Host and Bacterial Determinants of Staphylococcus aureus Nasal Colonization in Humans

Muthukrishnan, Gowrishankar

01 January 2014

Staphylococcus aureus (SA), an opportunistic pathogen colonizing the anterior nares in approximately 30% of the human population, causes severe hospital-associated and community-acquired infections. SA nasal carriage plays a critical role in the pathogenesis of staphylococcal infections and SA eradication from the nares has proven to be effective in reducing endogenous infections. To understand SA nasal colonization and its relation with consequent disease, assessment of nasal carriage dynamics among a diverse population and determining factors responsible for SA nasal carriage have become major imperatives. Here, we report on an extensive longitudinal monitoring of SA nasal carriage in 109 healthy individuals over a period of up to three years to assess nasal carriage dynamics. Phylogenetic analyses of SA housekeeping genes and hypervariable virulence genes revealed that not only were SA strains colonizing intermittent and persistent nasal carriers genetically similar, but no preferential colonization of specific SA strains in these carriers was observed over time. These results indicated that other non-SA factors could be involved in determining specific carriage states. Therefore, to elucidate host responses during SA nasal carriage, we performed human SA nasal recolonization in a subset of SA nasal carriers within our cohort. In these studies, SA colonization levels were determined, and nasal secretions were collected and analyzed for host immune factors responsible for SA nasal carriage. Interestingly, we observed that stimulation of host immune responses lead to clearance of SA while sustained SA colonization was observed in hosts that did not mount a response during carriage. Further, analysis of nasal secretions from hosts revealed that proinflammatory cytokines and chemokines were significantly induced during SA nasal clearance suggesting that innate immune effectors influence carriage. SA utilizes a repertoire of surface and secreted proteins to evade host immune response and successfully colonize the nose. Analysis of the most abundant immunoevasive proteins in the exoproteome of SA nasal carrier strains revealed that expression levels of Staphylococcal protein A (SPA) produced by SA nasal carrier strains in vitro corresponded to the level of persistence of SA in the human nose. To determine if SPA is involved in modulating the host's response to SA colonization, a subset of participants in our cohort was nasally recolonized with equal concentrations of both wild-type (WT) and spa-disrupted (?spa) autologous strains of SA. Interestingly, ?spa strains were eliminated from the nares significantly faster than WT when the host mounted an immune response, suggesting that the immunoevasive role of SPA is a determinant of carriage persistence. Collectively, this report augments our understanding of SA nasal carriage dynamics, in addition to identifying important host and microbial determinants that influence SA nasal colonization in humans. Better understanding of this phenomenon can lead to improved preventative strategies to thwart carriage-associated SA infections.

Staphylococcus aureus

nasal colonization

infectious disease

host pathogen interactions

phylogenetics

Medical Sciences

Role Of Host Immune Response And Bacterial Autolysin Atl In Human Nasal Colonization By Staphylococcus Aureus

Paramanandam, Vanathy

01 January 2013

Staphylococcus aureus (SA) is a major human pathogen that colonizes the anterior nares in 30% of the human population. Though nasal carriage of SA is a known risk factor for the subsequent spread of SA infections, the dynamics of SA nasal colonization is poorly understood. Our research focuses on understanding the host and bacterial factors that might contribute to the human nasal colonization by SA. In an attempt to elucidate the host response to SA, we performed an autologous human in vivo nasal colonization study, which showed decreased survival rates of SA in hosts who elicited a robust immune response. We also identified a significant correlation between SA nasal colonization and the expression of host proinflammatory, chemotactic and growth factors. Additionally, we functionally disrupted a major autolysin, atl a surface expressed bacterial protein that plays multiple roles in cell separation, adhesion and biofilm formation of SA. Microscopic analysis of the ∆atl strains showed phenotypic differences, including cell clumping and cluster formation due to defective cell separation, which confirmed the functional loss of atl. Subsequent analysis of the ∆atl and wild-type strains revealed that there was no significant difference in their ability to adhere to human nasal epithelial cells (hNEC) in an ex vivo hNEC model. Similarly, our competitive in vivo human nasal colonization study, in which equal colony-forming units of each wild-type and ∆atl SA strain were inoculated in the anterior nares of donors, showed similar survival rates between wild-type and ∆atl. These results suggest that Atl might not be directly involved in the adherence and colonization of SA to the anterior nares. Furthermore, our study suggests that host factors might play a predominant role in determining SA colonization to human anterior nares.

