Hypervirulent clade 2, ribotype 019/sequence type 67 Clostridioides difficile strain from Japan

A case of community-acquired Clostridioides difficile infection causing intussusception, severe pneumonia, and severe hypokalemia

BACKGROUND

Clostridioides difficile infection is associated with antibiotic use and manifests as diarrhea; however, emerging cases of fulminant diarrhea caused by binary toxin-producing C. difficile unrelated to prior antibiotic exposure have been reported. Although fulminant colitis caused by C. difficile has been documented, instances of intussusception remain scarce. Here, we present a case of adult intussusception with severe hypokalemia and pneumonia resulting from a community-acquired C. difficile infection in Japan.

CASE PRESENTATION

An 82-year-old male presented with dizziness, progressive weakness, and diarrhea. Initial vital signs indicated severe respiratory and circulatory distress, and laboratory findings revealed hypokalemia, pneumonia, and septic shock. Imaging confirmed intussusception of the ascending colon. Although colonoscopy suggested a potential tumor, no malignancy was found. The C. difficile rapid test result was positive, indicating community-acquired C. difficile infection. Treatment with vancomycin was initiated; however, intussusception relapsed. Surgical intervention was successful and led to clinical improvement. The patient's complex pathophysiology involved community-acquired C. difficile-induced severe diarrhea, hypokalemia, hypermetabolic alkalosis, and subsequent intussusception. Although adult intussusception is uncommon, this case was uniquely linked to binary toxin-producing C. difficile. The identified strain, SUH1, belonged to a novel sequence type (ST1105) and clade 3, suggesting a highly virulent clone. Resistome analysis aligned with phenotypic susceptibility to metronidazole and vancomycin, confirming their treatment efficacy.

CONCLUSION

This case report highlights a binary toxin-producing C. difficile that caused intussusception. The consideration of community-acquired C. difficile in the differential diagnosis of severe enteritis is necessary, even in Japan.

The burden of Clostridioides difficile infections in South-East Asia and the Western Pacific: A narrative review

BACKGROUND

Clostridioides difficile (formerly Clostridium difficile) is well-documented in Europe and North America to be a common cause of healthcare-associated gastrointestinal tract infections. In contrast, C difficile infection (CDI) is infrequently reported in literature from Asia, which may reflect a lack of clinician awareness. We conducted a narrative review to better understand CDI burden in Asia.

METHODS

We searched the PubMed database for English language articles related to C difficile, Asia, epidemiology, and molecular characteristics (eg, ribotype, antimicrobial resistance).

RESULTS

Fifty-eight articles that met eligibility criteria were included. C difficile prevalence ranged from 7.1% to 45.1 % of hospitalized patients with diarrhea, and toxigenic strains among all C difficile in these patients ranged from 68.2% to 91.9 % in China and from 39.0% to 60.0 % outside of China. Widespread C difficile ribotypes were RT017, RT014/020, RT012, and RT002. Recurrence in patients with CDI ranged from 3.0% to 17.2 %. Patients with CDI typically had prior antimicrobial use recently. High rates of resistance to ciprofloxacin, clindamycin, and erythromycin were frequently reported.

CONCLUSION

The regional CDI burden in Asia is still incompletely documented, seemingly due to low awareness and limited laboratory testing. Despite this apparent under recognition, the current CDI burden highlights the need for broader surveillance and for application of preventative measures against CDI in Asia.

Diversity of binary toxin positive Clostridioides difficile in Korea

The objective of this study is to determine the trend and diversity of binary toxin-positive Clostridioides difficile over 10 years in Korea. Binary toxin-positive strains were selected from a tertiary hospital in Korea in 2009-2018. The multi-locus sequence typing and antibiotic susceptibility test were performed. Among the 3278 isolates in 2009-2018, 58 possessed binary toxin genes (1.7%). The proportion of CDT- positive isolates was 0.51-4.82% in 2009-2018, which increased over the 10-year period (P = 0.023). Thirteen sequence types (STs) were identified; ST5 (14 [24%]), ST11 (11 [19%]), ST221 (10 [17%]), ST201 (7 [12%]) and ST1 (5 [9%]) were popular. All 58 isolates were susceptible to vancomycin and piperacillin/tazobactam, and clindamycin and moxifloxacin were active in 69.0% and 62% of isolates, respectively. ST1 strains were resistant to several antibiotics, including moxifloxacin (80%), clindamycin (60%) and rifaximin (60%). Moreover, four of five ST1 presented a metronidazole minimum inhibitory concentration of 4 µg/mL. Moxifloxacin resistance was highest (72.3%) for ST11. In conclusion, binary toxin-positive strains are non-prevalent in Korea and involve diverse STs. ST1 strains were resistant to several antibiotics.

Antibiotic Resistance and Biofilm Production Capacity in Clostridioides difficile

Background

Clostridioides difficile (C. difficile) is one of the primary pathogens responsible for infectious diarrhea. Antibiotic treatment failure, occurring in about 30% of patients, and elevated rates of antibiotic resistance pose a major challenge for therapy. Reinfection often occurs by isolates that produce biofilm, a protective barrier impermeable to antibiotics. We explored the association between antibiotic resistance (in planktonic form) and biofilm-production in 123 C. difficile clinical isolates.

