Interaction between Borrelia miyamotoi variable major proteins Vlp15/16 and Vlp18 with plasminogen and complement.

Borrelia miyamotoi, a relapsing fever spirochete transmitted by Ixodid ticks causes B. miyamotoi disease (BMD). To evade the human host´s immune response, relapsing fever borreliae, including B. miyamotoi, produce distinct variable major proteins. Here, we investigated Vsp1, Vlp15/16, and Vlp18 all of which are currently being evaluated as antigens for the serodiagnosis of BMD. Comparative analyses identified Vlp15/16 but not Vsp1 and Vlp18 as a plasminogen-interacting protein of B. miyamotoi. Furthermore, Vlp15/16 bound plasminogen in a dose-dependent fashion with high affinity. Binding of plasminogen to Vlp15/16 was significantly inhibited by the lysine analog tranexamic acid suggesting that the protein-protein interaction is mediated by lysine residues. By contrast, ionic strength did not have an effect on binding of plasminogen to Vlp15/16. Of relevance, plasminogen bound to the borrelial protein cleaved the chromogenic substrate S-2251 upon conversion by urokinase-type plasminogen activator (uPa), demonstrating it retained its physiological activity. Interestingly, further analyses revealed a complement inhibitory activity of Vlp15/16 and Vlp18 on the alternative pathway by a Factor H-independent mechanism. More importantly, both borrelial proteins protect serum sensitive Borrelia garinii cells from complement-mediated lysis suggesting multiple roles of these two variable major proteins in immune evasion of B. miyamotoi.

Solution NMR structure of Borrelia burgdorferi outer surface lipoprotein BBP28, a member of the mlp protein family.

Lyme disease is the most widespread vector-transmitted disease in North America and Europe, caused by infection with Borrelia burgdorferi sensu lato complex spirochetes. We report the solution NMR structure of the B. burgdorferi outer surface lipoprotein BBP28, a member of the multicopy lipoprotein (mlp) family. The structure comprises a tether peptide, five α-helices and an extended C-terminal loop. The fold is similar to that of Borrelia turicatae outer surface protein BTA121, which is known to bind lipids. These results contribute to the understanding of Lyme disease pathogenesis by revealing the molecular structure of a protein from the widely found mlp family.

Dynamic aspects of pressure and temperature-stabilized intermediates of outer surface protein A.

Structural characterization of alternatively folded and partially disordered protein conformations remains challenging. Outer surface protein A (OspA) is a pivotal protein in Borrelia infection, which is the etiological agent of Lyme disease. OspA exists in equilibrium with intermediate conformations, in which the central and the C-terminal regions of the protein have lower stabilities than the N-terminal. Here, we characterize pressure- and temperature-stabilized intermediates of OspA by nuclear magnetic resonance spectroscopy combined with paramagnetic relaxation enhancement (PRE). We found that although the C-terminal region of the intermediate was partially disordered, it retains weak specific contact with the N-terminal region, owing to a twist of the central ß-sheet and increased flexibility in the polypeptide chain. The disordered C-terminal region of the pressure-stabilized intermediate was more compact than that of the temperature-stabilized form. Further, molecular dynamics simulation demonstrated that temperature-induced disordering of the ß-sheet was initiated at the C-terminal region and continued through to the central region. An ensemble of simulation snapshots qualitatively described the PRE data from the intermediate and indicated that the intermediate structures of OspA may expose tick receptor-binding sites more readily than does the basic folded conformation.

Predicting the ligand-binding properties of Borrelia burgdorferi s.s. Bmp proteins in light of the conserved features of related Borrelia proteins.

Bacteria of the genus Borrelia cause vector-borne infections like the most important hard tick-borne disease in the northern hemisphere, Lyme borreliosis (LB), and soft tick or louse transmitted relapsing fevers (RF), prevalent in temperate and tropical areas. Borrelia burgdorferi sensu lato (s.l.) includes several genospecies and causes LB in humans. In infected patients, Borrelia burgdorferi sensu stricto (s.s.) expresses the BmpA, BmpB, BmpC and BmpD proteins. The role of these proteins in the pathogenesis of LB remains incompletely characterized, but they are, however, closely related to Treponema pallidum PnrA (Purine nucleoside receptor A), a substrate-binding lipoprotein of the ATP-binding cassette (ABC) transporter family preferentially binding purine nucleosides. Based on 3D homology modeling, the Bmp proteins share the typical fold of the substrate-binding protein family and the ligand-binding properties of BmpA, BmpB and BmpD are highly similar, whereas those of BmpC differ markedly. Nevertheless, these residues are highly conserved within the genus Borrelia and the inferred phylogenetic tree also reveals that the RF Borrelia lack BmpB proteins but has an additional Bmp protein (BmpA2) missing in LB-causing Borrelia burgdorferi s.l. Our results indicate that the Bmp proteins could bind nucleosides, although BmpC might have a different ligand-binding specificity and, therefore, a distinct function. Furthermore, the work provides a means for classifying the Bmp proteins and supports further elucidation of the roles of these proteins.

