Time for Some Group Therapy: Update on Identification, Antimicrobial Resistance, Taxonomy, and Clinical Significance of the Bacteroides fragilis Group

Clinical Outcomes and Molecular Characteristics of Bacteroides fragilis Infections

Bacteroides fragilis is the most common opportunistic anaerobic pathogen. In the absence of appropriate antimicrobial therapy, mortality rates associated with B. fragilis group infections can reach as high as 50%. Therefore, we aimed to elucidate the clinical characteristics and outcomes of B. fragilis infections and the molecular genetic characteristics of B. fragilis isolates. Forty B. fragilis clinical isolates were collected at Hanyang University Hospital between January 2022 and December 2023. Antimicrobial susceptibility was tested using the agar dilution method. Whole-genome sequencing was conducted using the Illumina platform (Illumina, San Diego, CA, USA). Various multilocus sequence types of B. fragilis were identified, including ST149 (N=4), ST11 (N=4), ST1 (N=3), ST21 (N=2), and ST157 (N=1). The insertion sequence (IS) IS1187, located upstream of cfiA, was associated with high-level carbapenem resistance in the ST157 isolate. B. fragilis toxin genes (bft ) were identified in 30% of isolates. The most common comorbidities were diabetes mellitus (26.5%) and non-metastatic cancer (23.5%). Five patients (14.7%) died within 30 days, and two (5.9%) deaths were directly attributable to B. fragilis infection. The emergence of high-level MIC carbapenem-resistant B. fragilis ST157 has led to caution in the presence of B. fragilis infections.

Free fatty acid receptor 4 modulates dietary sugar preference via the gut microbiota

Sugar preference is a key contributor to the overconsumption of sugar and the concomitant increase in the incidence of diabetes. However, the exact mechanism of its development remains ambiguous. Here we show that the expression of free fatty acid receptor Ffar4, a receptor for long-chain fatty acids, is decreased in patients and mouse models with diabetes, which is associated with high sugar intake. Deletion of intestinal Ffar4 in mice resulted in reduced gut Bacteroides vulgatus and its metabolite pantothenate, leading to dietary sugar preference. Pantothenate promoted the secretion of GLP-1 which inhibited sugar preference by stimulating hepatic FGF21 release, which in turn regulates energy metabolism. These findings uncover a previously unappreciated role of Ffar4 in negatively regulating sugar preference and suggest B. vulgatus-derived pantothenate as a potential therapeutic target for diabetes.

Chlorine and UV combination sequence: Effects on antibiotic resistance control and health risks of ARGs

The effective control of antibiotic resistance in aquatic environments is urgent. The combined chlorine and UV processes (Cl2-UV, UV/Cl2, and UV-Cl2) are considered potential control processes for controlling antibiotic resistance. This study compared the effectiveness of these three processes in real water bodies and the potential health risks associated with antibiotic resistance genes (ARGs) after treatments. The removal of various antibiotic-resistant bacteria (ARB) and ARGs by the combined processes was analysed. The UV/Cl2 process was less effective than the others in inactivating β-lactam-resistant bacteria (BRB) and sulfamethoxazole-resistant bacteria (SRB), which are more challenging to remove, though its performance might improve with increased UV fluence. Nevertheless, the UV/Cl2 process showed an advantage in removing ARGs. The absolute abundance of aminoglycoside resistance genes (AmRGs), sulfonamide resistance genes (SRGs), macrolide resistance genes (MRGs), and multidrug efflux-associated ARGs detected after the UV/Cl2 process was relatively low, and this process outperformed the others in removing a greater number of ARGs. Additionally, certain ARGs and bacterial genera were found to be enriched after the combined processes, with lower and more similar abundance levels of ARGs and genera observed after UV/Cl2 and UV-Cl2 processes compared to the Cl2-UV process. Health risk assessments indicated that the Cl2-UV process posed the highest risk, followed by UV/Cl2 and UV-Cl2 processes. Overall, the UV/Cl2 process may offer the most practical advantages for controlling antibiotic resistance.

