Location and Ultrastructure of Borrelia japonica in Naturally Infected Ixodes ovatus and Small Mammals

The internal organs of Ixodes ovatus and the ears of wild rodents (Apodemus speciosus, Eothenomys smithii) and an insectivore (Crocidura dsinezumi) were cultured to isolate borreliae; positive samples were examined for the distribution and dissemination of spirochetes in the host tissues using electron microscopy. Seven isolates were derived from the unfed ticks and the three species of mammals. These isolates were identified as Borrelia japonica judging from the outer surface protein profile using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and reactivity to a B. japonica-specific monoclonal antibody. Borreliae were found only in the midgut lumen of the tick in close contact with the microvilli on the midgut epithelium; on the other hand, borreliae found in the ears of the mammals existed freely in the collagenous intercellular substances of connective tissues or in close contact with fibrocytes. The ultrastructural disparities between the borreliae in ticks and mammals appeared to correspond to differences in motility. Interestingly, the borrelia which invaded through the perineurium appeared to contact the basement membrane of a Schwann cell that enclosed several nonmyelinated nerve fibers. This may offer important information regarding the involvement of the nervous system in Lyme disease.     

Outer surface protein polymorphisms linked to host‐spirochete association in Lyme borreliae

Lyme borreliosis is caused by multiple species of the spirochete bacteria Borrelia burgdorferi sensu lato. The spirochetes are transmitted by ticks to vertebrate hosts, including small‐ and medium‐sized mammals, birds, reptiles, and humans. Strain‐to‐strain variation in host‐specific infectivity has been documented, but the molecular basis that drives this differentiation is still unclear. Spirochetes possess the ability to evade host immune responses and colonize host tissues to establish infection in vertebrate hosts. In turn, hosts have developed distinct levels of immune responses when invaded by different species/strains of Lyme borreliae. Similarly, the ability of Lyme borreliae to colonize host tissues varies among different spirochete species/strains. One potential mechanism that drives this strain‐to‐strain variation of immune evasion and colonization is the polymorphic outer surface proteins produced by Lyme borreliae. In this review, we summarize research on strain‐to‐strain variation in host competence and discuss the evidence that supports the role of spirochete‐produced protein polymorphisms in driving this variation in host specialization. Such information will provide greater insights into the adaptive mechanisms driving host and Lyme borreliae association, which will lead to the development of interventions to block pathogen spread and eventually reduce Lyme borreliosis health burden.     

Use of CFSE staining of borreliae in studies on the interaction between borreliae and human neutrophils

Background  

Species of the tick-transmitted spirochete group Borrelia burgdorferi sensu lato (B. burgdorferi) cause Lyme borreliosis. Acute borrelial infection of the skin has unusual characteristics with only a mild local inflammatory response suggesting that the interaction between borreliae and the cells of the first-line defence might differ from that of other bacteria. It has been reported that human neutrophils phagocytose motile borreliae through an unconventional mechanism (tube phagocytosis) which is not observed with non-motile borreliae. Therefore, it would be of great interest to visualise the bacteria by a method not affecting motility and viability of borreliae to be able to study their interaction with the cells of the innate immunity. Carboxyfluorescein diacetate, succinimidyl ester (CFSE) labelling has been previously used for studying the adhesion of labelled bacteria to host cells and the uptake of labelled substrates by various cells using flow cytometry.     

An electron microscopic study of Borrelia in the body of the female ixodid tick Ixodes persulcatus

Borrelia burgdorferi s. lato in naturally infected females of tick Ixodes persulcatus were examined by transmission electron microscopy. The Borreliae were found in midgut and ovary. Location and ultrastructure of bacteria indicate extracellular migration through the midgut epithelium as a preferential way. In gonad, the borreliae intracellular situate in ovarian epithelium and oocytes before and at the beginning of vitellogenesis. The demonstration of numerous spirochetes in the oocytes provides the support for transovarial transmission of the agent. Two morphological types of borreliae were observed.     

Taxonomy of the Lyme disease spirochetes.

