associated with Th2 cytokine-driven AAD and with antigen cross-presentation, respectively. This resulted in an enhanced OVA uptake and recruitment of the OVA-laden cDCs selectively to the draining tracheal lymph nodes for antigen presentation. We thus propose that CMV, through activation of migratory cDCs in the airway mucosa, can enhance the allergenic potential of otherwise poorly allergenic environmental protein antigens.
Highlights
It is common knowledge in the allergy field that viral respiratory infections and allergic airway diseases (AADs), for instance allergic asthma, can interdepend [1,2]
CMV airway infection coincides with airway exposure to environmental antigens, which include potent classical allergens and protein antigens that have low-to-no allergenic potential on their own
In a murine model of airway exposure to OVA for allergenic sensitization, we have addressed the question if a simultaneous airway infection with murine CMV can promote allergic airway disease (AAD) elicited by challenge exposure to OVA
Summary
It is common knowledge in the allergy field that viral respiratory infections and allergic airway diseases (AADs), for instance allergic asthma, can interdepend [1,2]. Allergic asthma and respiratory viral infections both can affect the physical and functional integrity of the airway epithelium and can thereby destroy its barrier function (reviewed in [11]). This in turn facilitates the penetration of allergens as well as the invasion of pathogens [13]. The pathophysiological interactions between respiratory virus infections and allergic airway diseases are manifold and rather complicated, and are not yet fully understood
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