Molecular characterization of invasive serogroup B Neisseria meningitidis isolates from Spain during 2015-2018: Evolution of the vaccine antigen factor H binding protein (FHbp).

Studies of meningococcal genetic population structure, including the potential associations between surface proteins variants and clonal complexes, are important to understand how new protein MenB vaccines might impact in specific scenarios. With the aim to analyze the diversity of Spanish invasive MenB strains, and genetic variability of the fHbp vaccine antigen, all MenB isolates received at National Reference Laboratory (NRL) from 2015 to 2018 were molecularly characterized. MATERIAL AND METHODS: 108, 103, 87 and 112 invasive MenB strains isolated during 2015-2018, respectively, were received at NRL. The strains were whole genome sequenced, and porA, fetA, MLST and fHbp variability was analyzed. Potential impact on MenB vaccines coverage was also assessed. RESULTS: A total of 42, 38 and 3 different FHbp subfamily A, B and A/B hybrid peptides, respectively, were found. FHbp subfamily A peptides were harboured by most of the strains (65.9%), being the most prevalent peptide 45 which was associated with genosubtype 22,14 and cc213. FHbp subfamily B peptides were harboured by 32.4% of the strains, and 6 strains harbouring subfamily A/B hybrid peptides were also found. The 64.15% of the strains showed FHbp variants "exact-match" or "cross-reactive" to the FHbp variants included in rLP2086 vaccine according to hSBA assays in the rLP2086 clinical development, and 15.85% showed FHbp peptides defined as predictors of FHbp-coverage for 4CMenB vaccine by gMATS. CONCLUSIONS: Due to invasive meningococcal strains temporal variability (eg prevalence of the cc213 increased from 3.6% in 2007 to 33% in 2018) affecting to the presence and distribution of the vaccine antigens, continuous detailed meningococcal surveillance and monitoring of the vaccine antigens is needed to determine the degree and durability of coverage provided by these protein vaccine.

Rapid and Highly Sensitive DNA Flow Technology Platform to Detect Tick-Borne Bacterial Pathogens in Clinical Samples.

Zoonotic diseases represent a significant public health concern worldwide due to the emergence/re-emergence of vector-borne diseases in the last decade. Ticks are the most important vectors in the northern hemisphere and can transmit diseases such as Lyme disease, human granulocytic anaplasmosis, and spotted fever rickettsioses, among others. Therefore, there is a growing need to develop better and faster diagnostic tools that can detect zoonotic human pathogens in clinical samples. In this study, we present the results for a new kit tick-borne bacteria flow chip (TBFC), which allows the simultaneous screening of seven different bacterial pathogens in human samples using a DNA flow technology platform (hybriSpot system). The analytical sensitivity and specificity of the TBFC were calculated spiking bacterial DNA in human DNA samples, and the results were compared with an in-house single PCR-reverse line blot (RLB) routinely used for diagnosis at the National Center for Microbiology in Spain. The analytical sensitivity and specificity of the TBFC were almost identical to the PCR-RLBs used in diagnosis. In addition, samples from patients (n = 212) with a wide range of clinical signs/symptoms consistent with multisystem disorders suggestive of a tick-borne infection were tested using the TBFC, and the results were compared with those obtained by PCR-RLB. The concordance of both methods using patient samples was 97.2%. The TBFC kit is a rapid new and cost-efficient diagnostic molecular tool capable of detecting tick-borne pathogens in clinical samples.

Genotypes of Coxiella burnetii in wildlife: disentangling the molecular epidemiology of a multi-host pathogen.

Evidences point to a relevant role of wildlife in the ecology of Coxiella burnetii worldwide. The lack of information on C. burnetii genotypes in wildlife prevents tracing-back clinical animal and human Q fever cases with potential wildlife origin. To compare C. burnetii genotypes circulating in wildlife, livestock and humans, 107 samples from red deer, European wild rabbit, racoon, small mammals, goat and sheep were genotyped by polymerase chain reaction and reverse line blot hybridization. Genomic groups I, II, VI and VII were found in wildlife and groups I, II, III and IV in domestic ruminants. Livestock genotypes clustered mainly with genotypes reported previously in livestock. Genotyping confirmed previous findings that suggest that C. burnetii may display host specificity since most genotypes of sympatric deer and rabbits clustered in separate groups. Wildlife genotypes clustered with genotypes from ticks and from acute hepatitis human Q fever cases, suggesting that particular C. burnetii genotypes circulating in a wildlife-tick cycle may occasionally jump into humans through tick bites or exposure to wildlife. This finding could be behind the reported geographic variation in the clinical presentation of acute Q fever in humans in Spain: atypical pneumonia in the north and hepatitis in the south.

