Relapsing fever-like spirochetes infecting European vector tick of Lyme disease agent. (Research).To determine whether relapsing fever--like spirochetes associated with hard ticks may infect Ixodes ricinus ticks in central Europe, we screened questing ticks for 16S rDNA similar to that of Asian and American relapsing fever--like spirochetes. We compared the prevalence of these spirochetes to that of Lyme disease spirochetes transmitted by the same vector. Relapsing fever--like spirochetes infect 3.5% of questing vector ticks in our three central European sites near the Rhein Valley. These spirochetes differ genetically from their American and Asian analogs while being relatively homogeneous in the region we sampled. The Lyme disease genospecies most commonly detected in central Europe are distributed broadly, whereas those that are less frequently found appear to be place-specific. The absence of co-infected ticks suggests that relapsing fever--like and Lyme disease spirochetes may not share hosts. Exposure risk for relapsing fever--like spirochetes is similar to that of certain Lyme disease genospecies. Although many persons may be bitten by ticks infected by relapsing fever--like spirochetes, health implications remain unknown. ********** Diverse pathogens infect ticks of the Ixodes ricinus complex in North America, Asia, and Europe. Viral agents include those of tick-borne encephalitis, Russian spring-summer encephalitis Russian spring-summer encephalitis see Russian spring-summer encephalitis. , louping ill, Powassan encephalitis (1), and its variant known as deer tick virus (2). The piroplasms that infect these ticks include Babesia divergens, B. microti, B. odocoilei, and B. gibsoni (3). Other infectious agents include Ehrlichia (Anaplasma) phagocytophila, Rickettsia rickettsia (rĭkĕt`sēə), any of a group of very small microorganisms, many disease-causing, that live in vertebrates and are transmitted by bloodsucking parasitic arthropods such as fleas, lice (see louse), and ticks. helvetica, possibly Bartonella quintana, and a nonpathogenic endosymbiontic rickettsia (4-6). Entomophagic fungal, nematode nematode or roundworm Any of more than 15,000 named and many more unnamed species of worms in the class Nematoda (phylum Aschelminthes). Nematodes include plant and animal parasites and free-living forms found in soil, freshwater, saltwater, and even vinegar , and wasp pathogens are also found in these ticks (7). The diverse array of Lyme disease spirochetes infecting ticks in the I. ricinus complex has been subdivided into at least six known genospecies, Borrelia burgdorferi sensu stricto, B. afzelii, B. garinii, B. valaisiana, B. bissettii, and B. lusitaniae (8,9). More recently, a relapsing fever--like spirochete spirochete Any of an order (Spirochaetales) of spiral-shaped bacteria. Some are serious pathogens for humans, causing such diseases as syphilis, yaws, and relapsing fever. Spirochetes are gram-negative (see gram stain) and motile. , B. miyamotoi (10), has been added to this array of parasitic microbes. B. miyamotoi was originally described from I. persulcatus ticks sampled in Japan. Its flagellin flagellin /fla·gel·lin/ (flah-jel´in) a protein of bacterial flagella; it is composed of subunits in several-stranded helical arrangement. and 16S rRNA sequences resemble those of the relapsing fever spirochetes more closely than those of any of the known Lyme disease spirochetes (10,11). A closely related agent, designated as Borrelia Borrelia A genus of spirochetes that have a unique genome composed of a linear chromosome and numerous linear and circular plasmids. Borreliae are motile, helical organisms with 4–30 uneven, irregular coils, and are 5–25 micrometers long and 0. nov. sp., has recently been discovered in North America (12). The primers used to detect infection by Lyme disease spirochetes generally fail to amplify DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. from these organisms. Although Borrelia nov. sp. infects approximately 2% of the American I. scapularis ticks, Lyme disease spirochetes are found in approximately 12%. The prevalence of B. miyamotoi infection in Japan, however, has not been determined. Whether these potential threats to human health are present in Europe remains unknown. Relapsing fever--like