Morphology, physiology, and DNA nucleotide composition of Lyme disease spirochetes, Borrelia, Treponema, and Leptospira were compared. Morphologically, Lyme disease spirochetes resemble Borrelia. They lack cytoplasmic tubules present in Treponema, and have more than one periplasmic flagellum per cell end and lack the tight coiling which are characteristic of Leptospira. Lyme disease spirochetes are also similar to Borrelia in being microaerophilic, catalase-negative bacteria. They utilize carbohydrates such as glucose as their major carbon and energy sources and produce lactic acid. Long-chain fatty acids are not degraded but are incorporated unaltered into cellular lipids. The diamino amino acid present in the peptidoglycan is ornithine. The mole % guanine plus cytosine values for Lyme disease spirochete DNA were 27.3-30.5 percent. These values are similar to the 28.0-30.5 percent for the Borrelia but differed from the values of 35.3-53 percent for Treponema and Leptospira. DNA reannealing studies demonstrated that Lyme disease spirochetes represent a new species of Borrelia, exhibiting a 31-59 percent DNA homology with the three species of North American borreliae. In addition, these studies showed that the three Lyme disease spirochetes comprise a single species with DNA homologies ranging from 76-100 percent. The three North American borreliae also constitute a single species, displaying DNA homologies of 75-95 percent. Lyme disease spirochetes and Borrelia exhibited little or no DNA homology (0-2 percent) with the Treponema or Leptospira. Plasmids were present in the three Lyme disease spirochetes and the three North American borreliae.     

Sero-Epidemiology of Lyme Disease in an Endemic Area in China

A sero-epidemiological investigation on Lyme disease was carried out in a forestry center of Hailin County, Heilongjiang Province, China. A total of 381 participants including forestry workers and their dependents completed questionnaires and had blood samples taken for detection of antibody against Borrelia burgdorferi by indirect immunofluorescent assay. Of 381 participants, 250 (65.6%) had a history of tick bites between May and July, 1987, and 379 (99.5%) at some time in the past, 56 (14.7%) developed erythema migrans at the site of tick attachment, 138 (36.2%) had late manifestations of Lyme disease, and 101 (26.2%) were seropositive. There was a significant difference in the seropositive rate between the persons with tick bites and those without tick bites in 1987 (P<0.01). The titers in the older age group (over 30) were slightly higher than those of the younger age group (under 30). No relationship between the prevalence of Lyme manifestations by tick bites and the result of serological test was observed. Further investigations are necessary to assess the actual prevalence and incidence of infections using antigen of Lyme disease borreliae isolated in China.     

Isolation and cultivation of Lyme disease spirochetes.

The successful isolation and cultivation of Lyme disease spirochetes traces its lineage to early attempts at cultivating relapsing fever borreliae. Observations on the growth of Lyme disease spirochetes under different in vitro conditions may yield important clues to both the metabolic characteristics of these newly discovered organisms and the pathogenesis of Lyme disease.     

Protein profile determination of <Emphasis Type="Italic">Borrelia afzelii</Emphasis> and <Emphasis Type="Italic">Borrelia garinii</Emphasis> isolated from skin and cerebrospinal fluid

In Europe the initial skin manifestation of Lyme borreliosis (erythema migrans) is predominantly caused by Borrelia afzelii while nervous system involvement is usually associated with Borrelia garinii. The aim of our study was to compare protein profiles of B. afzelii and B. garinii isolated from skin of patients with erythema migrans and from cerebrospinal fluid (CSF) of patients with Lyme neuroborreliosis. We analyzed 187 Borrelia strains, 74 B. afzelii and 113 B. garinii, for the presence of flagellin, and outer surface proteins A, B and C. Their protein profiles were obtained by SDS–PAGE and analyzed by computer program Gel Doc. Differences in the presence of proteins were found comparing isolates according to species (B. afzelii and B. garinii) and to their origin (skin and CSF isolates); the heterogeneity regarding the presence or absence of borrelial proteins was established within particular species. Protein profiles of the analyzed strains showed differences in the number, amount and molecular mass of analyzed proteins. Distinctions in the synthesis of outer surface proteins may play a role in the dispersal of borreliae within and between animal reservoir and vector ticks, as well as in pathogenesis of Lyme borreliosis in humans.     

Borreliae in Ixodes ricinus ticks feeding on humans

A total of 298 Ixodes ricinus (L.) ticks (Acari: Ixodidae) feeding on humans in the Czech Republic were tested for borreliae (Borrelia burgdorferi sensu lato) by darkfield microscopy between 1997 and 2003. A majority (68%) of the supplied I. ricinus ticks were nymphs, 25% were females and 7% were larvae. Overall, 20% of 74 examined females and 9% of 203 examined nymphs (but none of 21 examined larvae) were infected with borreliae. The proportion of ticks with a high infection load (>100 spirochetes) was 4% in females and 2% in nymphal I. ricinus. During the year, the highest numbers and proportions of infected nymphal and female ticks were taken from humans in June. Detection of borreliae in the ticks feeding on humans might be helpful in the prophylaxis of Lyme borreliosis.     