Distribution of Bartonella henselae variants in patients, reservoir hosts and vectors in Spain.

We have studied the diversity of B. henselae circulating in patients, reservoir hosts and vectors in Spain. In total, we have fully characterized 53 clinical samples from 46 patients, as well as 78 B. henselae isolates obtained from 35 cats from La Rioja and Catalonia (northeastern Spain), four positive cat blood samples from which no isolates were obtained, and three positive fleas by Multiple Locus Sequence Typing and Multiple Locus Variable Number Tandem Repeats Analysis. This study represents the largest series of human cases characterized with these methods, with 10 different sequence types and 41 MLVA profiles. Two of the sequence types and 35 of the profiles were not described previously. Most of the B. henselae variants belonged to ST5. Also, we have identified a common profile (72) which is well distributed in Spain and was found to persist over time. Indeed, this profile seems to be the origin from which most of the variants identified in this study have been generated. In addition, ST5, ST6 and ST9 were found associated with felines, whereas ST1, ST5 and ST8 were the most frequent sequence types found infecting humans. Interestingly, some of the feline associated variants never found on patients were located in a separate clade, which could represent a group of strains less pathogenic for humans.

Molecular method for the characterization of Coxiella burnetii from clinical and environmental samples: variability of genotypes in Spain.

BACKGROUND: Coxiella burnetii is a highly clonal microorganism which is difficult to culture, requiring BSL3 conditions for its propagation. This leads to a scarce availability of isolates worldwide. On the other hand, published methods of characterization have delineated up to 8 different genomic groups and 36 genotypes. However, all these methodologies, with the exception of one that exhibited limited discriminatory power (3 genotypes), rely on performing between 10 and 20 PCR amplifications or sequencing long fragments of DNA, which make their direct application to clinical samples impracticable and leads to a scarce accessibility of data on the circulation of C. burnetii genotypes. RESULTS: To assess the variability of this organism in Spain, we have developed a novel method that consists of a multiplex (8 targets) PCR and hybridization with specific probes that reproduce the previous classification of this organism into 8 genomic groups, and up to 16 genotypes. It allows for a direct characterization from clinical and environmental samples in a single run, which will help in the study of the different genotypes circulating in wild and domestic cycles as well as from sporadic human cases and outbreaks. The method has been validated with reference isolates. A high variability of C. burnetii has been found in Spain among 90 samples tested, detecting 10 different genotypes, being those adaA negative associated with acute Q fever cases presenting as fever of intermediate duration with liver involvement and with chronic cases. Genotypes infecting humans are also found in sheep, goats, rats, wild boar and ticks, and the only genotype found in cattle has never been found among our clinical samples. CONCLUSIONS: This newly developed methodology has permitted to demonstrate that C. burnetii is highly variable in Spain. With the data presented here, cattle seem not to participate in the transmission of C. burnetii to humans in the samples studied, while sheep, goats, wild boar, rats and ticks share genotypes with the human population.

Molecular method for discrimination between Francisella tularensis and Francisella-like endosymbionts.

Environmental studies on the distribution of Francisella spp. are hampered by the frequency of Francisella-like endosymbionts that can produce a misleading positive result. A new, efficient molecular method for detection of Francisella tularensis and its discrimination from Francisella-like endosymbionts, as well as two variants associated with human disease (unusual F. tularensis strain FnSp1 and F. tularensis subsp. novicida-like strain 3523), is described. The method is highly specific and sensitive, detecting up to one plasmid copy or 10 genome equivalents.

Molecular method for Bartonella species identification in clinical and environmental samples.

A new, efficient molecular method for detection of Bartonella, based on the 16S-23S rRNA intergenic spacer and 16S rRNA amplification by multiplex PCR combined with reverse line blotting, was designed. This assay could simultaneously detect 20 different known species and other Bartonella species not described previously.

Rickettsia monacensis and human disease, Spain.

We identified Rickettsia monacensis as a cause of acute tickborne rickettsiosis in 2 humans. Its pathogenic role was assessed by culture and detection of the organism in patients' blood samples. This finding increases the number of recognized human rickettsial pathogens and expands the known geographic distribution of Mediterranean spotted fever-like cases.