Genotypic and phenotypic diversity of carbapenem-resistant Bacteroides fragilis strains collected from different clinical origins

OBJECTIVE

Strains of carbapenem-resistant Bacteroides fragilis have frequently emerged in recent years. In China, data on the genotypic and phenotypic characteristics of these antimicrobial-resistant anaerobic bacteria are scarce. Thus, the aim of this study was to characterize clinical isolates of carbapenem-resistant B. fragilis collected from a tertiary hospital in China using whole genome sequencing (WGS), phenotypic susceptibility tests, and a biofilm formation assay.

METHODS

We analyzed 49 B. fragilis strains with different antimicrobial resistance profiles. Antimicrobial susceptibility was determined using the agar dilution method and biofilm formation using a crystal violet assay. Genomic characteristics were analyzed using WGS, and the transcription level of cfiA, which is responsible for carbapenem resistance, was determined using quantitative reverse transcription polymerase chain reaction (PCR). Carbapenem-sensitive isolates were used as controls.

RESULTS

All 49 B. fragilis isolates were biofilm producers and the percentage of carbapenem-resistant isolates was 42.86 % (21/49). The percentage of carbapenem-resistant isolates with medium-to-strong biofilm production ability was significantly lower than that of carbapenem-sensitive isolates (19.1 % vs. 88.9 %, p < 0.01). None of the carbapenem-resistant B. fragilis isolates carried bft. In contrast, 53.6 % (15/28) of the carbapenem-sensitive isolates carried bft, and all of them were fpn(+). All carbapenem-resistant isolates (21/21, 100 %) harbored cfiA and its upstream insertion sequence (IS) element. Three isolates (BF058, BF059, and BF060) carried the IS613 element, which was not immediately adjacent upstream to cfiA but was separated by a 1000-kb sequence encoding vatD. The quantitative PCR assay results revealed the elevated expression of cfiA mRNA among carbapenem-resistant isolates, although the relative expression levels varied greatly among isolates. However, a significant correlation between the relative expression level of cfiA mRNA and phenotypic carbapenem resistance was observed.

CONCLUSIONS

Carbapenem-resistant B. fragilis isolates carried a low frequency of virulence-related genes and showed weaker biofilm formation ability compared with carbapenem-sensitive B. fragilis isolates. CfiA was the dominant mediator of carbapenem resistance in B. fragilis. This study was the first to identify the structural plasticity of the cfiA-IS element, emphasizing the diverse and complex evolution of carbapenem resistance in B. fragilis, which warrants further investigation.

Molecular characterization and antibiotic resistance of clinical Bacteroides and related genera from a tertiary care center in Türkiye (Turkey)

OBJECTIVES

This study was conducted to measure the prevalence of antibiotic resistance, and corresponding resistance genes among Bacteroides and related genera in a tertiary hospital.

METHODS

We examined 138 clinical strains of Bacteroides, Phocaeicola and Parabacteroides species isolated between July 2018 and June 2022. Antibiotic susceptibility tests were conducted using agar dilution. The bft gene and antibiotic resistance genes were targeted by real-time PCR.

RESULTS

Resistance rates of all strains against ampicillin, cefoxitin, piperacillin-tazobactam, meropenem, imipenem, clindamycin, metronidazole, and tigecycline were 97.8 %, 28.3 %, 11.6 %, 7.9 %, 5.1 %, 47.8 %, 0 % and 4.3 %, respectively. Non-fragilis Bacteroidales spp. (NFB) exhibited lower susceptibility rates compared to B. fragilis for cefoxitin, clindamycin, and piperacillin-tazobactam. The prevalence of meropenem resistance was higher in B. fragilis (15.5 %) than in NFB (0 %). Among all strains, the rates of cepA, cfxA, cfiA, ermF, ermG, ermB, nim, linA, mefA, msrSA, tetQ, tetX, tetX1 and bft genes were 42.8 %, 44.9 %, 8.7 %, 44.2 %, 10.9 %, 2.2 %, 0.7 %, 29.0 %, 17.4 %, 7.2 %, 76.1 %, 8.0 %, 37.7 % and 16.7 %, respectively. In five B. fragilis strains, insertion sequences [IS1187(n = 3), ISBf6(n = 1), IS612B(n = 1)] were detected in the upstream region of cfiA. NimE with ISBf6 on plasmid pBFM29b was detected in one B. fragilis strain, intermediate to metronidazole (MIC = 16 μg/mL). ErmF was the most abundant gene responsible for clindamycin resistance. TetQ and tetX1 genes exhibited a higher frequency in strains that were not susceptible to tigecycline (MIC ≥8 μg/ml).