Expression of Defensin-Like Peptides in Tick Hemolymph and Midgut in Response to Challenge with Borrelia burgdorferi, Escherichia coli and Bacillus subtilis

Challenge of Dermacentor variabilis by hemocoel injection with Borrelia burgdorferi but not Bacillus subtilis or Escherichia coli provoked secretion of two low molecular weight peptides into the hemolymph plasma; the lower band co-migrated with a band previously identified as varisin (a tick defensin). These findings are consistent with reports that D. variabilis controls B. burgdorferi but not B. subtilis or E. coli by defensin-dependent bacteriolysis. Challenge of the tick midgut by capillary artificial feeding with bacteria also provoked expression of multiple low molecular weight peptides. In this case, however, all three bacteria elicited the response. Two bands, including the defensin-like peptide were expressed following challenge with B. subtilis and E. coli, but only the upper band following challenge with B. burgdorferi. Although they appeared intact, these spirochetes were no longer viable suggesting that borreliae in the midgut are controlled by a different method than the lytic response of the D. variabilis hemolymph. DD-RT-PCR revealed multiple mRNAs in the midgut of D. variabilis following challenge with B. burgdorferi, E. coli and Rickettsia montana. Although their identification remains to be determined, the large number of genes expressed in response to bacterial challenge presents intriguing possibilities for explaining the ability of the tick midgut to destroy invading microbes at the cellular level. This revised version was published online in July 2006 with corrections to the Cover Date.     

Molecular analysis of a 66-kDa protein associated with the outer membrane of Lyme disease Borrelia

Abstract A 66-kDa protein (p66) associated with the outer membrane of Lyme disease Borrelia was analysed at the molecular level. The chromosomal genes encoding p66 in B. burgdorferi B31, B. afzelii ACAI, and B. garinii Ip90 were sequenced. Database searches revealed that the p66 gene sequences were homologous to a previously reported gene fragment of unknown function. The deduced amino acid sequences of p66 in different Lyme disease borreliae were 92–94% identical and had no homologs in the databases. Proteolytic cleavage patterns of p66 and a computer-predicted single trans-membrane helix suggested the presence of surface-exposed epitopes on the C-terminus.     

The versatile roles of antibodies in Borrelia infections

Antibodies are the primary weapons of the mammalian immune system that are used against the tick-borne borreliae, the causative agents of relapsing fever and Lyme disease worldwide. Some antibody responses have 'traditional' functions, whereas others are more versatile and have novel functions and modes of action. At a time when the multiple functions of antibodies are being increasingly recognized and passive immunization is being revived as therapy for infectious and other diseases, the versatile nature of the antibody response to the borreliae fits well with this antibody renaissance.     

Glycerol-3-phosphate acquisition in spirochetes: distribution and biological activity of glycerophosphodiester phosphodiesterase (GlpQ) among Borrelia species

Relapsing-fever spirochetes achieve high cell densities (>10(8)/ml) in their host's blood, while Lyme disease spirochetes do not (<10(5)/ml). This striking contrast in pathogenicity of these two groups of bacteria suggests a fundamental difference in their ability to either exploit or survive in blood. Borrelia hermsii, a tick-borne relapsing-fever spirochete, contains orthologs to glpQ and glpT, genes that encode glycerophosphodiester phosphodiesterase (GlpQ) and glycerol-3-phosphate transporter (GlpT), respectively. In other bacteria, GlpQ hydrolyzes deacylated phospholipids to glycerol-3-phosphate (G3P) while GlpT transports G3P into the cytoplasm. Enzyme assays on 17 isolates of borreliae demonstrated GlpQ activity in relapsing-fever spirochetes but not in Lyme disease spirochetes. Southern blots demonstrated glpQ and glpT in all relapsing-fever spirochetes but not in the Lyme disease group. A Lyme disease spirochete, Borrelia burgdorferi, that was transformed with a shuttle vector containing glpTQ from B. hermsii produced active enzyme, which demonstrated the association of glpQ with the hydrolysis of phospholipids. Sequence analysis of B. hermsii identified glpF, glpK, and glpA, which encode the glycerol facilitator, glycerol kinase, and glycerol-3-phosphate dehydrogenase, respectively, all of which are present in B. burgdorferi. All spirochetes examined had gpsA, which encodes the enzyme that reduces dihydroxyacetone phosphate (DHAP) to G3P. Consequently, three pathways for the acquisition of G3P exist among borreliae: (i) hydrolysis of deacylated phospholipids, (ii) reduction of DHAP, and (iii) uptake and phosphorylation of glycerol. The unique ability of relapsing-fever spirochetes to hydrolyze phospholipids may contribute to their higher cell densities in blood than those of Lyme disease spirochetes.     

