Staphylococcus aureus Hyaluronidase Is a CodY-Regulated Virulence Factor

Ibberson, Carolyn B.; Jones, Crystal L.; Singh, Shweta; Wise, Matthew C.; Hart, Mark E.; Zurawski, Daniel V.; Horswill, Alexander R.

doi:10.1128/iai.01710-14

Cited by 92 publications

(81 citation statements)

References 63 publications

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“…Given that S. aureus systemic infections can readily arise from skin or mucosal sites, it is reasonable to infer that the active invasion of host tissue is a key facet of S. aureus pathogenicity. Consistent with this view, S. aureus hysA mutants exhibit a hypovirulent phenotype in models of acute pulmonary and cutaneous infection (22,23). In addition, hyaluronidases from numerous Gram-positive pathogens have been shown to promote tissue penetrance of bacteria, toxins, and large-molecular-mass dyes in the vicinity of the challenge site (25,57).…”

Section: Discussionmentioning

confidence: 52%

“…Within the context of intense homeostatic stress such as nutrient deprivation, HysA might play a multifunctional role as a mediator of biofilm dispersal and tissue invasion, which are both vital to a recolonization effort. Coupling the proposed HysA behaviors with nutritional distress, we recently showed that the global regulator CodY represses hysA expression (22) in response to nutrient levels in the cell. Thus, CodY could control biofilm dissemination in a nutrient-dependent manner and facilitate S. aureus survival when facing a resource-depleted environment (i.e., nutritional immunity [52]).…”

Section: Discussionmentioning

confidence: 99%

“…S. aureus produces a hyaluronidase, encoded by the gene hysA, that is conserved across all S. aureus lineages (21). Our group and others have shown that HysA is a virulence factor in a variety of infection models (22,23), which is thought to be due to its role in facilitating local spread of the infection. However, it has become increasingly clear that hyaluronidases have additional functions that benefit pathogen survival in the host.…”

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confidence: 99%

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Hyaluronan Modulation Impacts Staphylococcus aureus Biofilm Infection

et al. 2016

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Staphylococcus aureus is a leading cause of chronic biofilm infections. Hyaluronic acid (HA) is a large glycosaminoglycan abundant in mammalian tissues that has been shown to enhance biofilm formation in multiple Gram-positive pathogens. We observed that HA accumulated in an S. aureus biofilm infection using a murine implant-associated infection model and that HA levels increased in a mutant strain lacking hyaluronidase (HysA). S. aureus secretes HysA in order to cleave HA during infection. Through in vitro biofilm studies with HA, the hysA mutant was found to accumulate increased biofilm biomass compared to the wild type, and confocal microscopy showed that HA is incorporated into the biofilm matrix. Exogenous addition of purified HysA enzyme dispersed HA-containing biofilms, while catalytically inactive enzyme had no impact. Additionally, induction of hysA expression prevented biofilm formation and also dispersed an established biofilm in the presence of HA. These observations were corroborated in the implant model, where there was decreased dissemination from an hysA mutant biofilm infection compared to the S. aureus wild type. Histopathology demonstrated that infection with an hysA mutant caused significantly reduced distribution of tissue inflammation compared to wild-type infection. To extend these studies, the impact of HA and S. aureus HysA on biofilm-like aggregates found in joint infections was examined. We found that HA contributes to the formation of synovial fluid aggregates, and HysA can disrupt aggregate formation. Taken together, these studies demonstrate that HA is a relevant component of the S. aureus biofilm matrix and HysA is important for dissemination from a biofilm infection.

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Section: Discussionmentioning

confidence: 52%

Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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Hyaluronan Modulation Impacts Staphylococcus aureus Biofilm Infection

et al. 2016

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“…Mice infected with mutant strains carrying mutation of the CodY binding box exhibited a 4-log-unit reduction in bacterial burden in their lungs, reduced lung pathology and increased levels of pulmonary hyaluronic acid, compared to mice infected with the wild-type, parent strain. These results can give insight into the possible reduction of the strain virulence, especially in patients with lung infection (25).…”

Section: Hyaluronidasementioning

confidence: 99%

Staphylococcus aureus: Immunopathogenesis and Human Immunity

Miljković-Selimović¹,

Dinić²,

Orlović³

et al. 2015

Acta Facultatis Medicae Naissensis

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Considering a large number of pathogen factors that enable high virulence of a microorganism such as Staphylococcus aureus (S. aureus), it is essential to see them through the continuous adaptation to the newly acquired mechanisms of the host immune response and efforts to overcome these, allowing the bacteria a perfect ecological niche for growth, reproduction, and location of new hosts. Past efforts to create a vaccine that would provide effective protection against infections caused by S. aureus remained without success. The reasons for this stem from the outstanding adaptability skills of this microorganism to almost all environmental conditions, the existence of a numerous virulence factors whose mechanisms of action are not well known, as well as insufficient knowledge of the immune response to S. aureus infections. This review article deals with this issue from another perspective and emphasizes actual knowledge on virulence factors and immune response to S. aureus.

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“…The transcription of S. aureus hyaluronidase, encoded by hysA, is controlled by the accessory gene regulator (Agr) quorum-sensing system (86,87). Work by Ibberson et al (88) suggests that B (as well as CodY) downregulates agr and therefore indirectly and negatively controls hyaluronidase activity in S. aureus. Based on the observation that sigB and codY mutants express higher levels of hyaluronidase activity, hysA is proposed to be under direct positive control by the effectors of Agr and negatively modulated by CodY and B (88).…”

Section: In Metabolism Of Harmful Components and Utilization Of Diffementioning

confidence: 99%

Resilience in the Face of Uncertainty: Sigma Factor B Fine-Tunes Gene Expression To Support Homeostasis in Gram-Positive Bacteria

Guldimann

Boor

Wiedmann

et al. 2016

Appl Environ Microbiol

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Gram-positive bacteria are ubiquitous and diverse microorganisms that can survive and sometimes even thrive in continuously changing environments. The key to such resilience is the ability of members of a population to respond and adjust to dynamic conditions in the environment. In bacteria, such responses and adjustments are mediated, at least in part, through appropriate changes in the bacterial transcriptome in response to the conditions encountered. Resilience is important for bacterial survival in diverse, complex, and rapidly changing environments and requires coordinated networks that integrate individual, mechanistic responses to environmental cues to enable overall metabolic homeostasis. In many Gram-positive bacteria, a key transcriptional regulator of the response to changing environmental conditions is the alternative sigma factor B . B has been characterized in a subset of Gram-positive bacteria, including the genera Bacillus, Listeria, and Staphylococcus. Recent insight from nextgeneration-sequencing results indicates that B -dependent regulation of gene expression contributes to resilience, i.e., the coordination of complex networks responsive to environmental changes. This review explores contributions of B to resilience in Bacillus, Listeria, and Staphylococcus and illustrates recently described regulatory functions of B .

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Staphylococcus aureus Hyaluronidase Is a CodY-Regulated Virulence Factor

Cited by 92 publications

References 63 publications

Hyaluronan Modulation Impacts Staphylococcus aureus Biofilm Infection

Hyaluronan Modulation Impacts Staphylococcus aureus Biofilm Infection

Staphylococcus aureus: Immunopathogenesis and Human Immunity

Resilience in the Face of Uncertainty: Sigma Factor B Fine-Tunes Gene Expression To Support Homeostasis in Gram-Positive Bacteria

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