CONCLUSIONS

Monitoring the resistance trends of Bacteroides and related genera is crucial given the observed resistance to all classes of antibiotics and the presence of various resistance mechanisms.

Rapid detection of antimicrobial susceptibility of the Bacteroides fragilis group by flow cytometry: A preliminary study

A total of nine Bacteroides fragilis group strains and B. fragilis ATCC 25285 were studied. Six antibiotics were used in the study. Broth dilution method was used for flow cytometry (FCM) analysis. Cell suspensions with antibiotics and antibiotic-free were stained with thiazole orange and propidium iodide (PI) to differentiate dead/live cells. The percentage of dead and live cells was calculated using FCM device. Cut-off values for antibiotics (26,7 %, 35,5 % and 30,2 % for meropenem, AMC and clindamycin, respectively) were calculated for dead/live cell differentiation. A common cut-off value was calculated for bactericidal and bacteriostatic (31,8 % and 25,7 % respectively). The PI staining ratios of the B. fragilis ATCC 25285 calculated in the MIC ranges for each antibiotic were under the cut-off values calculated with clinical isolates. The cut-off values we calculated are compatible with MBC rather than MIC values. The FCM method is one of the candidate methods for antimicrobial susceptibility testing.

Effect of Bacteroides on Crohn's disease

Crohn's disease (CD), also known as cicatrizing enteritis, is an inflammatory bowel disease that occurs in the distal ileum and right colon of unknown cause and is also called inflammatory bowel disease (IBD) with ulcerative colitis (UC). In recent years, intestinal biota have been confirmed to play a significant role in various gastrointestinal diseases. Studies have found that intestinal microbiota disorders are closely associated with the onset and progression of Crohn's disease. Bacteroidetes, the second largest microbiota in the intestine, are crucial for equilibrium in the microbiota and intestinal environment. Certain Bacteroides can induce the development of Crohn's disease and aggravate intestinal inflammation directly or through their metabolites. Conversely, certain Bacteroides can reduce intestinal inflammation and symptoms of Crohn's disease. This article reviews the effect of several intestinal Bacteroides in the onset and progression of Crohn's disease and their impact on its treatment.

A seemingly considerable increase in antimicrobial resistance in the Bacteroides fragilis group from blood cultures - the second national study in Denmark

BACKGROUND

Bacteroides fragilis group species are the most frequently encountered bacteria involved in anaerobic bacteraemia and associated with high mortality rates. In 2012, we performed the first national study of antimicrobial susceptibility in the B. fragilis group from blood cultures in Denmark.

OBJECTIVES

The purpose of the present study was to compare the antimicrobial susceptibility rates of piperacillin-tazobactam, meropenem, clindamycin and metronidazole in the B. fragilis group from blood cultures in Denmark in 2022 with susceptibility rates from 2012. In addition, we wanted to investigate whether changes to susceptibility was related to the overall use of the specified antimicrobial agents from 2012 to 2022.

METHODS

Antimicrobial susceptibility testing was performed in accordance with EUCAST guidelines using the agar dilution method and the disc diffusion method.

RESULTS

The study showed a seemingly considerable increase in resistance in the B. fragilis group (n = 234) to piperacillin-tazobactam from a reported 8.5% in 2012 to 42.7% in 2022. Resistance towards meropenem also increased from a reported 3.4% to 10.7%. Most of the increase in resistance for piperacillin-tazobactam and meropenem is caused by a recent EUCAST breakpoint change. Metronidazole still has the lowest resistance rate for the B. fragilis group (one isolate, 0.4%) in this study. The sales of piperacillin-tazobactam in the same period revealed a corresponding increase (+130%), whereas meropenem sales were stable.

