Herpes simplex virus-1 (HSV-1) is a human pathogen that utilizes several strategies to circumvent the host immune response. An immune evasion mechanism employed by HSV-1 is retention of interleukin-1β (IL-1β) in the intracellular space, which blocks the pro-inflammatory activity of IL-1β. Here, we report that HSV-1 infected keratinocytes actively release the also pro-inflammatory IL-1α, preserving the ability of infected cells to signal danger to the surrounding tissue. The extracellular release of IL-1α is independent of inflammatory caspases. In vivo recruitment of leukocytes to early HSV-1 micro-infection sites within the epidermis is dependent upon IL-1 signalling. Following cutaneous HSV-1 infection, mice unable to signal via extracellular IL-1α exhibit an increased mortality rate associated with viral dissemination. We conclude that IL-1α acts as an alarmin essential for leukocyte recruitment and protective immunity against HSV-1. This function may have evolved to counteract an immune evasion mechanism deployed by HSV-1.
Herpes simplex virus-1 (HSV-1) is a common human pathogen that typically causes self-limiting disease. However, neonates and patients with compromised immune systems are at risk of developing potentially fatal systemic disease. Previously we reported that IL-1α is released by keratinocytes treated with poly(I:C), a double stranded RNA analogue often utilized to simulate virus infections. The objective of this study was to examine whether IL-1 signaling plays a role in initiating protective immunity against HSV-1 infections. Extracellular release of IL-1α protein could be detected 6-24 hours after HSV-1 infection of primary human keratinocytes (4-5-fold increase, p<0.01). This release was not associated with a correlating change in mRNA levels suggesting that the cells released a pre-formed pool of protein. HSV-1 triggered activation of inflammatory caspases-1/4 as determined using fluorescence labeled peptides (6-fold, p<0.001); however, the cellular release of IL-1α was independent of caspases-1/4. IL-1R knockout (KO) mice exhibited an increased mortality following cutaneous HSV-1 infection (60 versus 25%, p<0.01). Caspase-1/4 deficiency did not affect survival rates; hence, the protective function of IL-1R must be exclusively due to IL-1α signaling. Recruitment of leukocytes to the infected epidermis was delayed in IL-1R KO mice. Hence, HSV-1 triggered IL-1α release from infected cells appears important for initiating protective immunity against systemic HSV-1 infections.
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