spirochetes associated with hard ticks may infect European I. ricinus ticks. To determine whether such organisms are present in Europe, we screened questing ticks for DNA similar to that of the American and Asian relapsing fever--like spirochetes. In particular, we amplified a fragment of the 16S rRNA gene found in the various genospecies of Lyme disease spirochetes as well as in the Asian and American relapsing fever--like spirochetes and estimated how prevalent such infections are in a region in central Europe. Materials and Methods We sampled questing I. ricinus ticks from three sites located near the Rhein Valley in Germany and France. The German site was near the town of Maikammer and the French site was near the town of Lembach, approximately 40 km southwest of Maikammer. A second French site, Petite Camargue Alsacienne, was situated 160 km farther south, near the German and Swiss borders (13). Ticks were collected in April 2001 by passing a flannel flag over vegetation. Ticks were confined in screened vials and stored at 10[degrees]C [+ or -] 1[degrees]C, and all nymphs and adults were identified to species. To detect and identify the various Lyme disease spirochetes and relapsing fever--like spirochetes in these ticks, the opisthosoma The opisthosoma is the posterior portion of the arachnids body behind the prosoma (cephalothorax). The number of segments and appendages on the opisthosoma vary. In general, appendages are absent or reduced, although in horseshoe crabs they persist as large plate-like limbs, called of each was opened in a drop of physiologic saline, and the midgut midgut /mid·gut/ (mid´gut) the region of the embryonic digestive tube into which the yolk sac opens and which gives rise to most of the intestines; ahead of it is the foregut and caudal to it is the hindgut. was obtained and transferred to a tube containing 180 [micro]L lysis buffer (ATL (Active Template Library) A set of software routines from Microsoft that provide the basic framework for creating ActiveX and COM objects. Stemming from the standard template library (STL) that comes with C++ compilers, ATL includes an object wizard that sets up Tissue Lysis Buffer, Qiagen GmbH, Hilden, Germany) and 20 [micro]L proteinase proteinase /pro·tein·ase/ (pro´ten-as?) endopeptidase. pro·tein·ase n. A protease that begins the hydrolytic breakdown of proteins usually by splitting them into polypeptide chains. K (600 mAU/mg). Midguts were lysed at 56[degrees]C overnight. DNA was extracted by using the QIAamp DNA Mini Kit (Qiagen GmbH) according to the manufacturer's instructions. DNA of nymphal or adult ticks was eluted with 50 [micro]L or 75 [micro]L elution elution /elu·tion/ (e-loo´shun) in chemistry, separation of material by washing; the process of pulverizing substances and mixing them with water in order to separate the heavier constituents, which settle out in solution, from the buffer, respectively, and stored at -20[degrees]C until polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) was performed. Borrelia genospecies were characterized by amplifying and sequencing a 600-nucleotide fragment of the gene encoding the 16S rRNA. To increase the sensitivity for spirochetal DNA detection in ticks, we used nested PCR. Aliquots of DNA suspensions (2 [micro]L) were diluted to 50 [micro]L by using 200 [micro]M of each deoxynucleoside triphosphate triphosphate /tri·phos·phate/ (tri-fos´fat) a salt containing three phosphate radicals. tri·phos·phate n. A salt or ester containing three phosphate groups. , 1.5 mM Mg[Cl.sub.2], 0.5 U Taq polymerase (Qiagen GmbH) as well as 15 pmol of the outer primer pair and PCR-buffer supplied with the Taq polymerase. We used the following primer sequences of the 16S rRNA gene as outer primers (14): 16S1A 5'-CTA ACG ACG American College of Gastroenterology; angiocardiography; apexcardiogram. AcG accelerator globulin (coagulation factor V). AcG accelerator globulin (clotting factor V). CTG CTG Cartridge CTG Center for Technology in Government (SUNY, Albany, New York) CTG Center for Technology in Government CTG Computer Task Group (IT consulting company; Buffalo, NY, USA) GCA GCA, ground-controlled approach: see instrument-landing system. GTG (chat) gtg - Got to go. The user is about to stop chatting. CGT CGT Capital Gains Tax CGT Confédération