CONCLUSION

The results underscore the need for timely routine antimicrobial susceptibility testing of B. fragilis group species and questions piperacillin-tazobactam monotherapy as empiric treatment for septic patients with a suspected abdominal source.

Comparison of clinical characteristics, risk factors, and outcomes of patients infected with Bacteroides fragilis group at a tertiary care hospital in central China between 2017 and March 2024

OBJECTIVES

This study aimed to explore the epidemiology, clinical presentation, and risk factors for treatment failure in patients infected with various Bacteroides fragilis group (BFG) species.

METHODS

We analyzed clinical and laboratory data from 178 patients infected with BFG who were admitted to our hospital between 2017 and 2024. We analyzed categorical data using Chi-square and Fisher exact tests, continuous variables using Student's t-tests or Mann-Whitney U-tests, and risk factors using multivariate logistic regression and Pearson's chi-squared tests.

RESULTS

Bacteroides fragilis (69.7 %) and Bacteroides thetaiotaomicron (16.9 %) were the most prevalent species among 178 BFG isolates. Most patients had polymicrobial infections, with the following pathogens isolated from concurrent samples: Escherichia coli, Klebsiella spp., and Enterococcus spp. Intra-abdominal sites were most frequently infected with BFG. Patients aged >50 years and those who had intravascular catheters were infected with more other Bacteroides species than B. fragilis. Admission to an ICU, respiratory, renal and cardiovascular diseases, and chest drainage were associated more often with B. thetaiotaomicron than with B. fragilis. Gastrointestinal diseases, tracheal intubation, and ICU admission were associated more frequently with treatment failure in patients infected with B. fragilis whereas solid cancers, renal disease, multiple organ dysfunction syndrome, and tracheal intubation were more likely to be associated with treatment failure in patients infected with other Bacteroides spp.

CONCLUSIONS

The most prevalent BFG species in the patients were B. fragilis and B. thetaiotaomicron. The demographic characteristics of the patients, underlying diseases, and risk factors for poor clinical outcomes clearly differed among species.

Targeted protein evolution in the gut microbiome by diversity-generating retroelements

Diversity-generating retroelements (DGRs) accelerate evolution by rapidly diversifying variable proteins. The human gastrointestinal microbiota harbors the greatest density of DGRs known in nature, suggesting they play adaptive roles in this environment. We identified >1,100 unique DGRs among human-associated Bacteroides species and discovered a subset that diversify adhesive components of Type V pili and related proteins. We show that Bacteroides DGRs are horizontally transferred across species, that some are highly active while others are tightly controlled, and that they preferentially alter the functional characteristics of ligand-binding residues on adhesive organelles. Specific variable protein sequences are enriched when Bacteroides strains compete with other commensal bacteria in gnotobiotic mice. Analysis of >2,700 DGRs from diverse phyla in mother-infant pairs shows that Bacteroides DGRs are preferentially transferred to vaginally delivered infants where they actively diversify. Our observations provide a foundation for understanding the roles of stochastic, targeted genome plasticity in shaping host-associated microbial communities.

Nontoxigenic Bacteroides fragilis: A double-edged sword

The contribution of commensal microbes to human health and disease is unknown. Bacteroides fragilis (B. fragilis) is an opportunistic pathogen and a common colonizer of the human gut. Nontoxigenic B. fragilis (NTBF) and enterotoxigenic B. fragilis (ETBF) are two kinds of B. fragilis. NTBF has been shown to affect the host immune system and interact with gut microbes and pathogenic microbes. Previous studies indicated that certain strains of B. fragilis have the potential to serve as probiotics, based on their observed relationship with the immune system. However, several recent studies have shown detrimental effects on the host when beneficial gut bacteria are found in the digestive system or elsewhere. In some pathological conditions, NTBF may have adverse reactions. This paper presents a comprehensive analysis of NTBF ecology from the host-microbe perspective, encompassing molecular disease mechanisms analysis, bacteria-bacteria interaction, bacteria-host interaction, and the intricate ecological context of the gut. Our review provides much-needed insights into the precise application of NTBF.