Subclinical Lyme borreliosis is common in south-eastern Sweden and may be distinguished from Lyme neuroborreliosis by sex, age and specific immune marker patterns.

BACKGROUND: Determinants of a subclinical course of Lyme borreliosis (LB) remain largely unknown. The aim of this study was to assess the extent, sex and age profiles of subclinical Borrelia seroconversion in a LB endemic area in Sweden and to map blood cellular Borrelia-specific immune marker patterns in individuals with a previous subclinical LB course compared with patients previously diagnosed with Lyme neuroborreliosis (LNB). METHODS: A large group of 1113 healthy blood donors was screened for multiple IgG anti-Borrelia antibodies and asked to complete a health inquiry regarding previous LB. A group of subjects with anti-Borrelia-specific IgG antibodies but no previous history of LB (subclinical LB, n = 60) was identified together with 22 cases of previous LNB. Whole Borrelia spirochetes, strains B. afzelii ACA1 and B. garinii Ip90, were used for ex vivo whole blood stimulations, whereas outer surface protein enriched fractions of the same strains were used for stimulation of peripheral blood mononuclear cells (PBMCs). An extensive panel of immune markers was analysed in the supernatants after stimulation using multiplex bead arrays, and Borrelia-specific secretion was determined by subtracting the spontaneous secretion. RESULTS: A total of 125/1113 blood donors reported previous clinical LB. In contrast, 66 donors denied previous LB but showed multiple IgG anti-Borrelia antibodies; these were defined as subclinical subjects, of whom 60 were available for further studies. The subclinical subjects consisted of significantly more men and had a younger age compared with the LNB patients (p ≤ 0.01). Discriminant analysis revealed a distinct pattern of sex, age and PBMC B. garinii-specific levels of IL-10, IL-17A and CCL20 discriminating subclinical subjects from LNB patients. CONCLUSIONS: This study confirms that subclinical Borrelia seroconversion is common in south-eastern Sweden. The findings further suggest that male sex, younger age together with B. gariniii induced levels of IL-10, IL-17A and CCL20 may be associated with a subclinical course.

Crystal Structure of Borrelia turicatae protein, BTA121, a differentially regulated gene in the tick-mammalian transmission cycle of relapsing fever spirochetes.

Tick-borne relapsing fever (RF) borreliosis is a neglected disease that is often misdiagnosed. RF species circulating in the United States include Borrelia turicatae, which is transmitted by argasid ticks. Environmental adaptation by RF Borrelia is poorly understood, however our previous studies indicated differential regulation of B. turicatae genes localized on the 150 kb linear megaplasmid during the tick-mammalian transmission cycle, including bta121. This gene is up-regulated by B. turicatae in the tick versus the mammal, and the encoded protein (BTA121) is predicted to be surface localized. The structure of BTA121 was solved by single-wavelength anomalous dispersion (SAD) using selenomethionine-derivative protein. The topology of BTA121 is unique with four helical domains organized into two helical bundles. Due to the sequence similarity of several genes on the megaplasmid, BTA121 can serve as a model for their tertiary  structures. BTA121 has large interconnected tunnels and cavities that can accommodate ligands, notably long parallel helices, which have a large hydrophobic central pocket. Preliminary in-vitro studies suggest that BTA121 binds lipids, notably palmitate with a similar order of binding affinity as tablysin-15, a known palmitate-binding protein. The reported data will guide mechanistic studies to determine the role of BTA121 in the tick-mammalian transmission cycle of B. turicatae.

T2 Magnetic Resonance Assay-Based Direct Detection of Three Lyme Disease-Related Borrelia Species in Whole-Blood Samples.

