Unveiling the genome of a high-risk pandrug-resistant Klebsiella pneumoniae emerging in the Brazilian Amazon Region, 2022.

BACKGROUND: Pandrug-resistant (PDR) Klebsiella pneumoniae has been reported sporadically in many countries and remains rare in Brazil. OBJECTIVES: This study unravelled the genetic determinants involved with the PDR background of a clinical ST11 K. pneumoniae recovered in the Brazilian Amazon Region, where K. pneumoniae genomic and epidemiological information is scarce. METHODS: Kp196 was submitted to the antimicrobial susceptibility test by the disk-diffusion method and minimum inhibitory concentration (MIC) determination. The whole genome sequencing was obtained and the sequence type was determined by core genome multilocus sequence typing (cgMLST). Its intrinsic and acquired resistome was assessed by Comprehensive Antibiotic Resistance Database (CARD) and comparison with wild-type genes. FINDINGS: The analyses revealed that Kp196 belonged to the pandemic ST11 and presented the PDR phenotype. Its acquired resistome was composed of a huge set of clinically relevant resistance determinants, including bla CTX-M-15 and bla NDM-1, all found in the vicinity of mobile platforms. Considering its intrinsic resistome, the multidrug resistance, especially to colistin, tigecycline and fluoroquinolones, was multifactorial and attributed to modifications (indels, missense mutations, and gene disruption) in several housekeeping genes (arnT/phoQ/mgrB/ramR/acrB/gyrA/parC/ompK35-36-37). The Kp196 intrinsic resistome was also observed in a ST11 environmental strain, although harbouring distinct acquired resistomes. CONCLUSIONS: An accumulation of different resistance mechanisms regarding the intrinsic resistome accounts for a more stable resistome, strongly contributing to the Kp196 PDR phenotype.

Outbreak of high-risk XDR CRAB of international clone 2 (IC2) in Rio Janeiro, Brazil.

OBJECTIVES: Among the high-risk clones of Acinetobacter baumannii, called international clones (ICs), IC2 represents the main lineage causing outbreaks worldwide. Despite the successful global spread of IC2, the occurrence of IC2 is rarely reported in Latin America. Here, we aimed to evaluate the susceptibility and genetic relatedness of isolates from a nosocomial outbreak in Rio de Janeiro/Brazil (2022) and perform genomic epidemiology analyses of the available genomes of A. baumannii. METHODS: Sixteen strains of A. baumannii were subjected to antimicrobial susceptibility tests and genome sequencing. These genomes were compared phylogenetically with other IC2 genomes from the NCBI database, and virulence and antibiotic resistance genes were searched. RESULTS: The 16 strains represented carbapenem-resistant A. baumannii (CRAB) with an extensively drug-resistant profile. In silico analysis established the relationship between the Brazilian CRAB genomes and IC2/ST2 genomes in the world. The Brazilian strains belonged to three sub-lineages, associated with genomes from countries in Europe, North America, and Asia. These sub-lineages presented three distinct capsules, KL7, KL9, and KL56. The Brazilian strains were characterised by the co-presence of blaOXA-23 and blaOXA-66, in addition to the genes APH(6), APH(3"), ANT(3"), AAC(6'), armA, and the efflux pumps adeABC and adeIJK. A large set of virulence genes was also identified: adeFGH/efflux pump; the siderophores barAB, basABCDFGHIJ, and bauBCDEF; lpxABCDLM/capsule; tssABCDEFGIKLM/T6SS; and pgaABCD/biofilm. CONCLUSION: Widespread extensively drug-resistant CRAB IC2/ST2 is currently causing outbreaks in clinical settings in southeastern Brazil. This is due to at least three sub-lineages characterised by an enormous apparatus of virulence and resistance to antibiotics, both intrinsic and mobile.

