Abstract
The success of Staphylococcus aureus as a human commensal and an opportunistic pathogen relies on its ability to adapt to several niches within the host. The innate immune response plays a key role in protecting the host against S. aureus infection; however, S. aureus adeptness at evading the innate immune system is indisputably evident. The “Trojan horse” theory has been postulated to describe a mechanism by which S. aureus takes advantage of phagocytes as a survival niche within the host to facilitate dissemination of S. aureus to secondary sites during systemic infection. Several studies have determined that S. aureus can parasitize both professional and non-professional phagocytes by manipulating the host autophagy pathway in order to create an intracellular survival niche. Neutrophils represent a critical cell type in S. aureus infection as demonstrated by the increased risk of infection among patients with congenital neutrophil disorders. However, S. aureus has been repeatedly shown to survive intracellularly within neutrophils with evidence now supporting a pathogenic role of host autophagy. By manipulating this pathway, S. aureus can also alter the apoptotic fate of the neutrophil and potentially skew other important signalling pathways for its own gain. Understanding these critical host-pathogen interactions could lead to the development of new host directed therapeutics for the treatment of S. aureus infection by removing its intracellular niche and restoring host bactericidal functions. This review discusses the current findings surrounding intracellular survival of S. aureus within neutrophils, the pathogenic role autophagy plays in this process and considers the therapeutic potential for targeting this immune evasion mechanism.
Highlights
Staphylococcus aureus has evolved with the human immune system in order to survive as a commensal organism as well as a causative agent of disease
This study showed that high mobility group box 1 (HMGB1) was able to prolong polymorphonuclear neutrophils (PMN) survival whilst preventing mitochondrial potential depletion which, in combination with the induction of autophagy, is a strikingly similar phenotype to that seen in S. aureus infection of PMN
S. aureus is a formidable foe which has developed a vast array of immune evasion mechanisms that enable its survival and persistence
Summary
Staphylococcus aureus has evolved with the human immune system in order to survive as a commensal organism as well as a causative agent of disease. In 2011, Thwaites et al presented the idea that polymorphonuclear neutrophils (PMN) may represent a “privileged site” for S. aureus and may act as a Trojan horse for intracellular survival and dissemination to secondary sites in the host following an initial focus of infection [8]. An initial study of intracellular survival within human monocyte derived macrophages (hMDMs) highlighted the importance of the agr locus and the stress response and virulence regulator SigB, as the absence of either regulator led to significant reduction in intracellular burden and cell death [14]. The agr and Sae locus have been further implicated in intracellular survival as mutant strains of either regulator showed significant reductions in phagosomal escape within THP-1 cells and hMDMs, with double mutants showing the greatest reduction in cytotoxicity and phagosomal
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