Antimicrobial resistance surveillance of Bacteroides fragilis isolated from blood cultures, Europe, 2022 (ReSuBacfrag)

OBJECTIVES

Bacteroides fragilis is the most frequent cause of anaerobic bacteraemia. Although recent data suggest a rise in antimicrobial resistance (AMR) of this and other anaerobic bacteria, surveillance remains limited due to a lack of both data availability and comparability. However, a newly introduced standardised method for antimicrobial susceptibility testing (AST) of anaerobic bacteria has made larger scale surveillance possible for the first time. The aim of this study was to investigate phenotypic AMR of Bacteroides fragilis isolates from bacteraemia across Europe in 2022.

METHODS

In a multicentre approach, clinical microbiology laboratories in Europe were invited to contribute results of AST for Bacteroides fragilis blood culture isolates (including only the first isolate per patient and year). AST of a selection of four antibiotics was performed locally by participating laboratories in a prospective or retrospective manner, using the new EUCAST disc diffusion method on fastidious anaerobe agar (FAA-HB).

RESULTS

A total of 16 European countries reported antimicrobial susceptibilities in 449 unique isolates of Bacteroides fragilis from blood cultures in 2022. Clindamycin demonstrated the highest resistance rates (20.9%, range 0 - 63.6%), followed by piperacillin-tazobactam (11.1%, 0-54.5%), meropenem (13.4%, 0-45.5%), and metronidazole (1.8%, 0-20.0%), all with wide variation between countries.

CONCLUSION

Considering that the mean resistance rates across Europe were higher than expected for three of the four anti-anaerobic antibiotics under surveillance, both local AST of clinically relevant isolates of Bacteroides fragilis and continued surveillance on an international level is warranted.

Co-occurrence of the cephalosporinase cepA and carbapenemase cfiA genes in a Bacteroides fragilis division II strain, an unexpected finding

BACKGROUND

Bacteroides fragilis, an anaerobic gut bacterium and opportunistic pathogen, comprises two genetically divergent groups (or divisions) at the species level. Differences exist both in the core and accessory genomes and the beta-lactamase genes, with the cephalosporinase gene cepA represented only in division I and the carbapenemase gene cfiA only in division II.

METHODS

Multidrug resistance in a clinical B. fragilis strain was examined by whole-genome sequencing.

RESULTS

Strain CNM20200260 carried the antimicrobial resistance genes cepA, cfiA2, ant(6'), erm(F), mef(En2), est(T), tet(Q) and cat(A), along with 82-Phe mutation in gyrA (together with 47 amino acid changes in gyrA/B and parC/parE). bexA/B and other efflux pump genes were also observed. None of the detected insertion sequences was located upstream of cfiA2. The genome-based taxonomy coefficients (average nucleotide identity, DNA-DNA hybridization similarity and difference in genomic G + C%) with respect to genomes of the strains of B. fragilis division II and the novel species Bacteroides hominis (both cfiA-positive) met the criteria for CNM20200260 to belong to either species (>95%, >70% and <1%, respectively). No such similarity was seen with type strain NCTC 9343 or the representative genome FDAARGOS 1225 of B. fragilis (division I, cfiA-negative). Strain CNM20200260 harboured four out of nine Kyoto Encyclopedia of Genes and Genomes orthologues defined for division I and one of two defined for division II.

CONCLUSIONS

This is the first description of the co-occurrence of cepA and cfiA in a Bacteroides strain, confirming the complexity of the taxonomy of this species.