In early Lyme disease (LD), serologic testing is insensitive and seroreactivity may reflect active or past infection. In this study, we evaluated a novel assay for the direct detection of three species of Borrelia spirochetes in whole blood. The T2 magnetic resonance (T2MR) assay platform was used to amplify Borrelia DNA released from intact spirochetes and to detect amplicon. Analytical sensitivity was determined from blood spiked with known concentrations of spirochetes, and the assay's limit of detection was found to be in the single-cell-per-milliliter range: 5 cells/ml for B. afzelii and 8 cells/ml for Borrelia burgdorferi and Borrelia garinii Clinical samples (n = 66) from confirmed or suspected early LD patients were also analyzed. B. burgdorferi was detected using T2MR in 2/2 (100%) of blood samples from patients with confirmed early LD, based on the presence of erythema migrans and documentation of seroconversion or a positive real-time blood PCR. T2MR detected B. burgdorferi in blood samples from 17/54 (31%) of patients with probable LD, based on the presence of erythema migrans without documented seroconversion or of documented seroconversion in patients with a compatible clinical syndrome but without erythema migrans. Out of 21 clinical samples tested by real-time PCR, only 1 was positive and 13 were negative with agreement with T2MR. An additional 7 samples that were negative by real-time PCR were positive with T2MR. Therefore, T2MR enables a low limit of detection (LoD) for Borrelia spp. in whole blood samples and is able to detect B. burgdorferi in clinical samples.

Borrelia persica Infection in Immunocompetent Mice--A New Tool to Study the Infection Kinetics In Vivo.

Borrelia persica, a bacterium transmitted by the soft tick Ornithodoros tholozani, causes tick-borne relapsing fever in humans in the Middle East, Central Asia and the Indian peninsula. Immunocompetent C3H/HeOuJ mice were infected intradermally with B. persica at varying doses: 1 x 10(6), 1 x 10(4), 1 x 10(2) and 4 x 10(0) spirochetes/mouse. Subsequently, blood samples were collected and screened for the presence of B. persica DNA. Spirochetes were detected in all mice infected with 1 x 10(6), 1 x 10(4) and 1 x 10(2) borrelia by real-time PCR targeting the flaB gene of the bacterium. Spirochetemia developed with a one- to two-day delay when 1 x 10(4) and 1 x 10(2) borrelia were inoculated. Mice injected with only four organisms were negative in all tests. No clinical signs were observed when infected mice were compared to negative control animals. Organs (heart, spleen, urinary bladder, tarsal joint, skin and brain) were tested for B. persica-specific DNA and cultured for the detection of viable spirochetes. Compiled data show that the target organs of B. persica infections are the brain and the skin. A newly developed serological two-tiered test system (ELISA and western blot) for the detection of murine IgM, IgG and IgA antibody titers against B. persica showed a vigorous antibody response of the mice during infection. In conclusion, the infection model described here for B. persica is a platform for in vivo studies to decipher the so far unexplored survival strategies of this Borrelia species.

Aromatic cluster mutations produce focal modulations of ß-sheet structure.

Site-directed mutagenesis is a powerful tool for altering the structure and function of proteins in a focused manner. Here, we examined how a model ß-sheet protein could be tuned by mutation of numerous surface-exposed residues to aromatic amino acids. We designed these aromatic side chain "clusters" at highly solvent-exposed positions in the flat, single-layer ß-sheet of Borrelia outer surface protein A (OspA). This unusual ß-sheet scaffold allows us to interrogate the effects of these mutations in the context of well-defined structure but in the absence of the strong scaffolding effects of globular protein architecture. We anticipated that the introduction of a cluster of aromatic amino acid residues on the ß-sheet surface would result in large conformational changes and/or stabilization and thereby provide new means of controlling the properties of ß-sheets. Surprisingly, X-ray crystal structures revealed that the introduction of aromatic clusters produced only subtle conformational changes in the OspA ß-sheet. Additionally, despite burying a large degree of hydrophobic surface area, the aromatic cluster mutants were slightly less stable than the wild-type scaffold. These results thereby demonstrate that the introduction of aromatic cluster mutations can serve as a means for subtly modulating ß-sheet conformation in protein design.

MALDI-TOF mass spectrometry detection of pathogens in vectors: the Borrelia crocidurae/Ornithodoros sonrai paradigm.