Animal and human antibodies reactive with the outer surface protein A and B of Borrelia burgdorferi are borreliacidal, in vitro, in the presence of complement

Abstract Polyspecific antibodies present in ascitic fluids of mice (pMIAFs) immunized with whole Borrelia burgdorferi cells exerted borreliacidal activity in vitro when tested with complement and homologous antigen but not with heterologous B. hermsii . Similarly, monospecific mouse antibodies obtained by immunizing mice with purified preparations of outer surface protein A and B of B. burgdorferi were borreliacidal. On the contrary, mouse monospecific antibodies raised against the 41-kDa flagellar protein of B. burgdorferi did not kill borreliae in the presence of complement. A complement-mediated, in vitro, borreliacidal activity was observed in human sera from patients with Lyme disease when antibodies against OspA and/or OspB were detectable in sera by the Western blotting technique. The in vitro borreliacidal activity of human sera was evident after 14 h incubation with live B. burgdorferi spirochaetes and complement, whereas antibodies present in mouse immune ascitic fluids killed borreliae after 1 h incubation.     

Longitudinal surveillance of the tick Ixodes ricinus for borreliae

Host-seeking Ixodes ricinus (L.) (Acari: Ixodidae) were monitored for borreliae (Borrelia burgdorferi s.l.) using dark-field microscopy in South Moravia (Czech Republic) each May from 1991 to 2001 (150 nymphs, 100 females and 100 males each year). This survey revealed a mean annual percentage of infected ticks of 16.8% (range, 11.7-24.2) in nymphs, 24.9% (range, 16.5-33.6) in females and 26.1% (range, 17.1-37.3) in males. Annual incidence of Lyme borreliosis in humans of the area in the same period (range, 8.7-41.7 per 100,000) correlated significantly with the frequency (number of ticks per flag per hour) of nymphs infected with >50 borreliae or all nymphal ticks, but not with the frequency of females, infected females or the infection rate (% of ticks infected) of either nymphal or female ticks. A prediction of the annual incidence of Lyme borreliosis, based on the frequency of heavily infected or all nymphal I. ricinus ticks, is feasible. The infection rate in I. ricinus correlated significantly with the North Atlantic Oscillation winter index of the last year (in nymphs) or of the year before last (in adults).     

Isolation of the spirochaete Borrelia afzelii from the mosquito Aedes vexans in the Czech Republic

During the years 1993–1995, a total of 3580 culicine mosquitoes of six species were collected in South Moravia, Czech Republic, and examined by dark-field microscopy for the presence of borreliae. Females of Aedes cantans , Ae. sticticus , Ae. vexans , Culex pipiens and Cx pipiens biotype molestus (but not Ae. geniculatus or Culiseta annulata ) harboured spirochaetes, the frequencies ranging from 0.7% to 7.8%. One isolate (BR-53) from Ae. vexans was identified as Borrelia afzelii genospecies. The potential role of mosquitoes in the epidemiology of Lyme borreliosis should be investigated.     

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.     

In Vitro Cultivation of Borrelia duttonii on Cultures of SflEp Cells

Borrelia duttonii strain 406 K, a causative agent of relapsing fever, could not be cultivated in vitro in currently available media for borreliae. We have developed an in vitro cultivation system by using SflEp cell cultures. The average increases of the number of borreliae, when inoculated with 1.0 × 10⁵ organisms per ml from infected mice, were 23-fold and 150-fold in the primary culture and the 3rd subculture, respectively. Even a single borrelia could propagate in this cultivation system. This system will be useful for immunological and physiological studies on uncultivable Borrelia strains.     

Borrelia burgdorferi outer surface protein C (OspC) binds complement component C4b and confers bloodstream survival

Borrelia burgdorferi (Bb) is the causative agent of Lyme disease in the United States, a disease that can result in carditis, and chronic and debilitating arthritis and/or neurologic symptoms if left untreated. Bb survives in the midgut of the Ixodes scapularis tick, or within tissues of immunocompetent hosts. In the early stages of infection, the bacteria are present in the bloodstream where they must resist clearance by the innate immune system of the host. We have found a novel role for outer surface protein C (OspC) from B. burgdorferi and B. garinii in interactions with the complement component C4b and bloodstream survival in vivo. Our data show that OspC inhibits the classical and lectin complement pathways and competes with complement protein C2 for C4b binding. Resistance to complement is important for maintenance of the lifecycle of Bb, enabling survival of the pathogen within the host as well as in the midgut of a feeding tick when ospC expression is induced.     

The flagellin gene of Borrelia miyamotoi sp. nov. and its phylogenetic relationship among Borrelia species

Abstract We have cloned and sequenced the flagellin gene from Borrelia miyamotoi strain HT31 and compared it with previously published flagellin sequences. Sequence similarity analysis demonstrated that strain HT31 is phylogenetically distant from the three species of Lyme disease borreliae and is deeply branched into the relapsing fever borrelia cluster. The result was in full agreement with the classification of Borrelia strains using 16S rRNA sequences. This finding indicates that a phylogenetic analysis using flagellin gene sequences might be useful for classification of Borrelia strains.