Gut microbial metabolite targets HDAC3-FOXK1-interferon axis in fibroblast-like synoviocytes to ameliorate rheumatoid arthritis

Rheumatoid arthritis (RA) is an autoimmune disease. Early studies hold an opinion that gut microbiota is environmentally acquired and associated with RA susceptibility. However, accumulating evidence demonstrates that genetics also shape the gut microbiota. It is known that some strains of inbred laboratory mice are highly susceptible to collagen-induced arthritis (CIA), while the others are resistant to CIA. Here, we show that transplantation of fecal microbiota of CIA-resistant C57BL/6J mice to CIA-susceptible DBA/1J mice confer CIA resistance in DBA/1J mice. C57BL/6J mice and healthy human individuals have enriched B. fragilis than DBA/1J mice and RA patients. Transplantation of B. fragilis prevents CIA in DBA/1J mice. We identify that B. fragilis mainly produces propionate and C57BL/6J mice and healthy human individuals have higher level of propionate. Fibroblast-like synoviocytes (FLSs) in RA are activated to undergo tumor-like transformation. Propionate disrupts HDAC3-FOXK1 interaction to increase acetylation of FOXK1, resulting in reduced FOXK1 stability, blocked interferon signaling and deactivation of RA-FLSs. We treat CIA mice with propionate and show that propionate attenuates CIA. Moreover, a combination of propionate with anti-TNF etanercept synergistically relieves CIA. These results suggest that B. fragilis or propionate could be an alternative or complementary approach to the current therapies.

Bacteroides and related species: The keystone taxa of the human gut microbiota

Microbial communities play a significant role in maintaining ecosystems in a healthy homeostasis. Presently, in the human gastrointestinal tract, there are certain taxonomic groups of importance, though there is no single species that plays a keystone role. Bacteroides spp. are known to be major players in the maintenance of eubiosis in the human gastrointestinal tract. Here we review the critical role that Bacteroides play in the human gut, their potential pathogenic role outside of the gut, and their various methods of adapting to the environment, with a focus on data for B. fragilis and B. thetaiotaomicron. Bacteroides are anaerobic non-sporing Gram negative organisms that are also resistant to bile acids, generally thriving in the gut and having a beneficial relationship with the host. While they are generally commensal organisms, some Bacteroides spp. can be opportunistic pathogens in scenarios of GI disease, trauma, cancer, or GI surgery, and cause infection, most commonly intra-abdominal infection. B. fragilis can develop antimicrobial resistance through multiple mechanisms in large part due to its plasticity and fluid genome. Bacteroidota (formerly, Bacteroidetes) have a very broad metabolic potential in the GI microbiota and can rapidly adapt their carbohydrate metabolism to the available nutrients. Gastrointestinal Bacteroidota species produce short-chain fatty acids such as succinate, acetate, butyrate, and occasionally propionate, as the major end-products, which have wide-ranging and many beneficial influences on the host. Bacteroidota, via bile acid metabolism, also play a role in in colonization-resistance of other organisms, including Clostridioides difficile, and maintenance of gut integrity.

Genomic analyses of Bacteroides fragilis: subdivisions I and II represent distinct species

Introduction. Bacteroides fragilis is a Gram-negative anaerobe that is a member of the human gastrointestinal microbiota and is frequently found as an extra-intestinal opportunistic pathogen. B. fragilis comprises two distinct groups - divisions I and II - characterized by the presence/absence of genes [cepA and ccrA (cfiA), respectively] that confer resistance to β-lactam antibiotics by either serine or metallo-β-lactamase production. No large-scale analyses of publicly available B. fragilis sequence data have been undertaken, and the resistome of the species remains poorly defined.Hypothesis/Gap Statement. Reclassification of divisions I and II B. fragilis as two distinct species has been proposed but additional evidence is required.Aims. To investigate the genomic diversity of GenBank B. fragilis genomes and establish the prevalence of division I and II strains among publicly available B. fragilis genomes, and to generate further evidence to demonstrate that B. fragilis division I and II strains represent distinct genomospecies.Methodology. High-quality (n=377) genomes listed as B. fragilis in GenBank were included in pangenome and functional analyses. Genome data were also subject to resistome profiling using The Comprehensive Antibiotic Resistance Database.Results. Average nucleotide identity and phylogenetic analyses showed B. fragilis divisions I and II represent distinct species: B. fragilis sensu stricto (n=275 genomes) and B. fragilis A (n=102 genomes; Genome Taxonomy Database designation), respectively. Exploration of the pangenome of B. fragilis sensu stricto and B. fragilis A revealed separation of the two species at the core and accessory gene levels.Conclusion. The findings indicate that B. fragilis A, previously referred to as division II B. fragilis, is an individual species and distinct from B. fragilis sensu stricto. The B. fragilis pangenome analysis supported previous genomic, phylogenetic and resistome screening analyses collectively reinforcing that divisions I and II are two separate species. In addition, it was confirmed that differences in the accessory genes of B. fragilis divisions I and II are primarily associated with carbohydrate metabolism and suggest that differences other than antimicrobial resistance could also be used to distinguish between these two species.

