Identification of Haemophilus influenzae serotype e strains missing the fucK gene in clinical isolates from Japan

Comparison of gene-by-gene and genome-wide short nucleotide sequence-based approaches to define the global population structure of Streptococcus pneumoniae

Defining the population structure of a pathogen is a key part of epidemiology, as genomically related isolates are likely to share key clinical features such as antimicrobial resistance profiles and invasiveness. Multiple different methods are currently used to cluster together closely related genomes, potentially leading to inconsistency between studies. Here, we use a global dataset of 26 306 Streptococcus pneumoniae genomes to compare four clustering methods: gene-by-gene seven-locus MLST, core genome MLST (cgMLST)-based hierarchical clustering (HierCC) assignments, life identification number (LIN) barcoding and k-mer-based PopPUNK clustering (known as GPSCs in this species). We compare the clustering results with phylogenetic and pan-genome analyses to assess their relationship with genome diversity and evolution, as we would expect a good clustering method to form a single monophyletic cluster that has high within-cluster similarity of genomic content. We show that the four methods are generally able to accurately reflect the population structure based on these metrics and that the methods were broadly consistent with each other. We investigated further to study the discrepancies in clusters. The greatest concordance was seen between LIN barcoding and HierCC (adjusted mutual information score=0.950), which was expected given that both methods utilize cgMLST, but have different methods for defining an individual cluster and different core genome schema. However, the existence of differences between the two methods shows that the selection of a core genome schema can introduce inconsistencies between studies. GPSC and HierCC assignments were also highly concordant (AMI=0.946), showing that k-mer-based methods which use the whole genome and do not require the careful selection of a core genome schema are just as effective at representing the population structure. Additionally, where there were differences in clustering between these methods, this could be explained by differences in the accessory genome that were not identified in cgMLST. We conclude that for S. pneumoniae, standardized and stable nomenclature is important as the number of genomes available expands. Furthermore, the research community should transition away from seven-locus MLST, whilst cgMLST, GPSC and LIN assignments should be used more widely. However, to allow for easy comparison between studies and to make previous literature relevant, the reporting of multiple clustering names should be standardized within the research.

Multiple interspecies recombination events documented by whole-genome sequencing in multidrug-resistant Haemophilus influenzae clinical isolates

Introduction

Haemophilus influenzae (Hi) was long known as an easy-to-treat bacterium, but increasing resistance against beta-lactams and other critically important antibiotics is now a growing concern. We describe here the whole-genome sequencing (WGS) analysis of three non-typeable Hi isolates received in 2018-2019 by the Belgian National Reference Centre (NRC) for Haemophilus influenzae, as they presented an unusual multi-resistant profile.

Methods

All three isolates were sequenced by WGS and mapped to the reference isolate Hi Rd KW20. Shorten uptake signal sequences (USSs) known to be associated with homologous recombination were sought in ftsI, murE and murF genes, and inner partial sequences were compared against the blast nucleotide database to look for similarity with other Haemophilus species. Their antimicrobial resistance (AMR) genotype was studied. Core-genome multilocus sequence typing (MLST) was performed on the NTHi database pubMLST to place our isolates in the actual worldwide epidemiology.

Results

The isolates also harboured interspecies recombination patterns in the murF-murE-ftsI region involved in cell wall synthesis. The three isolates were multidrug resistant and two of them were also resistant to amoxicillin-clavulanic acid and showed a reduced susceptibility to meropenem. All three isolates belonged to the MLST clonal complex (CC) 422, and WGS revealed that the three were very similar. They harboured mobile genetic elements (carrying blaTEM-1B, mefA and msrD genes associated with resistance), mutations in gyrA and parC linked to fluoroquinolone resistance as well as remodelling events in ompP2 that might be related to lower carbapenem susceptibility.

Conclusion

The Hi evolution towards antimicrobial multiresistance (AMR) is a complex and poorly understood phenomenon, although probably linked to a large degree to the presence of USSs and exchange within the family Pasteurellaceae. To better understand the respective roles of clonal expansion, horizontal gene transfers, spontaneous mutations and interspecies genetic rearrangements in shaping Hi AMR, both analysis of Hi communities over time within individuals and worldwide monitoring of non-typeable Hi causing infections should be conducted.

Emergence of Haemophilus influenzae with low susceptibility to quinolones isolated from pediatric patients in Japan

INTRODUCTION

In 2010, oral fluoroquinolone tosufloxacin (TFX) granules were released as the first oral respiratory quinolone for children in Japan.

METHODS

To investigate the recent trend of H. influenzae strains with low susceptibility to quinolones in children, we analyzed the gene sequences of quinolone resistance-determining regions (QRDRs) of gyrA, gyrB, parC, and parE of 23 clinical isolates from 15 patients aged <15 years with an MIC of ≥0.5 μg/mL for TFX from 2010 to 2018.

RESULTS

Amino acid substitutions were observed in both GyrA and ParC in 13 strains (81%, 13/16), except two strains with a TFX MIC of 0.5 μg/mL with amino acid substitution in only GyrA and one strain with a TFX MIC of 1 μg/mL with no amino acid substitution. Four ST422 strains were observed in 2018, the detection age range was wide (0-7 years), and the residential city was varied. A total of 3/15 patients had a clear history of TFX treatment.

CONCLUSIONS

Even for the strain with an MIC of 0.5 μg/mL for TFX, it is highly possible that it harbors a mutation in gyrA, which is the first step toward quinolone resistance, and it may also harbor mutations in both gyrA and parC. Furthermore, several specific sequence type quinolone-resistant H. influenzae strains, particularly ST422, may be widespread among children in Japan. It is necessary to investigate changes in resistance both at the MIC and gene levels. The continuous monitoring of strains and the use of antimicrobial drugs in treatment should be carefully observed.

Complete Genome Sequence of a Japanese Clinical Isolate of Haemophilus influenzae Type a Strain TAMBA230

Haemophilus influenzae causes severe infections such as pneumonia and meningitis. Here, we report the complete genome of H. influenzae type a strain TAMBA230, which was isolated in 2019 from a patient exhibiting bacteremia. This represents the first case in Japan of a H. influenzae type a strain associated with invasive infection.

Haemophilus influenzae causes severe infections such as pneumonia and meningitis. Here, we report the complete genome of H. influenzae type a strain TAMBA230, which was isolated in 2019 from a patient exhibiting bacteremia. This represents the first case in Japan of an H. influenzae type a strain associated with invasive infection.

Emergence of a clone of invasive fucK-negative serotype e Haemophilus influenzae in British Columbia

BACKGROUND

Introduction of the Haemophilus influenzae serotype b (Hib) conjugate vaccine has changed the epidemiology of invasive H. influenzae disease, with most infections now caused by non-typeable (non-encapsulated) and non-Hib encapsulated strains.

METHODS

We describe nine invasive serotype e H. influenzae (Hie) from British Columbia that were determined to have complete deletion of their fucose operon genes. These nine isolates were recovered from blood cultures of three female and six male patients during 2011-2018, with eight recovered in the past 4 years.

RESULTS

All nine isolates were biotype IV, with eight showing identical pulsed field gel electrophoresis (PFGE) profiles, whereas the ninth showed 95% similarity. PFGE analysis also showed these fucose operon-negative Hie to be most (94%) similar to the multi-locus sequence type (ST)-18, the most common ST among Hie in British Columbia. These nine fucose operon-negative Hie represented 27.3% of the 33 invasive Hie isolated in British Columbia from 2010 to 2018.

CONCLUSION

Deletion of the fucose operon did not appear to impact the transmission ability of these strains or their ability to cause invasive disease.