Unveiling the genome of a high-risk pandrug-resistant Klebsiella pneumoniae emerging in the Brazilian Amazon Region, 2022

BACKGROUND Pandrug-resistant (PDR) Klebsiella pneumoniae has been reported sporadically in many countries and remains rare in Brazil. OBJECTIVES This study unravelled the genetic determinants involved with the PDR background of a clinical ST11 K. pneumoniae recovered in the Brazilian Amazon Region, where K. pneumoniae genomic and epidemiological information is scarce. METHODS Kp196 was submitted to the antimicrobial susceptibility test by the disk-diffusion method and minimum inhibitory concentration (MIC) determination. The whole genome sequencing was obtained and the sequence type was determined by core genome multilocus sequence typing (cgMLST). Its intrinsic and acquired resistome was assessed by Comprehensive Antibiotic Resistance Database (CARD) and comparison with wild-type genes. FINDINGS The analyses revealed that Kp196 belonged to the pandemic ST11 and presented the PDR phenotype. Its acquired resistome was composed of a huge set of clinically relevant resistance determinants, including bla CTX-M-15 and bla NDM-1, all found in the vicinity of mobile platforms. Considering its intrinsic resistome, the multidrug resistance, especially to colistin, tigecycline and fluoroquinolones, was multifactorial and attributed to modifications (indels, missense mutations, and gene disruption) in several housekeeping genes (arnT/phoQ/mgrB/ramR/acrB/gyrA/parC/ompK35-36-37). The Kp196 intrinsic resistome was also observed in a ST11 environmental strain, although harbouring distinct acquired resistomes. CONCLUSIONS An accumulation of different resistance mechanisms regarding the intrinsic resistome accounts for a more stable resistome, strongly contributing to the Kp196 PDR phenotype.

Emergence of extensively drug-resistant international clone IC-6 Acinetobacter baumannii carrying blaOXA-72 and blaCTX-M-115 in the Brazilian Amazon region.

OBJECTIVES: The extensively drug-resistant (XDR) Acinetobacter baumannii international clone VI (IC-6) has been identified worldwide since 2006. This study reports the emergence of IC-6 in the Brazilian Amazon region and reveals the particular genomic features considering its mobilome and resistome. METHODS: A total of 32 carbapenem-resistant A. baumannii strains recovered from Boa Vista city (Roraima, Brazil) in 2016 were characterised by pulsed-field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). The whole genome sequences of the Brazilian IC-6 strains were obtained. The mobilome and resistome were assessed by in silico analyses. RESULTS: PFGE and MLST demonstrated that the 32 A. baumannii strains belonged to four clones. One XDR clone corresponded to the high-risk pandemic IC-6 lineage from ST944Oxf/78Pas. The IC-6 resistome was composed of aadA5, aac(3'')-IIa, aph(3')-Ia, armA, aadB, msrE, blaTEM-1, IS15DIV-blaCTX-M-115-IS15DIV, blaOXA-90, ISAba1-blaADC-152, blaOXA-72, qacEΔ1 and sul1. Mobilome prediction revealed that blaOXA-72 was embedded in a 15.5-kb plasmid and that it was flanked by putative XerC/D-binding sites, possibly involved in blaOXA-72 mobilisation. Several resistance genes were in a 48-kb multidrug resistance genomic island inserted in the chromosome, which also harboured genes involved in host pathogenicity and adaptive traits. Interestingly, the Brazilian strains shared the blaOXA-72 and blaCTX-M-115 with IC-6/ST944Oxf/78Pas recovered in a distinct spatiotemporal context, pointing to an epidemiological link among them. CONCLUSION: This study highlights the importance of surveillance of XDR A. baumannii strains, even outside of densely populated cosmopolitan regions, to reveal the epidemiology of pandemic lineages, stressing their threat to public health.

Complete plasmid sequence carrying type IV-like and type VII secretion systems from an atypical mycobacteria strain

The genus Mycobacterium is highly diverse and ubiquitous in nature, comprehending fast- and slow-growing species with distinct impact in public health. The plasmid-mediated horizontal gene transfer represents one of the major events in bacteria evolution. Here, we report the complete sequence of a 160,489 bp circular plasmid (pCBMA213_2) from an atypical and fast-growing environmental mycobacteria. This is a unique plasmid, in comparison with the characterised mycobacteria plasmids, harboring a type IV-like and ESX-P2 type VII secretion systems. pCBMA213_2 can be further explored for evolutionary and conjugation studies as well as a tool to manipulate DNA within this bacteria genus.

The invasive MenC cc103 lineage with penicillin reduced susceptibility persisting in Brazil.