Upregulation of the cfiA carbapenemase gene in a Bacteroides fragilis strain by the novel integrative and conjugative element Tn7563

We describe Tn7563, a 31,844-bp integrative and conjugative element (ICE) carrying promoters upregulating the cfiA carbapenemase gene in Bacteroides fragilis strain Tbg-22. Excision and circularization of Tn7563 was demonstrated by PCR. Previously, only insertion sequences (IS) have been shown to carry mobile promoters for cfiA.

Comparative evaluation of MALDI-TOF MS and 16S rRNA gene sequencing for the identification of clinically relevant anaerobic bacteria: critical evaluation of discrepant results

OBJECTIVES

The main study objective was to evaluate the correlation between matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) and 16S rRNA gene sequencing results for the identification of anaerobes.

METHODS

A retrospective study was conducted of all anaerobic bacteria isolated from clinically significant specimens. MALDI-TOF (Bruker Byotyper) and 16S rRNA gene sequencing were performed in all strains. Identifications were considered correct when the concordance with gene sequencing was ≥99%.

RESULTS

The study included 364 isolates of anaerobic bacteria: 201 (55.2%) Gram-negative and 163 (44.8%) Gram-positive, mostly belonging to the genus Bacteroides. Isolates were largely obtained from blood cultures (128/35.4%) and intra-abdominal samples (116/32.1%). Overall, 87.3% of isolates were identified at species level using the version 9 database (89.5% of Gram-negative and 84.6% of Gram-positive anaerobic bacteria). All isolates belonging to the species B. fragilis sensu stricto were correctly identified by MALDI-TOF MS, but five cases of Phocaeicola (Bacteroides) dorei were misidentified as Phocaeicola (Bacteroides) vulgatus; all Prevotella isolates were correctly identified at the genus level, and most were correctly identified at the species level. Among Gram-positive anaerobes, 12 Anaerococcus species were not identified by MALDI-TOF MS, while six cases identified as Peptoniphilus indolicus were found to belong to other genera/species.

CONCLUSIONS

MALDI-TOF is a reliable technique for identifying most anaerobic bacteria, although the database needs frequent updating to identify rare, infrequent, and newly discovered species.

Antimicrobial susceptibility of Bacteroides fragilis group organisms in Hong Kong, 2020-2021

OBJECTIVES

This retrospective study analyzed the susceptibility levels of Bacteroides fragilis group (BFG) in a hospital-based laboratory where disk diffusion test (DDT) was routinely performed. Isolates non-susceptible to imipenem and metronidazole by DDT were further investigated using a gradient method.

METHODS

The DDT and MIC susceptibility data of clindamycin, metronidazole, moxifloxacin and imipenem obtained on Brucella blood agar for 1264 non-duplicated isolates during 2020-2021 were analyzed. Species identification was obtained by matrix-assisted laser desorption ionization time-of-flight mass spectrometry and 16S rRNA sequencing. Interpretative agreement of DDT results using the 2015 EUCAST tentative and 2021 CA-SFM breakpoints was compared against MIC as the reference.

