Abstract
Non-typeable Haemophilus influenzae (NTHi) causes multiple diseases of the human airway and is a predominant bacterial pathogen of acute otitis media and otitis media in which treatment fails. NTHi utilizes a system of phase variable epigenetic regulation, termed the phasevarion, to facilitate adaptation and survival within multiple sites of the human host. The NTHi phasevarion influences numerous disease-relevant phenotypes such as biofilm formation, antibiotic resistance, and opsonization. We have previously identified an advantageous selection for a specific phasevarion status, which significantly affects severity and chronicity of experimental otitis media. In this study, we utilized pure cultures of NTHi variants in which modA was either locked ON or locked OFF, and thus modA was unable to phase vary. These locked variants were used to assess the progression of experimental otitis media and define the specific immune response induced by each subpopulation. Although the initial disease caused by each subpopulation was similar, the immune response elicited by each subpopulation was unique. The modA2 OFF variant induced significantly greater activation of macrophages both in vitro and within the middle ear during disease. In contrast, the modA2 ON variant induced a greater neutrophil extracellular trap response, which led to greater killing of the modA2 ON variant. These data suggest that not only does the NTHi phasevarion facilitate adaptation, but also allows the bacteria to alter immune responses during disease. Understanding these complex bacterial-host interactions and the regulation of bacterial factors responsible is critical to the development of better diagnostic, treatment, and preventative strategies for these bacterial pathogens.
Highlights
Human associated bacteria must be able to endure a wide range of stresses in order to survive and persist within their human host
We found that Non-typeable Haemophilus influenzae (NTHi) shift to a preferred modA2 ON status within the chinchilla middle ear fluids and that this shift in overall phasevarion status resulted in significantly greater disease severity within the middle ear compared to when there was no change in the overall population status
To better define the individual contribution of each variant to disease pathology, this work assessed disease induced by genetically modified variants of NTHi that are unable to phase vary, or switch status (Brockman et al, 2018)
Summary
Human associated bacteria must be able to endure a wide range of stresses in order to survive and persist within their human host. The phasevarion, or phase variable regulon, has been identified in several diverse mucosal-associated bacteria, which include Haemophilus influenzae, Neisseria species, Moraxella catarrhalis, Streptococcus pneumoniae, Helicobacter pylori, and Kingella kingae (Srikhanta et al, 2005, 2009, 2011, 2017a; Blakeway et al, 2014; Manso et al, 2014). Expression of the functional Mod protein can randomly turn on and off, or switch, which results in two phenotypically distinct bacterial subpopulations within the bacterial population. These two subpopulations are referred to as ON and OFF, for review see (Srikhanta et al, 2010; Tan et al, 2016; Atack et al, 2018). The work presented seeks to further define the role of the ModA2 phasevarion of non-typeable Haemophilus influenzae on innate immune response during experimental otitis media
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