Penicillin is the antibiotic of choice for the treatment of meningococcal infections, and mutations in penA gene are involved with reduced susceptibility (penI) emergence to this antibiotic. This study aimed to characterize the penA allelic diversity, their association with penI phenotype and distribution among prevalent meningococci serogroups in Brazil. The entire penA from 49 invasive strains of distinct serogroups circulating in Brazil for more than two decades were obtained by PCR and sequencing. Additionally, the penA from 22 publicly available complete Neisseria meningitidis genomes from Brazil were included in the study. The allelic diversity was determined and a genetic tree was built using the penA sequence alignment. The penicillin MIC was obtained by the E-Test method. In general, the identified penA alleles correlated with the observed penI phenotype. The canonical penA1 was the most prevalent allele, however, several altered penA were also identified in strains presenting increased penicillin MICs. It was identified a new penA amino acid position (residue 480) that possibly influence the penicillin MIC in some strains. Interestingly, the altered penA14 was found in penI invasive MenC cc103 strains spread in Brazil and persisting since 2011, indicating that the biological cost imposed by penI phenotype can be ameliorated by particular features present in this lineage, which represents an additional public health threat.

Complete plasmid sequence carrying type IV-like and type VII secretion systems from an atypical mycobacteria strain.

The genus Mycobacterium is highly diverse and ubiquitous in nature, comprehending fast- and slow-growing species with distinct impact in public health. The plasmid-mediated horizontal gene transfer represents one of the major events in bacteria evolution. Here, we report the complete sequence of a 160,489 bp circular plasmid (pCBMA213_2) from an atypical and fast-growing environmental mycobacteria. This is a unique plasmid, in comparison with the characterised mycobacteria plasmids, harboring a type IV-like and ESX-P2 type VII secretion systems. pCBMA213_2 can be further explored for evolutionary and conjugation studies as well as a tool to manipulate DNA within this bacteria genus.

Three outbreak-causing Neisseria meningitidis serogroup C clones, Brazil(1.).

During 2003-2012, 8 clusters of meningococcal disease were identified in Rio de Janeiro State, Brazil, all caused by serogroup C Neisseria meningitidis. The isolates were assigned to 3 clonal complexes (cc): cc11, cc32, and cc103. These hyperinvasive disease lineages were associated with endemic disease, outbreaks, and high case-fatality rates.

Carbapenem-resistant Acinetobacter baumannii from Brazil: role of carO alleles expression and blaOXA-23 gene.

BACKGROUND: Carbapenems are the antibiotics of choice to treat infections caused by Acinetobacter baumannii, and resistance to this class can be determined by loss of membrane permeability and enzymatic mechanisms. Here, we analyzed the basis of carbapenem resistance in clinical A. baumannii isolates from different Brazilian regions. RESULTS: The analyses addressed the carbapenemase activity of OXA-23, CarO expression and alterations in its primary structure. Susceptibility test revealed that the strains presented the COS (Colistin-Only-Sensitive) profile. PCR and sequencing showed the presence of the chromosomally-encoded blaOXA-51 in all isolates. The majority of strains (53%) carried the carbapenemase blaOXA-23 gene associated with ISAba1. The Hodge test indicated that these strains are carbapenemase producers. PFGE revealed 14 genotypes among strains from Rio de Janeiro and Maranhão. The influence of carO on imipenem resistance was evaluated considering two aspects: the composition of the primary amino acid sequence; and the expression level of this porin. Sequencing and in silico analyses showed the occurrence of CarOa, CarOb and undefined CarO types, and Real Time RT-PCR revealed basal and reduced carO transcription levels among isolates. CONCLUSIONS: We concluded that, in general, for these Brazilian isolates, the major carbapenem resistance mechanism was due to OXA-23 carbapenemase activity and that loss of CarO porin plays a minor role in this phenotype. However, it was possible to associate the carO alleles and their expression with imipenem resistance. Therefore, these findings underline the complexity in addressing the role of different mechanisms in carbapenem resistance and highlight the possible influence of CarO type in this phenotype.

Characterizing the microbiota across the gastrointestinal tract of a Brazilian Nelore steer.