Staphylococcus aureus

autolysin

host immune response

human in vivo nasal colonization study

atl

Biotechnology

Molecular Biology

Modélisation in vitro de la colonisation à staphylococcus aureus ; interactions avec l’infection à rhinovirus / In vitro modelization of staphylococcus aureus colonisation ; interactions with rhinovirus infection

Morgene, Mohamed Fedy

07 November 2018

Certains virus respiratoires comme rhinovirus semblent favoriser la colonisation par staphylococcus aureus. Cependant, les détails des mécanismes impliqués dans cette synergie n’ont pas été suffisamment élucidés. Le but de cette thèse a été de développer et valider un modèle in vitro mimant la colonisation du vestibule nasal par s. aureus en utilisant les kératinocytes humains hacat. Ce modèle a permis d’étudier (i) les pouvoirs d’adhésion et d’internalisation d’une collection de souche clinique de s. aureus, (ii) l’efficacité intracellulaire des molécules antimicrobiennes utilisées dans le cadre de la décolonisation nasale de s. aureus, (iii) l’effet de la clarithromycine sur l’infection par rhinovirus et (iv) l’impact de l’infection par rhinovirus ou de l’inflammation non spécifique sur la colonisation par s. aureus. ce travail a principalement permis d’identifier un nouveau mécanisme alternatif de l’internalisation de s. aureus à travers la liaison entre la protéine bactérienne eap (extracellular adherence protein) et le récepteur cellulaire icam-1 (intracellular adhesion molecule 1). Cette voie alternative est favorisée en cas d’infection par rhinovirus ou d’inflammation, ce qui pourrait expliquer les observations cliniques de l’augmentation de la charge de s. aureus ou du risque d’infection par cette bactérie lors des infections virales respiratoires ou d’inflammation post-traumatique. Les résultats de cette thèse illustrent la complexité des interactions entre les cellules épithéliales de la muqueuse, s. aureus et les pathogènes viraux et ouvrent les perspectives sur d’autres études nécessaires afin de proposer des stratégies préventives ou thérapeutiques adaptées. / Some respiratory viruses such as rhinoviruses seem to promote staphylococcus aureus colonization. However, the details of the bacterial and cellular mechanisms involved in this synergy have not been sufficiently elucidated. The aim of this thesis was to develop and validate an in vitro model mimicking s. aureus colonization of the nasal vestibule by using hacat human keratinocytes. This model allowed to study (i) the adhesion and internalization capacities of various clinical s. aureus strains, (ii) the intracellular efficiency of the antimicrobial molecules used for s. aureus nasal decolonization, (iii) the effect of clarithromycin on rhinovirus infection, and (iv) the impact of rhinovirus infection and non-specific inflammation on s. aureus colonization. This work has mainly identified a new alternative mechanism for the internalization of s. aureus through the binding between the bacterial protein eap (extracellular adherence protein) and the cell receptor icam-1 (intracellular adhesion molecule 1). This alternative pathway is favored in case of rhinovirus infection or inflammation; which could explain the clinical observations of the increase of the load of s. aureus or the risk of infection by this bacterium during respiratory viral infections or post-traumatic inflammations. The results of this thesis illustrate the complexity of the interactions between the mucosal epithelial cells, s. aureus and viral pathogens and suggest that other studies are needed to propose appropriate preventive or therapeutic strategies.

Staphylococcus aureus

Rhinovirus

Colonisation nasale

Keratinocytes

Hacat

Icam-1

Eap

Internalisation

Staphylococcus aureus

Rhinovirus

Nasal colonization

Keratinocytes

Hacat

Icam-1

Eap

Internalization