Générale du Travail (French Labor Union) CGT Confederación General del Trabajo (Spanish: Federation of Trade Unions) CTT CTT Correios (Portuguese Postal Service) CTT Certified Technical Trainer CTT Charity Technology Trust CTT Cholesterol Treatment Trialists' (collaboration) CTT Common Task Training AAG AAG Association of American Geographers (Washington, DC) AAG Assistant Attorney General AAG Asociación Argentina de Golf AAG Anti-Aircraft Gun AAG Assistant Adjutant General AAG Australian Association of Gerontology C-3' and 16S1B 5'-AGC GTC GTC See: Good 'til cancelled order GTC See good-till-canceled order (GTC). AGT AGT antiglobulin test. CTT GAC GAC Great American Country GAC Global Assembly Cache (Microsoft .NET) GAC Global Assembly Cache GAC Granular Activated Carbon GAC Gustavus Adolphus College (St. CCA (1) (Common Cryptographic Architecture) Cryptography software from IBM for MVS and DOS applications. (2) (Compatible Communications A GAA GAA Goals Against Average (Hockey) GAA Gaelic Athletic Association GAA Gravure Association of America (Rochester, NY) GAA German Agro Action GAA Global Aquaculture Alliance GAA Gay Activists Alliance GTT GTT, n See test, glucose tolerance. GTT Glucose tolerance test, see there C-3' (positions 36-757). The mixture was placed in a thermocycler (PTC (PTC, Needham, MA, www.ptc.com) Long a world leader in mechanical computer-aided design, manufacturing and engineering software, PTC, through acquisitions and reorganization, has transformed itself into a leading provider of Internet-based B2B solutions for discrete manufacturers. 200, MJResearch, Biozym Diagnostic, Hess. Oldendorf, Germany), heated for 1 min at 94[degrees]C, and subjected to 30 cycles of 20 s denaturation denaturation, term used to describe the loss of native, higher-order structure of protein molecules in solution. Most globular proteins exhibit complicated three-dimensional folding described as secondary, tertiary, and quarternary structures. at 94[degrees]C, 20 s each for the first annealing annealing (ənēl`ĭng), process in which glass, metals, and other materials are treated to render them less brittle and more workable. reaction at 63[degrees]C with a 40 s extension at 72[degrees]C and a final extension for 2 min at 72[degrees]C. After the first amplification with the outer set of primers, 2 [micro]L of the amplification product was transferred to a fresh tube containing 48 [micro]L of the reaction mixture previously described, except that 2.5 mM Mg[Cl.sub.2] and 20 pmol of the inner primer pair was used 16S2A S2A Silicon Storage Appliance (DataDirect Networks) S2A Scan to Application 5'-AGT CAA Caa See CCC. ACG GGA GGA Generalized Gradient Approximation GGA Good Game All ggA Geschützte Geographische Angabe (German: Protected Geographical Indication) GGA Global Gecko Association GGA Georgia Geocachers Association TGT TGT Target TGT Ticket Granting Ticket (Windows 2000 Kerberos security) TGT Target Corp (stock symbol) TGT Turbine Gas Temperature TGT TDRSS Ground Terminal TGT Tank Gunnery Trainer TGT Target Tracker AGC AGC Automatic Gain Control AGC Automotive Glass Cartridge (fuse) AGC Associated General Contractors AGC Associated General Contractors of America AGC Atypical Glandular Cells AGC Attorney-General's Chambers AAT Alpha-1-antitrypsin (AAT) A blood component that breaks down infection-fighting enzymes such as elastase. Mentioned in: Chronic Obstructive Lung Disease AC-3' and 16S2B S2B Solutions to Business 5'-GGT ATT ATT ammonia tolerance test. CTT TCT TCT The Capital Times (Madison, WI newspaper) TCT Transcatheter Cardiovascular Therapeutics TCT The Coroner's Toolkit TCT Trans Canada Trail TCT Tcl Core Team TCT Tsukuba College of Technology (Japan) GAT ATC ATC Air Traffic Control ATC Average Total Cost ATC Certified Athletic Trainer ATC At the Center (Hartford, Maine retreat center) ATC Applied Technology Council ATC All Things Considered AAC (Advanced Audio Coding) An audio compression technology that is part of the MPEG-2 and MPEG-4 standards. AAC, especially MPEG-4 AAC, provides greater compression and better sound quality than MP3, which also came out of the MPEG standard. AG-3' (positions 66-720). This mixture was subjected to 35 amplification cycles by using the cycle conditions described previously, except that the annealing