BACKGROUND: In Africa, relapsing fever borreliae are neglected vector-borne pathogens that cause mild to deadly septicemia and miscarriage. Screening vectors for the presence of borreliae currently requires technically demanding, time- and resource-consuming molecular methods. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) has recently emerged as a tool for the rapid identification of vectors and the identification of cultured borreliae. We investigated whether MALDI-TOF-MS could detect relapsing fever borreliae directly in ticks. METHODOLOGY/PRINCIPAL FINDINGS: As a first step, a Borrelia MALDI-TOF-MS database was created to house the newly determined Mean Spectrum Projections for four Lyme disease group and ten relapsing fever group reference borreliae. MALDI-TOF-MS yielded a unique protein profile for each of the 14 tested Borrelia species, with 100% reproducibility over 12 repeats. In a second proof-of-concept step, the Borrelia database and a custom software program that subtracts the uninfected O. sonrai profile were used to detect Borrelia crocidurae in 20 Ornithodoros sonrai ticks, including eight ticks that tested positive for B. crocidurae by PCR-sequencing. A B. crocidurae-specific pattern consisting of 3405, 5071, 5898, 7041, 8580 and 9757-m/z peaks was found in all B. crocidurae-infected ticks and not found in any of the un-infected ticks. In a final blind validation step, MALDI-TOF-MS exhibited 88.9% sensitivity and 93.75% specificity for the detection of B. crocidurae in 50 O. sonrai ticks, including 18 that tested positive for B. crocidurae by PCR-sequencing. MALDI-TOF-MS took 45 minutes to be completed. CONCLUSIONS/SIGNIFICANCE: After the development of an appropriate database, MALDI-TOF-MS can be used to identify tick species and the presence of relapsing fever borreliae in a single assay. This work paves the way for the use of MALDI-TOF-MS for the dual identification of vectors and vectorized pathogens.

Identification of Borrelia species after creation of an in-house MALDI-TOF MS database.

Lyme borreliosis (LB) is a multisystemic disease caused by Borrelia burgdorferi sensu lato (sl) complex transmitted to humans by Ixodes ticks. B. burgdorferi sl complex, currently comprising at least 19 genospecies, includes the main pathogenic species responsible for human disease in Europe: B. burgdorferi sensu stricto (ss), B. afzelii, and B. garinii. In this study, for the first time, MALDI-TOF MS was applied to Borrelia spp., supplementing the existing database, limited to the species B. burgdorferi ss, B . spielmanii and B. garinii, with the species B. afzelii, in order to enable the identification of all the species potentially implicated in LB in Europe. Moreover, we supplemented the database also with B. hermsii, which is the primary cause of tick-borne relapsing fever in western North America, B. japonica, circulating in Asia, and another reference strain of B. burgdorferi ss (B31 strain). The dendrogram obtained by analyzing the protein profiles of the different Borrelia species reflected Borrelia taxonomy, showing that all the species included in the Borrelia sl complex clustered in a unique branch, while Borrelia hermsii clustered separately. In conclusion, in this study MALDI-TOF MS proved a useful tool suitable for identification of Borrelia spp. both for diagnostic purpose and epidemiological surveillance.

Achieving molecular diagnostics for Lyme disease.

Early Lyme disease is often difficult to diagnose. Left untreated, symptoms can last for many years leading to chronic health problems. Serological tests for the presence of antibodies that react to Borrelia burgdorferi antigens are generally used to support a clinical diagnosis. Due to the biologically delayed antibody response, serology is negative in many patients in the initial 3 weeks after infection and a single test cannot be used to demonstrate active disease, although certain specialized tests provide strong correlation. Because of these limitations there exists a need for better diagnostics for Lyme disease that can detect Borrelia genomic material at the onset of symptoms.

Comparative membrane proteome analysis of three Borrelia species.

The versatility of the surface of Borrelia, the causative agent of Lyme borreliosis, is very important in host-pathogen interactions allowing bacteria to survive in ticks and to persist in a mammalian environment. To identify the surface proteome of Borrelia, we have performed a large comparative proteomic analysis on the three most important pathogenic Borrelia species, namely B. burgdorferi (strain B31), B. afzelii (strain K78), and B. garinii (strain PBi). Isolation of membrane proteins was performed by using three different approaches: (i) a detergent-based fractionation of outer membrane proteins; (ii) a trypsin-based partial shedding of outer cell surface proteins; (iii) biotinylation of membrane proteins and preparation of the biotin-labelled fraction using streptavidin. Proteins derived from the detergent-based fractionation were further sub-fractionated by heparin affinity chromatography since heparin-like molecules play an important role for microbial entry into human cells. All isolated proteins were analysed using either a gel-based liquid chromatography (LC)-MS/MS technique or by two-dimensional (2D)-LC-MS/MS resulting in the identification of 286 unique proteins. Ninety seven of these were found in all three Borrelia species, representing potential targets for a broad coverage vaccine for the prevention of Lyme borreliosis caused by the different Borrelia species.

