Prevalence of diagnostically-discrepant Clostridioides difficile clinical specimens: insights from longitudinal surveillance

Anwar, Farhan; Clark, Marielle; Lindsey, Jason; Claus-Walker, Rachel; Mansoor, Asad; Nguyen, Evy; Billy, Justin; Lainhart, William; Shehab, Kareem; Viswanathan, V. K.; Vedantam, Gayatri

doi:10.3389/fmed.2023.1238159

Front. Med.

2023

DOI: 10.3389/fmed.2023.1238159

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Prevalence of diagnostically-discrepant Clostridioides difficile clinical specimens: insights from longitudinal surveillance

Farhan Anwar,

Marielle Clark,

Jason Lindsey

et al.

Abstract: BackgroundClostridioides difficile Infection (CDI) is a healthcare-associated diarrheal disease prevalent worldwide. A common diagnostic algorithm relies on a two-step protocol that employs stool enzyme immunoassays (EIAs) to detect the pathogen, and its toxins, respectively. Active CDI is deemed less likely when the Toxin EIA result is negative, even if the pathogen-specific EIA is positive for C. difficile. We recently reported, however, that low-toxin-producing C. difficile strains recovered from Toxin-nega… Show more

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2024

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Clostridioides difficile superoxide reductase mitigates oxygen sensitivity

Kochanowsky,

Carothers,

Roxas

et al. 2024

J Bacteriol

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Clostridioides difficile causes a serious diarrheal disease and is a common healthcare-associated bacterial pathogen. Although it has a major impact on human health, the mechanistic details of C. difficile intestinal colonization remain undefined. C. difficile is highly sensitive to oxygen and requires anaerobic conditions for in vitro growth. However, the mammalian gut is not devoid of oxygen, and C. difficile tolerates moderate oxidative stress in vivo . The C. difficile genome encodes several antioxidant proteins, including a predicted superoxide reductase (SOR) that is upregulated upon exposure to antimicrobial peptides. The goal of this study was to establish SOR enzymatic activity and assess its role in protecting C. difficile against oxygen exposure. Insertional inactivation of sor rendered C. difficile more sensitive to superoxide, indicating that SOR contributes to antioxidant defense. Heterologous C. difficile sor expression in Escherichia coli conferred protection against superoxide-dependent growth inhibition, and the corresponding cell lysates showed superoxide scavenging activity. Finally, a C. difficile SOR mutant exhibited global proteome changes under oxygen stress when compared to the parent strain. Collectively, our data establish the enzymatic activity of C. difficile SOR, confirm its role in protection against oxidative stress, and demonstrate SOR’s broader impacts on the C. difficile vegetative cell proteome. IMPORTANCE Clostridioides difficile is an important pathogen strongly associated with healthcare settings and capable of causing severe diarrheal disease. While considered a strict anaerobe in vitro , C. difficile has been shown to tolerate low levels of oxygen in the mammalian host. Among other well-characterized antioxidant proteins, the C. difficile genome encodes a predicted superoxide reductase (SOR), an understudied component of antioxidant defense in pathogens. The significance of the research reported herein is the characterization of SOR’s enzymatic activity, including confirmation of its role in protecting C. difficile against oxidative stress. This furthers our understanding of C. difficile pathogenesis and presents a potential new avenue for targeted therapies.

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Clostridioides difficile superoxide reductase mitigates oxygen sensitivity

Kochanowsky,

Carothers,

Roxas

et al. 2024

J Bacteriol

View full text Add to dashboard Cite

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Prevalence of diagnostically-discrepant Clostridioides difficile clinical specimens: insights from longitudinal surveillance

Cited by 1 publication

References 44 publications

Clostridioides difficile superoxide reductase mitigates oxygen sensitivity

Clostridioides difficile superoxide reductase mitigates oxygen sensitivity

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