RESULTS

The dataset included 604 B. fragilis (483 division I, 121 division II isolates), 415 non-fragilis Bacteroides, 177 Phocaeicola and 68 Parabacteroides. Susceptibility rates for clindamycin (22.1-62.1%) and moxifloxacin (59.9-80.9%) were low and many had no inhibition zones. At the EUCAST and CA-SFM breakpoints, 83.0 and 89.4% were imipenem-susceptible, and 89.6% and 97.4 were metronidazole-susceptible. MIC testing confirmed 11.4% and 2.8% isolates as imipenem-non-susceptible and metronidazole-resistant, respectively. Significant numbers of false-susceptibility and/or false-resistance results were observed at the CA-SFM breakpoint but not the EUCAST breakpoint. Higher rates of imipenem and/or metronidazole resistance were detected in B. fragilis division II, B. caccae, B. ovatus, B. salyersiae, B. stercoris and Parabacteroides. Co-resistance to imipenem and metronidazole was detected in 3 B. fragilis division II isolates.

CONCLUSIONS

The data demonstrated emerging BFG resistance to several important anti-anaerobic antibiotics and highlights the importance of anaerobic susceptibility testing in clinical laboratories to guide therapy.

Roving methyltransferases generate a mosaic epigenetic landscape and influence evolution in Bacteroides fragilis group

Three types of DNA methyl modifications have been detected in bacterial genomes, and mechanistic studies have demonstrated roles for DNA methylation in physiological functions ranging from phage defense to transcriptional control of virulence and host-pathogen interactions. Despite the ubiquity of methyltransferases and the immense variety of possible methylation patterns, epigenomic diversity remains unexplored for most bacterial species. Members of the Bacteroides fragilis group (BFG) reside in the human gastrointestinal tract as key players in symbiotic communities but also can establish anaerobic infections that are increasingly multi-drug resistant. In this work, we utilize long-read sequencing technologies to perform pangenomic (n = 383) and panepigenomic (n = 268) analysis of clinical BFG isolates cultured from infections seen at the NIH Clinical Center over four decades. Our analysis reveals that single BFG species harbor hundreds of DNA methylation motifs, with most individual motif combinations occurring uniquely in single isolates, implying immense unsampled methylation diversity within BFG epigenomes. Mining of BFG genomes identified more than 6000 methyltransferase genes, approximately 1000 of which were associated with intact prophages. Network analysis revealed substantial gene flow among disparate phage genomes, implying a role for genetic exchange between BFG phages as one of the ultimate sources driving BFG epigenome diversity.

Antimicrobial susceptibility testing of Bacteroides species by disk diffusion: The NordicAST Bacteroides study

OBJECTIVES

- Antimicrobial susceptibility testing (AST) of anaerobic bacteria has until recently been done by MIC methods. We have carried out a multi-centre evaluation of the newly validated EUCAST disk diffusion method for AST of Bacteroides spp.

METHODS

- A panel of 30 Bacteroides strains was assembled based on reference agar dilution MICs, resistance gene detection and quantification of cfiA carbapenemase gene expression. Nordic clinical microbiology laboratories (n = 45) performed disk diffusion on Fastidious Anaerobe Agar with 5% mechanically defibrinated horse blood (FAA-HB) for piperacillin-tazobactam, meropenem and metronidazole.

RESULTS

- A total of 43/45 (95.6%) laboratories carried out disk diffusion per protocol. Intraclass correlation coefficients were 0.87 (0.80-0.93) for piperacillin-tazobactam, 0.95 (0.91-0.97) for meropenem and 0.89 (0.83-0.94) for metronidazole. For metronidazole, one media lot yielded smaller zones and higher variability than another. Piperacillin-tazobactam and meropenem zone diameters correlated negatively with cfiA expression. A meropenem zone diameter of <28 mm in B. fragilis indicated presence of cfiA. Piperacillin-tazobactam had the most false susceptible results. Categorical errors for this antimicrobial were particularly prevalent in cfiA-positive strains, and piperacillin-tazobactam had the highest number of comments describing zone reading difficulties.

CONCLUSIONS

- Inter-laboratory agreement by disk diffusion was good or very good. The main challenges were media-related variability for metronidazole and categorical disagreement with the reference method for piperacillin-tazobactam in some cfiA-positive strains. An area of technical uncertainty specific for such strains may be warranted.