Bacterial lipoproteins can disseminate from the periphery to inflame the brain.

The current view is that bacteria need to enter the brain to cause inflammation. However, in mice infected with the spirochete Borrelia turicatae, we observed widespread cerebral inflammation despite a paucity of spirochetes in the brain parenchyma at times of high bacteremia. Here we studied the possibility that bacterial lipoproteins may be capable of disseminating from the periphery across the blood-brain barrier to inflame the brain. For this we injected normal and infected mice intraperitoneally with lanthanide-labeled variable outer membrane lipoproteins of B. turicatae and measured their localization in blood, various peripheral organs, and whole and capillary-depleted brain protein extracts at various times. Lanthanide-labeled nonlipidated lipoproteins of B. turicatae and mouse albumin were used as controls. Brain inflammation was measured by TaqMan RT-PCR amplification of genes known to be up-regulated in response to borrelial infection. The results showed that the two lipoproteins we studied, LVsp1 and LVsp2, were capable of inflaming the brain after intraperitoneal injection to different degrees: LVsp1 was better than LVsp2 and Bt1 spirochetes at moving from blood to brain. The dissemination of LVsp1 from the periphery to the brain occurred under normal conditions and significantly increased with infection. In contrast, LVsp2 disseminated better to peripheral organs. We conclude that some bacterial lipoproteins can disseminate from the periphery to inflame the brain.

P66 porins are present in both Lyme disease and relapsing fever spirochetes: a comparison of the biophysical properties of P66 porins from six Borrelia species.

The genus Borrelia is the cause of the two human diseases: Lyme disease (LD) and relapsing fever (RF). Both LD and RF Borrelia species are obligate parasites and are dependent on nutrients provided by their hosts. The first step of nutrient uptake across the outer membrane of these Gram-negative bacteria is accomplished by water-filled channels, so-called porins. The knowledge of the porin composition in the outer membranes of the different pathogenic Borrelia species is limited. Only one porin has been described in relapsing fever spirochetes to date, whereas four porins are known to be present in Lyme disease agents. From these, the Borrelia burgdorferi outer membrane channel P66 is known to act as an adhesin and was well studied as a porin. To investigate if P66 porins are expressed and similarly capable of pore formation in other Borrelia causing Lyme disease or relapsing fever three LD species (B. burgdorferi, B. afzelii, B. garinii) and three RF species (B. duttonii, B. recurrentis and B. hermsii) were investigated for outer membrane proteins homologous to P66. A search in current published RF genomes, comprising the ones of B. duttonii, B. recurrentis and B. hermsii, indicated that they all contained P66 homologues. The P66 homologues of the six Borrelia species were purified to homogeneity and their pore-forming abilities as well as the biophysical properties of the pores were analyzed using the black lipid bilayer assay.

Lipid binding orientation within CD1d affects recognition of Borrelia burgorferi antigens by NKT cells.

Invariant natural killer T cells (iNKT cells) respond to CD1d-presented glycolipids from Borrelia burgdorferi, the causative agent of Lyme disease. Although mouse and human iNKT cells respond to different antigens based on subtle differences in their fatty acids, the mechanism by which fatty acid structure determines antigenic potency is not well understood. Here we show that the mouse and human CD1d present glycolipids having different fatty acids, based in part upon a difference at a single amino acid position that is involved in positioning the sugar epitope. CD1d also can bind nonantigenic lipids, however, but unexpectedly, mouse CD1d orients the two aliphatic chains of a nonantigenic lipid rotated 180 degrees, causing a dramatic repositioning of the exposed sugar. Therefore, our data reveal the biochemical basis for the high degree of antigenic specificity of iNKT cells for certain fatty acids, and they suggest how microbes could alter fatty acid biosynthesis as an immune evasion mechanism.

Identification of the determinant conferring permissive substrate usage in the telomere resolvase, ResT.

