Serratia marcescens DUF1471-Containing Protein SrfN Is Needed for Adaptation to Acid and Oxidative Stresses

Impact of vancomycin and Clostridioides difficile on the secretome and pathogenicity of Clostridium innocuum

Clostridium innocuum, a member of the human gut microbiome with intrinsic resistance to vancomycin, has been increasingly associated with inflammatory bowel diseases (IBD). Clinical observations indicate that co-infection with Clostridioides difficile and C. innocuum could lead to poorer clinical remission in ulcerative colitis; however, the pathogenic mechanism of C. innocuum remains unclear. Here, we investigated the effects of vancomycin and C. difficile on C. innocuum secretomes and the functions of the modified secretomes on C. innocuum pathogenicity. The results indicated that, compared to co-culturing with C. difficile, vancomycin was more effective in stimulating the secretion of proteins without a signal peptide, whereas C. difficile was better at promoting the secretion of classical secretory proteins. Based on these results, we further analyzed the effects of three abundant classical secretory proteins on C. innocuum virulence utilizing recombinant proteins. The results demonstrated that the NlpC/P60-containing protein (NlpC/P60) can enhance C. innocuum biofilm formation and adherence to HT-29 cells. Additionally, NlpC/P60, D-Ala-D-Ala carboxypeptidase, and a polysaccharide deacetylase were able to stimulate IL-8 production of HT-29 cells and TNF-α production of Raw264.7 macrophages. Additionally, recombinant NlpC/P60 and polysaccharide deacetylase exhibited cytotoxicity on Raw264.7 cells at 48 h. As the production of IL-8 and TNF-α is closely associated with IBD development, it is suggested that C. innocuum secretomes, under the influence of vancomycin or C. difficile, could contribute to IBD progression by enhancing inflammation and host-pathogen interactions.

Serratia marcescens Causes the Brown Discoloration of Frozen Steamed Stuffed Buns during Resteaming

Brown discoloration was observed in the crust of commercial frozen steamed stuffed buns (FSSBs) during resteaming. Culture-dependent and culture-independent analyses demonstrated that Serratia marcescens, a prodigiosin-producing species, was more abundant in spoiled samples than in unspoiled samples. Inoculation of experimental FSSBs with S. marcescens isolated from spoiled FSSBs confirmed that this species causes brown discoloration of FSSBs during resteaming. S. marcescens formed prodigiosin only between 15 and 28 °C but brown discoloration appeared only upon resteaming after storage at 4 °C. High-performance liquid chromatography analyses revealed that prodigiosin was absent from yellow-brown FSSBs. The pigmentation observed during resteaming is thus likely attributable to the intermediate 2-methyl-3-amylpyrrole. These findings provide valuable insights into the microbial contamination of FSSBs and will facilitate the prevention of spoilage of FSSBs.

Intestinal carbapenem-resistant Klebsiella pneumoniae undergoes complex transcriptional reprogramming following immune activation

Carbapenem-resistant Klebsiella pneumoniae (CR-Kp) is a significant threat to public health worldwide. The primary reservoir for CR-Kp is the intestinal tract. There, the bacterium is usually present at low density but can bloom following antibiotic treatment, mostly in hospital settings. The impact of disturbances in the intestinal environment on the fitness, survival, expansion, and drug susceptibility of this pathogen is not well-understood, yet it may be relevant to devise strategies to tackle CR-Kp colonization and infection. Here, we adopted an in vivo model to examine the transcriptional adaptation of a CR-Kp clinical isolate to immune activation in the intestine. We report that as early as 6 hours following host treatment with anti-CD3 antibody, CR-Kp underwent rapid transcriptional changes including downregulation of genes involved in sugar utilization and amino acid biosynthesis and upregulation of genes involved in amino acid uptake and catabolism, antibiotic resistance, and stress response. In agreement with these findings, treatment increased the concentration of oxidative species and amino acids in the mouse intestine. Genes encoding for proteins containing the domain of unknown function (DUF) 1471 were strongly upregulated, however their deletion did not impair CR-Kp fitness in vivo upon immune activation. Transcription factor enrichment analysis identified the global regulator cAMP-Receptor Protein, CRP, as a potential orchestrator of the observed transcriptional signature. In keeping with the recognized role of CRP in regulating utilization of alternative carbon sources, crp deletion in CR-Kp resulted in strongly impaired gut colonization, although this effect was not amplified by immune activation. Thus, following intestinal colonization, which occurs in a CRP-dependent manner, CR-Kp can rapidly respond to immune cues by implementing a well-defined and complex transcriptional program whose direct relevance toward bacterial fitness warrants further investigation. Additional analyses utilizing this model may identify key factors to tackle CR-Kp colonization of the intestine.

Outbreak of Serratia marcescens in the Neonatal Intensive Care Unit of a Tertiary Care Hospital in Mexico

INTRODUCTION

We describe an outbreak of Serratia marcescens (S. marcescens) infection in the neonatal intensive care unit at Women's Hospital in Sinaloa, Mexico.

METHODS

In April 2021, an outbreak of S. marcescens infection was identified. A case was identified as any patient who tested positive for S. marcescens and showed signs of an infectious process.

RESULTS

S. marcescens was isolated from the blood cultures of 15 neonates with clinical signs of neonatal sepsis. Statistical analysis showed that all neonates had an invasive medical device. The problem was controlled after hospital hygiene and sanitation measures were strengthened.

CONCLUSION

The study provides evidence of an outbreak of nosocomial bacteremia due to the cross-transmission of S. marcescens. The findings highlight the need for hospitals to implement strict hygiene measures, especially regarding hand washing, to prevent future outbreaks.