reaction was performed at 56[degrees]C and the extension reaction lasted 30 s. DNA was extracted, reaction vials were prepared for amplification, templates were added, and products underwent electrophoresis in separate rooms. In each sixth reaction mix, water was added instead of extracted DNA to serve as negative control. PCR products were detected by electrophoresis in a 1.5% agarose gel stained with ethidium bromide. Each PCR amplification product was purified by using a QIAquick-Spin PCR column (Qiagen GmbH) according to the manufacturer's instructions. Amplified DNA fragments were directly sequenced in both directions by using the inner primers by the dideoxynucleotide chain-termination method on a Li-COR DNA4200 sequencer (Li-COR Biosciences, Bad Homburg, Germany). Each resulting sequence was compared with sequences of the same gene fragment representing various spirochetal genospecies. The following sequences served for comparison: accession nos. X85196 and X85203 for B. burgdorferi s.s.; X85190, X85192, and X85194 for B. afzelii; X85193, X85199, and M64311 for B. garinii; X98228 and X98229 for B. lusitaniae; AJ224138 for B. bissettii; X98232 and X98233 for B. valaisiana; AY024345 for the American Borrelia sp.nov.; and D45192 for B. miyamotoi. A complete match, permitting no more than two nucleotide changes, was required. For comparison with the American and Asian relapsing fever--like spirochetes, Borrelia genus-specific primers (Bf1 5'-GCT GGC GGC Girl Guides of Canada GGC Greenwood Genetic Center (South Carolina) GGC Gwasanaeth Gwaed Cymru (Welsh Blood Service) GGC Generalized Goppa Code GGC Grosvenor Gallery Company AGT GCG GCG Genetics Computer Group GCG Glucagon GCG Good Corporate Governance GCG Global Consumer Group GCG Global Church of God GCG Generalized Conjugate Gradient GCG Global Change Game GCG Geological Curators' Group GCG Giant-Cell Granuloma TCT TAA TAA - Track Average Amplitude GC-3' and Br1 5'-GCT TCG (Trusted Computing Group, Beaverton, OR, www.trustedcomputinggroup.org) The successor to the Trusted Computer Platform Alliance (TCPA), announced in 2003 by founding members AMD, HP, IBM, Intel and Microsoft. GGT GGT ?-glutamyl transferase. GGT Gammaglutamyltransferase, see there ACT CTC CTC - Cornell Theory Center AAC TC-3') were used to amplify and sequence a fragment of the 16S rRNA gene approximately 1,350-bp in length, according to the published PCR conditions (15). A set of degenerate primers (FLA 120F 5'-AGA ATT AAT MGH GCW TCT GAT GAT G-3' and FLA920R 5'-TGC YAC YAC yeast artificial chromosome. AAY HTC ATC TGT CAT T-3') was used to amplify and sequence an approximately 800-bp fragment of the flagellin gene, according to the published PCR conditions (12). Results To determine whether relapsing fever--like spirochetes may infect I. ricinus ticks in our study sites, DNA of field-derived nymphs and adults was amplified by using primers that bind to a 16S rRNA gene fragment present in relapsing fever--like spirochetes as well as Lyme disease spirochetes. Of the 565 ticks that were processed, 197 produced amplification products. Of these, the sequences of 177 were consistent with those of known genospecies of the Lyme disease spirochete. Derived sequences from the remaining 20 samples corresponded closely to sequences of the Asian and American relapsing fever--like spirochetes. These DNA fragments (GenBank accession no. AY253149) differed by six bases from the American and Asian relapsing fever--like spirochetes. In all three sites, DNA of bacteria related to relapsing fever spirochetes was detected in questing I. ricinus ticks. We estimated the prevalence of the various spirochetal infections in ticks sampled in our study sites. Spirochetes infected approximately a quarter of nymphal and more than a third of adult ticks (Table 1); adults were infected more frequently than were nymphs (p=0.0001, Fisher exact test). Approximately 3.5% of these questing I. ricinus ticks were infected by a relapsing fever--like spirochete, constituting approximately one tenth of all spirochete-infected ticks (10.2%). The prevalence of infection by the relapsing fever--like spirochetes was similar at each of the three sites. Although the relapsing fever--like spirochetes appeared to infect more adult than nymphal ticks, this difference was not