The gastrointestinal tracts (GIT) of herbivores harbor dense and diverse microbiota that has beneficial interactions with the host, particularly for agriculturally relevant animals like ruminants such as cattle. When assessing ruminant health, microbiological indicators are often derived from the rumen or feces. However, it is probable that ruminal and fecal microbiota do not reflect the microbial communities within the GIT of ruminants. To test this, we investigated the compartments of the GIT from a Brazilian Nelore steer and performed a 16S rRNA pyrosequencing analysis on the collected samples. Our results showed high intra-individual variation, with samples clustering according to their location in the GIT including the forestomach, small intestine, and large intestine. Although sequences related to the phyla Firmicutes and Bacteroidetes predominated all samples, there was a remarkable variation at the family level. Comparisons between the microbiota in the rumen, feces, and other GIT components showed distinct differences in microbial community. This work is the first intensive non-culture based GIT microbiota analysis for any ruminant and provides a framework for understanding how host microbiota impact the health of bovines.

Cholera outbreaks in Nigeria are associated with multidrug resistant atypical El Tor and non-O1/non-O139 Vibrio cholerae.

BACKGROUND: The current millennium has seen a steep rise in the number, size and case-fatalities of cholera outbreaks in many African countries. Over 40,000 cases of cholera were reported from Nigeria in 2010. Variants of Vibrio cholerae O1 El Tor biotype have emerged but very little is known about strains causing cholera outbreaks in West Africa, which is crucial for the implementation of interventions to control epidemic cholera. METHODOLOGY/PRINCIPAL FINDINGS: V. cholerae isolates from outbreaks of acute watery diarrhea in Nigeria from December, 2009 to October, 2010 were identified by standard culture methods. Fifteen O1 and five non-O1/non-O139 strains were analyzed; PCR and sequencing targeted regions associated with virulence, resistance and biotype were performed. We also studied genetic interrelatedness among the strains by multilocus sequence analysis and pulsed-field gel electrophoresis. The antibiotic susceptibility was tested by the disk diffusion method and E-test. We found that multidrug resistant atypical El Tor strains, with reduced susceptibility to ciprofloxacin and chloramphenicol, characterized by the presence of the SXT element, and gyrA(Ser83Ile)/parC(Ser85Leu) alleles as well CTX phage and TCP cluster characterized by rstR(ElTor), ctxB-7 and tcpA(CIRS) alleles, respectively, were largely responsible for cholera outbreaks in 2009 and 2010. We also identified and characterized a V. cholerae non-O1/non-O139 lineage from cholera-like diarrhea cases in Nigeria. CONCLUSIONS/SIGNIFICANCE: The recent Nigeria outbreaks have been determined by multidrug resistant atypical El Tor and non-O1/non-O139 V. cholerae strains, and it seems that the typical El Tor, from the beginning of seventh cholera pandemic, is no longer epidemic/endemic in this country. This scenario is similar to the East Africa, Asia and Caribbean countries. The detection of a highly virulent, antimicrobial resistant lineage in Nigeria is worrisome and points to a need for vaccine-based control of the disease. This study has also revealed the putative importance of non-O1/non-O139 V. cholerae in diarrheal disease in Nigeria.

Vibrio cholerae O1 lineages driving cholera outbreaks during seventh cholera pandemic in Ghana.

In recent years, the frequency of cholera epidemics across Africa has increased significantly with thousands of people dying each year. However, there still exists a lack of information concerning the Vibrio cholerae O1 lineages driving early and contemporary epidemics since the seventh cholera pandemic started in the continent. This compromises the understanding of the forces determining the epidemiology of cholera in Africa and its control. This study aimed to analyze a collection of V. cholerae O1 strains from the beginning of the seventh cholera pandemic in Ghana and to compare them with recent isolates to understand the evolution of the cholera epidemic in Ghana. V. cholerae O1 strains were characterized by means of Multilocus Sequence Analysis (MLSA), genes from the virulence core genome (VCG), and genes related to the choleragenic phenotype. Our results revealed two major clusters of Ghanaian V. cholerae O1 strains, El Tor and Amazonia/Ghana. Concerning the virulence genes, all strains harbored the set of VCG and most were positive for VSP-II genomic island. The ctxB gene of the contemporary strains was characterized as Altered El Tor. The strains from 1970 to 1980 were susceptible to all antibiotics tested, except for the Amazonia/Ghana cluster that was resistant to aminoglycosides and carried the class 2 integron with the sat2-aadA1 arrangement. This study showed that distinct V. cholerae O1 were the determinants of cholera outbreaks in Ghana. Thus, in endemic regions, such as Africa, cholera can be caused by various V. cholerae O1 genotypes.