Linear genome stability requires specialized telomere replication and protection mechanisms. A common solution to this problem in non-eukaryotes is the formation of hairpin telomeres by telomere resolvases (also known as protelomerases). These enzymes perform a two-step transesterification on replication intermediates to generate hairpin telomeres using an active site similar to that of tyrosine recombinases and type IB topoisomerases. Unlike phage telomere resolvases, the telomere resolvase from the Lyme disease pathogen Borrelia burgdorferi (ResT) is a permissive enzyme that resolves several types of telomere in vitro. However, the ResT region and residues mediating permissive substrate usage have not been identified. The relapsing fever Borrelia hermsii ResT exhibits a more restricted substrate usage pattern than B. burgdorferi ResT and cannot efficiently resolve a Type 2 telomere. In this study, we determined that all relapsing fever ResTs process Type 2 telomeres inefficiently. Using a library of chimeric and mutant B. hermsii/B. burgdorferi ResTs, we mapped the determinants in B. burgdorferi ResT conferring the ability to resolve multiple Type 2 telomeres. Type 2 telomere resolution was dependent on a single proline in the ResT catalytic region that was conserved in all Lyme disease but not relapsing fever ResTs and that is part of a 2-amino acid insertion absent from phage telomere resolvase sequences. The identification of a permissive substrate usage determinant explains the ability of B. burgdorferi ResT to process the 19 unique telomeres found in its segmented genome and will aid further studies on the structure and function of this essential enzyme.

Detección molecular de patógenos emergentes de importancia médica y veterinaria en garrapatas capturadas sobre caballos domésticos / Molecular detection of emerging pathogens of medical and veterinary importance in ticks found in domestic horses

En la actualidad son varias las especies de patógenos emergentes de importancia médica y veterinaria transmitidos por garrapatas. Los estudios sobre estos agentes y sus enfermedades han sido escasos en Cuba. Conocer la presencia de algunos de estos patógenos en garrapatas cubanas que afectan el ganado equino. Se procesaron 95 garrapatas colectadas de caballos domésticos, conservadas en alcohol e identificadas taxonómicamente según claves convencionales. A cada una se le realizó extracción de ADN y posteriormente diferentes reacciones en cadena de la polimerasa utilizando cebadores específicos para los grupos microbianos Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Cada uno de los productos de las reacciones en cadena de la polimerasa fue sometido a hibridaciones en línea reversa utilizando sondas para cada grupo en cuestión, así como específicas para las principales especies de estos. Las garrapatas estudiadas pertenecían a las especies Dermacentor (Anocentor) nitens (60 por ciento), Amblyomma cajennense (38 por ciento) y Rhipicephalus (Boophilus) microplus (2 por ciento). Se detectaron 7 garrapatas Dermacentor (Anocentor) nitens infectadas con bacterias del grupo Anaplasma/Ehrlichia, y no se pudo identificar la especie en cuestión con las sondas utilizadas. Una de estas garrapatas estaba además coinfectada con Babesia bovis. Se sugiere la circulación de una nueva especie de Anaplasma o Ehrlichia no reportada antes en Cuba, por lo que se necesita estudiar un número mayor de garrapatas, así como la incorporación de nuevas sondas en la hibridación en línea reversa u otras metodologías que permitan conocer con exactitud las especies que pudiesen afectar hoy día los caballos domésticos.

At present, there are several tick-borne emerging pathogen species of medical and veterinary importance. Few studies on these agents and its diseases have been made in Cuba. To determine the presence of some of these pathogens in Cuban ticks existing in the equine cattle. Ninety five ticks collected from domestic use horses were processed, preserved in alcohol and taxonomically identified according to the set classifications. Their DNA was extracted and subjected to several polymerase chain reactions with specific primers for microbial groups Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Each of the products from polymerase chain reactions underwent reverse line blot hybridation using probes for each group as well as specific probes for the main species included in these groups. The studied ticks belonged to Dermacentor (Anocentor) nitens (60 percent), Amblyomma cajennense (38 percent) y Rhipicephalus (Boophilus) microplus (2 percent). Seven Dermacentor (Anocentor) nitens ticks infested with Anaplasma/Ehrlichia bacteria were detected but the species in question could not be detected by the used probes. One of these ticks was also co-infested with Babesia bovis. It is suggested that a new species of Anaplasma o Ehrlichia, not reported in Cuba before now, is circulating, so studying a higher number of ticks is needed and new probes in reverse line blot hybridation or other methodologies must be incorporated to allow exactly determining the species that may affect the Cuban domestic horses at present.

