Flagellum and toxin phase variation impacts intestinal colonization and disease development in a mouse model of Clostridioides difficile infection.

Clostridioides difficile is a major nosocomial pathogen that can cause severe, toxin-mediated diarrhea and pseudomembranous colitis. Recent work has shown that C. difficile exhibits heterogeneity in swimming motility and toxin production in vitro through phase variation by site-specific DNA recombination. The recombinase RecV reversibly inverts the flagellar switch sequence upstream of the flgB operon, leading to the ON/OFF expression of flagellum and toxin genes. How this phenomenon impacts C. difficile virulence in vivo remains unknown. We identified mutations in the right inverted repeat that reduced or prevented flagellar switch inversion by RecV. We introduced these mutations into C. difficile R20291 to create strains with the flagellar switch "locked" in either the ON or OFF orientation. These mutants exhibited a loss of flagellum and toxin phase variation during growth in vitro, yielding precisely modified mutants suitable for assessing virulence in vivo. In a hamster model of acute C. difficile infection, the phase-locked ON mutant caused greater toxin accumulation than the phase-locked OFF mutant but did not differ significantly in the ability to cause acute disease symptoms. In contrast, in a mouse model, preventing flagellum and toxin phase variation affected the ability of C. difficile to colonize the intestinal tract and to elicit weight loss, which is attributable to differences in toxin production during infection. These results show that the ability of C. difficile to phase vary flagella and toxins influences colonization and disease development and suggest that the phenotypic variants generated by flagellar switch inversion have distinct capacities for causing disease.

Effects of Exposure to Multiple, Graphic Suicide News Articles on Explicit and Implicit Measures of Suicide Risk.

Research has examined suicide-related behaviors following exposure to suicide news articles, yet only a handful of studies utilized experimental designs. We aimed to address the limitations of these prior experimental studies by utilizing more realistic suicide articles and more empirically sound measures. 420 participants were randomly assigned to read a series of either suicide-related or neutral news articles, then complete a battery of questionnaires and the Death/Suicide Implicit Association Task. Overall, no significant differences between groups were observed, nor did we observe any moderation effect of individual vulnerabilities (e.g., lifetime suicidal ideation/behavior). We did not observe any immediate effects of exposure to suicide news articles. Further research examining potential mechanisms for imitative effects remains critically needed.

Characterization of Acinetobacter baumannii Copper Resistance Reveals a Role in Virulence.

Acinetobacter baumannii is often highly drug-resistant and causes severe infections in compromised patients. These infections can be life threatening due to limited treatment options. Copper is inherently antimicrobial and increasing evidence indicates that copper containing formulations may serve as non-traditional therapeutics against multidrug-resistant bacteria. We previously reported that A. baumannii is sensitive to high concentrations of copper. To understand A. baumannii copper resistance at the molecular level, herein we identified putative copper resistance components and characterized 21 strains bearing mutations in these genes. Eight of the strains displayed a copper sensitive phenotype (pcoA, pcoB, copB, copA/cueO, copR/cusR, copS/cusS, copC, copD); the putative functions of these proteins include copper transport, oxidation, sequestration, and regulation. Importantly, many of these mutant strains still showed increased sensitivity to copper while in a biofilm. Inductively coupled plasma mass spectrometry revealed that many of these strains had defects in copper mobilization, as the mutant strains accumulated more intracellular copper than the wild-type strain. Given the crucial antimicrobial role of copper-mediated killing employed by the immune system, virulence of these mutant strains was investigated in Galleria mellonella; many of the mutant strains were attenuated. Finally, the cusR and copD strains were also investigated in the murine pneumonia model; both were found to be important for full virulence. Thus, copper possesses antimicrobial activity against multidrug-resistant A. baumannii, and copper sensitivity is further increased when copper homeostasis mechanisms are interrupted. Importantly, these proteins are crucial for full virulence of A. baumannii and may represent novel drug targets.

Testing Metal Sensitivity of A. baumannii Strains: Survival in Copper-Supplemented Liquid Media and on Copper-Containing Surfaces.

This chapter describes protocols for determining A. baumannii isolates' overall levels of sensitivity to heavy metals; copper is used as a model heavy metal. Measurements of the ability of strains to grow in the presence of various concentrations of copper in liquid media and on copper-containing surfaces are described.

Measuring Intracellular Metal Concentration via ICP-MS Following Copper Exposure.

This chapter describes protocols for measuring fluctuation in intracellular metal concentration of A. baumannii isolates in response to copper exposure using inductively coupled plasma mass spectrometry (ICP-MS).

Media Reporting on Suicide: Evaluating the Effects of Including Preventative Resources and Psychoeducational Information on Suicide Risk, Attitudes, Knowledge, and Help-Seeking Behaviors.

We evaluated the effects of exposure to a suicide news article on a variety of outcome variables and whether adhering to one specific media guideline (i.e., including psychoeducational information and preventative resources) buffered any of the negative effects of exposure. Participants were randomly assigned to read one of three articles and then asked to complete a battery of self-report questionnaires. Overall, we found no effect of exposure to a suicide news article, regardless of the inclusion of resources and information, with a few minor exceptions. Although researchers have demonstrated the effectiveness of media guidelines in the aggregate at reducing imitative suicidal behavior, it remains unclear which guidelines in particular are responsible for this effect.

Copper Resistance of the Emerging Pathogen Acinetobacter baumannii.

Acinetobacter baumannii is an important emerging pathogen that is capable of causing many types of severe infection, especially in immunocompromised hosts. Since A. baumannii can rapidly acquire antibiotic resistance genes, many infections are on the verge of being untreatable, and novel therapies are desperately needed. To investigate the potential utility of copper-based antibacterial strategies against Acinetobacter infections, we characterized copper resistance in a panel of recent clinical A. baumannii isolates. Exposure to increasing concentrations of copper in liquid culture and on solid surfaces resulted in dose-dependent and strain-dependent effects; levels of copper resistance varied broadly across isolates, possibly resulting from identified genotypic variation among strains. Examination of the growth-phase-dependent effect of copper on A. baumannii revealed that resistance to copper increased dramatically in stationary phase. Moreover, A. baumannii biofilms were more resistant to copper than planktonic cells but were still susceptible to copper toxicity. Exposure of bacteria to subinhibitory concentrations of copper allowed them to better adapt to and grow in high concentrations of copper; this copper tolerance response is likely achieved via increased expression of copper resistance mechanisms. Indeed, genomic analysis revealed numerous putative copper resistance proteins that share amino acid homology to known proteins in Escherichia coli and Pseudomonas aeruginosa Transcriptional analysis revealed significant upregulation of these putative copper resistance genes following brief copper exposure. Future characterization of copper resistance mechanisms may aid in the search for novel antibiotics against Acinetobacter and other highly antibiotic-resistant pathogens. IMPORTANCE: Acinetobacter baumannii causes many types of severe nosocomial infections; unfortunately, some isolates have acquired resistance to almost every available antibiotic, and treatment options are incredibly limited. Copper is an essential nutrient but becomes toxic at high concentrations. The inherent antimicrobial properties of copper give it potential for use in novel therapeutics against drug-resistant pathogens. We show that A. baumannii clinical isolates are sensitive to copper in vitro, both in liquid and on solid metal surfaces. Since bacterial resistance to copper is mediated though mechanisms of efflux and detoxification, we identified genes encoding putative copper-related proteins in A. baumannii and showed that expression of some of these genes is regulated by the copper concentration. We propose that the antimicrobial effects of copper may be beneficial in the development of future therapeutics that target multidrug-resistant bacteria.