Abstract
Besides providing an essential protective barrier, airway epithelial cells directly sense pathogens and respond defensively. This is a frontline component of the innate immune system with specificity for different pathogen classes. It occurs in the context of numerous interactions with leukocytes, but here we focus on intrinsic epithelial mechanisms. Type 1 immune responses are directed primarily at intracellular pathogens, particularly viruses. Prominent stimuli include microbial nucleic acids and interferons released from neighboring epithelial cells. Epithelial responses revolve around changes in the expression of interferon-sensitive genes (ISGs) that interfere with viral replication, as well as the further induction of interferons that signal in autocrine and paracrine manners. Type 2 immune responses are directed primarily at helminths and fungi. Prominent pathogen stimuli include proteases and chitin, and important responses include mucin hypersecretion and chitinase release. Type 3 immune responses are directed primarily at extracellular microbial pathogens, including bacteria and fungi, as well as viruses during their extracellular phase of infection. Prominent microbial stimuli include bacterial wall components, such as lipopeptides and endotoxin, as well as microbial nucleic acids. Key responses are the release of reactive oxygen species (ROS) and antimicrobial peptides (AMPs). For all three types of response, paracrine signaling to neighboring epithelial cells induces resistance to infection over a wide field. Often, the epithelial effector molecules themselves also have signaling properties, in addition to the release of inflammatory cytokines that boost local innate immunity. Together, these epithelial mechanisms provide a powerful first line of pathogen defense, recruit leukocytes, and instruct adaptive immune responses.
Highlights
Barrier Properties of the AirwayThe most basic protective function of surface epithelial cells is to provide a structural barrier
We review how activated epithelial cells signal to neighboring cells to generate an epithelial field with heightened immunity, and how they polarize both their own responses and those of downstream leukocytes to best defend against specific pathogen classes
There are a wide range of intracellular and extracellular damage-associated molecular patterns (DAMPs) that may be released during respiratory virus infections, including heat-shock proteins, high-mobility group box 1 (HMGB1), hyaluronan fragments, ATP, uric acid, heparin sulfate, antimicrobial peptides (AMPs), double-stranded RNA (dsRNA), single-stranded RNA (ssRNA) and DNA (Roh and Sohn, 2018; Zindel and Kubes, 2020)
Summary
The most basic protective function of surface epithelial cells is to provide a structural barrier. There are a wide range of intracellular and extracellular DAMPs that may be released during respiratory virus infections, including heat-shock proteins, high-mobility group box 1 (HMGB1), hyaluronan fragments, ATP, uric acid, heparin sulfate, antimicrobial peptides (AMPs), dsRNA, ssRNA and DNA (Roh and Sohn, 2018; Zindel and Kubes, 2020) They induce the pro-inflammatory cytokines including IL-1β, IL-6, TNF, and CXCL8, which amplify innate and adaptive immune responses. Multiple cytokines communicate between leukocytes and lung parenchymal cells in the development of Type 2 immune responses, but among these, IL-13 plays a central role in epithelial responses (Frey et al, 2020; Hammad and Lambrecht, 2021) It is capable of inducing many or all of the epithelial effector responses described and inhibition of IL-13 results in incomplete responses to most other stimuli. Interactions between distinct epithelial innate responses are complex and less well understood than polarizing responses in lymphocytes, so their successful therapeutic manipulation is likely to require further preclinical study
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