Results

Overall, 66 (53.6%) out of 123 isolates produced a biofilm, with most of them being either a strong (44%) or moderate (34.8%) biofilm producers. When compared to susceptible isolates, a statistically higher percentage of isolates with reduced susceptibility to metronidazole or vancomycin were biofilm producers (p < 0.0001, for both antibiotics). Biofilm production intensity was higher among tolerant isolates; 53.1% of the metronidazole-susceptible isolates were not able to produce biofilms, and only 12.5% were strong biofilm-producers. In contrast, 63% of the isolates with reduced susceptibility had a strong biofilm-production capability, while 22.2% were non-producers. Among the vancomycin-susceptible isolates, 51% were unable to produce biofilms, while all the isolates with reduced vancomycin susceptibility were biofilm-producers. Additionally, strong biofilm production capacity was more common among the isolates with reduced vancomycin susceptibility, compared to susceptible isolates (72.7% vs. 18.8%, respectively). The distribution of biofilm capacity groups was statistically different between different Sequence-types (ST) strains (p =0.001). For example, while most of ST2 (66.7%), ST13 (60%), ST42 (80%) isolates were non-producers, most (75%) ST6 isolates were moderate producers and most of ST104 (57.1%) were strong producers.

Conclusions

Our results suggest an association between reduced antibiotic susceptibility and biofilm production capacity. This finding reinforces the importance of antibiotic susceptibility testing, mainly in recurrence infections that may be induced by a strain that is both antibiotic tolerant and biofilm producer. Better adjustment of treatment in such cases may reduce recurrences rates and complications. The link of biofilm production and ST should be further validated; if ST can indicate on isolate virulence, then in the future, when strain typing methods will be more available to laboratories, ST determination may aid in indecision between supportive vs. aggressive treatment.

Microbiological features, epidemiology, and clinical presentation of Clostridioidesdifficile strains from MLST Clade 2: A narrative review

Clostridioides difficile is an emerging One Health pathogen and a common etiologic agent of diarrhea, both in healthcare settings and the community. This bacterial species is highly diverse, and its global population has been classified in eight clades by multilocus sequence typing (MLST). The C. difficile MLST Clade 2 includes the NAP1/RT027/ST01 strain, which is highly recognized due to its epidemicity and association with severe disease presentation and mortality. By contrast, the remaining 83 sequence types (STs) that compose this clade have received much less attention. In response to this shortcoming, we reviewed articles published in English between 1999 and 2020 and collected information for 27 Clade 2 STs, with an emphasis on STs 01, 67, 41 and 188/231/365. Our analysis provides evidence of large phenotypic differences that preclude support of the rather widespread notion that ST01 and Clade 2 strains are "hypervirulent". Moreover, it revealed a profound lack of (meta)data for nearly 70% of the Clade 2 STs that have been identified in surveillance efforts. Targeted studies aiming to relate wet-lab and bioinformatics results to patient and clinical parameters should be performed to gain a more in-depth insight into the biology of this intriguing group of C. difficile isolates.

In vivo animal models confirm an increased virulence potential and pathogenicity of the NAP1/RT027/ST01 genotype within the Clostridium difficile MLST Clade 2

Background

Based on MLST analyses the global population of C. difficile is distributed in eight clades, of which Clade 2 includes the “hypervirulent” NAP1/RT027/ST01 strain along with various unexplored sequence types (STs).

Methods

To clarify whether this clinically relevant phenotype is a widespread feature of C. difficile Clade 2, we used the murine ileal loop model to compare the in vivo pro-inflammatory (TNF-α, IL-1β, IL-6) and oxidative stress activities (MPO) of five Clade 2 clinical C. difficile isolates from sequence types (STs) 01, 41, 67, and 252. Besides, we infected Golden Syrian hamsters with spores from these strains to determine their lethality, and obtain a histological evaluation of tissue damage, WBC counts, and serum injury biomarkers (LDH, ALT, AST, albumin, BUN, creatinine, Na⁺, and Cl⁻). Genomic distances were calculated using Mash and FastANI to explore whether the responses were dictated by phylogeny.

Results

The ST01 isolate tested ranked first in all assays, as it induced the highest overall levels of pro-inflammatory cytokines, MPO activity, epithelial damage, biochemical markers, and mortality measured in both animal models. Statistically indistinguishable or rather similar outputs were obtained for a ST67 isolate in tests such as tissue damage, neutrophils count, and lethal activity. The results recorded for the two ST41 isolates tested were of intermediate magnitude and the ST252 isolate displayed the lowest pathogenic potential in all animal experiments. This ordering matched the genomic distance of the ST01 isolate to the non-ST01 isolates.

Conclusions

Despite their close phylogenic relatedness, our results demonstrate differences in pathogenicity and virulence levels in Clade 2 C. difficile strains, confirm the high severity of infections caused by the NAP1/RT027/ST01 strain, and highlight the importance of C. difficile typing.

Draft Genome Sequence of a Clostridioides difficile Sequence Type 97 Strain Belonging to Hypervirulent Clade 2

Clostridioides difficile hypervirulent clade 2 lineages are the major lineages responsible for the outbreaks in North America and Europe. However, the genome sequences of Japanese isolates are scarcely available. Herein, we report the draft genome sequence of C. difficile strain TMD0138 sequence type 97 (ST97), belonging to hypervirulent clade 2, isolated in Japan.

Clostridioides difficile hypervirulent clade 2 lineages are the major lineages responsible for the outbreaks in North America and Europe. However, the genome sequences of Japanese isolates are scarcely available. Herein, we report the draft genome sequence of C. difficile strain TMD0138 sequence type 97 (ST97), belonging to hypervirulent clade 2, isolated in Japan.