Coexistence of epidemic colistin-only-sensitive clones of Pseudomonas aeruginosa, including the blaSPM clone, spread in hospitals in a Brazilian Amazon City.

Nosocomial outbreaks caused by multidrug-resistant (MDR) Pseudomonas aeruginosa have been associated to fibrocystic patients and isolates harboring metallo-beta-lactamase (MBL) genes. Genotyping is an important tool for interpreting bacterial nosocomial outbreaks and implementing adequate control strategies. The aim of this study was to evaluate whether an outbreak of MDR P. aeruginosa occurring in different hospitals was due to a unique clone or independent isolates. From 2000 to 2003, 108 P. aeruginosa were recovered from colonized/infected inpatients in hospitals of São Luís, Maranhão, Brazil. The susceptibility test was performed with antipseudomonal drugs, and the presence of MBL genes were verified by PCR. Isolates were genotyped by pulsed-field gel electrophoresis (PFGE). The majority of strains was multiresistant including a great number presenting the colistin-only-sensitive (COS) profile. PFGE analysis revealed 54 genotypes, with predominance of three major COS clones (A, C, and E) coexisting at different moments and hospitals. Clone A harbored the bla(SPM) gene. Eight unique genotypes also had the COS profile. Other eight MDR genotypes presented isolates with differences in resistance profiles. Here we detected, for the first time, the coexistence of COS P.aeruginosa genotypes disseminated in several hospitals during long periods, attacking patients under various clinical conditions.

The Zymovars of Vibrio cholerae: multilocus enzyme electrophoresis of Vibrio cholerae.

Zymovars analysis also known as multilocus enzyme electrophoresis is applied here to investigate the genetic variation of Vibrio cholerae strains and characterise strains or group of strains of medical and epidemiological interest. Fourteen loci were analyzed in 171 strains of non-O1 non-O139, 32 classical and 61 El Tor from America, Africa, Europe and Asia. The mean genetic diversity was 0.339. It is shown that the same O antigen (both O1 and non-O1) may be present in several genetically diverse (different zymovars) strains. Conversely the same zymovar may contain more than one serogroup. It is confirmed that the South American epidemic strain differs from the 7th pandemic El Tor strain in locus LAP (leucyl leucyl aminopeptidase). Here it is shown that this rare allele is present in 1 V. mimicus and 4 non-O1 V. cholerae. Non toxigenic O1 strains from South India epidemic share zymovar 14A with the epidemic El Tor from the 7th pandemic, while another group have diverse zymovars. The sucrose negative epidemic strains isolated in French Guiana and Brazil have the same zymovar of the current American epidemic V. cholerae.

The zymovars of Vibrio cholerae: multilocus enzyme electrophoresis of Vibrio cholerae

Zymovars analysis also known as multilocus enzyme electrophoresis is applied here to investigate the genetic variation of Vibrio cholerae strains and characterise strains or group of strains of medical and epidemiological interest. Fourteen loci were analyzed in 171 strains of non-O1 non-O139, 32 classical and 61 El Tor from America, Africa, Europe and Asia. The mean genetic diversity was 0.339. It is shown that the same O antigen (both O1 and non-O1) may be present in several geneticaly diverse (different zymovars) strains. Conversely the same zymovar may contain more than one serogroup. It is confirmed that the South American epidemic strain differs from the 7th pandemic El Tor strain in locus LAP (leucyl leucyl aminopeptidase). Here it is shown that this rare allele is present in 1 V. mimicus and 4 non-O1 V. cholerae. Non toxigenic O1 strains from South India epidemic share zymovar 14A with the epidemic El Tor from the 7th pandemic, while another group have diverse zymovars. The sucrose negative epidemic strains isolated in French Guiana and Brazil have the same zymovar of the current American epidemic V. cholerae