Detección molecular de patógenos emergentes de importancia médica y veterinaria en garrapatas capturadas sobre caballos domésticos / Molecular detection of emerging pathogens of medical and veterinary importance in ticks found in domestic horses

En la actualidad son varias las especies de patógenos emergentes de importancia médica y veterinaria transmitidos por garrapatas. Los estudios sobre estos agentes y sus enfermedades han sido escasos en Cuba. Conocer la presencia de algunos de estos patógenos en garrapatas cubanas que afectan el ganado equino. Se procesaron 95 garrapatas colectadas de caballos domésticos, conservadas en alcohol e identificadas taxonómicamente según claves convencionales. A cada una se le realizó extracción de ADN y posteriormente diferentes reacciones en cadena de la polimerasa utilizando cebadores específicos para los grupos microbianos Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Cada uno de los productos de las reacciones en cadena de la polimerasa fue sometido a hibridaciones en línea reversa utilizando sondas para cada grupo en cuestión, así como específicas para las principales especies de estos. Las garrapatas estudiadas pertenecían a las especies Dermacentor (Anocentor) nitens (60 por ciento), Amblyomma cajennense (38 por ciento) y Rhipicephalus (Boophilus) microplus (2 por ciento). Se detectaron 7 garrapatas Dermacentor (Anocentor) nitens infectadas con bacterias del grupo Anaplasma/Ehrlichia, y no se pudo identificar la especie en cuestión con las sondas utilizadas. Una de estas garrapatas estaba además coinfectada con Babesia bovis. Se sugiere la circulación de una nueva especie de Anaplasma o Ehrlichia no reportada antes en Cuba, por lo que se necesita estudiar un número mayor de garrapatas, así como la incorporación de nuevas sondas en la hibridación en línea reversa u otras metodologías que permitan conocer con exactitud las especies que pudiesen afectar hoy día los caballos domésticos(AU)

At present, there are several tick-borne emerging pathogen species of medical and veterinary importance. Few studies on these agents and its diseases have been made in Cuba. To determine the presence of some of these pathogens in Cuban ticks existing in the equine cattle. Ninety five ticks collected from domestic use horses were processed, preserved in alcohol and taxonomically identified according to the set classifications. Their DNA was extracted and subjected to several polymerase chain reactions with specific primers for microbial groups Borrelia burgdorferi sensu lato, Anaplasma-Ehrlichia, y Babesia-Theileria. Each of the products from polymerase chain reactions underwent reverse line blot hybridation using probes for each group as well as specific probes for the main species included in these groups. The studied ticks belonged to Dermacentor (Anocentor) nitens (60 percent), Amblyomma cajennense (38 percent) y Rhipicephalus (Boophilus) microplus (2 percent). Seven Dermacentor (Anocentor) nitens ticks infested with Anaplasma/Ehrlichia bacteria were detected but the species in question could not be detected by the used probes. One of these ticks was also co-infested with Babesia bovis. It is suggested that a new species of Anaplasma o Ehrlichia, not reported in Cuba before now, is circulating, so studying a higher number of ticks is needed and new probes in reverse line blot hybridation or other methodologies must be incorporated to allow exactly determining the species that may affect the Cuban domestic horses at present(AU)

Complement factor H-binding protein, a putative virulence determinant of Borrelia hermsii, is an antigenic target for protective B1b lymphocytes.

Vaccination is the most effective way to control infectious diseases. A variety of microbial pathogens use antigenic variation, an immune evasion strategy that poses a challenge for vaccine development. To understand protective immune responses against such pathogens, we have been studying Borrelia hermsii, a bacterium that causes recurrent bacteremia due to antigenic variation. An IgM response is necessary and sufficient to control B. hermsii infection. We have recently found a selective expansion of B1b cells concurrent with the resolution of B. hermsii bacteremia. B1b cells from convalescent but not naive mice confer long-lasting immunity, but the Ag(s) driving the protective IgM responses is unknown. Herein we demonstrate that convalescent B1b cell-derived IgM recognizes complement factor H-binding protein (FhbA), a B. hermsii outer-surface protein and putative virulence factor that does not undergo antigenic variation and is expressed by all clinical isolates. A progressive increase in the IgM response to FhbA correlated with the kinetics of B1b cell expansion, diminished the severity of bacteremic episodes, and led to the eventual resolution of the infection. These data indicate that FhbA is a specific target for protective B1b cell responses. Ags recognized by B1b cells may be considered as an important component in vaccination strategies.