significant. A relapsing fever--like spirochete commonly infects questing I. ricinus ticks in central Europe. The relatedness of the European relapsing fever--like spirochete to such spirochetes from Asia and North America was determined by comparing a 780-bp fragment of the flagellin gene as well as a 1,106-bp fragment of the 16S rRNA gene. The flagellin sequence of the European relapsing fever--like spirochete (GenBank accession no. AF529084) was 98.8% similar to that of the American spirochete and 98.3% similar to that from Japan (Table 2). The European spirochetes were characterized by six unique nucleotides. The 16S rDNA sequence of the European variant (GenBank accession no. AF529085), similarly, shared 99.6% and 99.5% of the sequence of the North American and Japanese spirochete, respectively (Table 3). The flagellin and 16S rDNA sequences of the various European relapsing fever--like spirochetes were identical. The European relapsing fever--like spirochete differs from its American and Asian relatives and is relatively homogeneous within the region. We described the relative prevalence of each genospecies in our sample of ticks. B. afzelii and B. garinii were most prevalent, each infecting approximately a third of all spirochete-infected ticks, regardless of location (Table 1). B. burgdorferi s.s., in contrast, infected few such ticks. The prevalence of B. valaisiana varied among our study sites; this spirochete appeared to be more prevalent in the sites that were considered southern (p<0.05, Fisher exact test). The range of B. lusitaniae was more restricted than that of the other genospecies. The genospecies of Lyme disease spirochetes that are most commonly detected in central Europe are distributed broadly, whereas those that are found less frequently tend to be place-specific. Finally, we determined how frequently ticks might be infected by both relapsing fever--like and Lyme disease spirochetes. Of the 565 questing ticks examined, 7 (1.2%) harbored more than one spirochete variant. Mixed infections were distributed similarly among our study sites. B. garinii and B. valaisiana appeared to be associated with each other, co-infecting three adult ticks, as were B. afzelii and B. burgdorferi s.s., co-infecting two nymphs and one adult. Another adult tick harbored B. garinii and B. afzelii. No co-infections of relapsing fever--like and Lyme disease spirochetes were noted. The absence of an association between relapsing fever--like spirochetes and Lyme disease spirochetes in ticks suggests that these spirochetes may not share common hosts. Discussion Among the many microbes transmitted by the vectors of Lyme disease spirochetes are distinct Borrelia related to relapsing-fever spirochetes. B. miyamotoi infects I. persulcatus ticks in Japan, and a closely related spirochete infects a related tick on the East Coast of North America (10,12). We now know that a third member of this group infects I. ricinus ticks in central Europe. Despite their wide distribution, the three relapsing fever--like spirochetes appear to vary little; few nucleotides are substituted in the sequences of the two gene fragments that were examined. The relapsing fever--like spirochetes appear to be homogeneous in North America (12) as well as in Europe. We conclude that each of the various kinds of ticks that serve as vectors for Lyme disease spirochetes, I. ricinus, I. persulcatus, I. scapularis (= dammini), may be infected by relapsing fever--like spirochetes. The recently identified relapsing fever--like spirochetes appear to co-exist regionally with the agents of Lyme disease and may inflate estimates of exposure risk to Lyme disease spirochetes on the basis of their prevalence in vector ticks. Neither darkfield nor immunofluorescence microscopy serves to discriminate Lyme disease spirochetes from relapsing fever--like spirochetes (12). By amplifying and sequencing a particular fragment of the 16S rRNA gene, Lyme disease spirochetes may be distinguished from relapsing fever--like spirochetes and identified to the genospecies level. Relapsing fever--like spirochetes constitute approximately one tenth of spirochetes infecting North American vector ticks (12) as well as those in central Europe. Questing I. ricinus ticks in our study sites more frequently harbor relapsing fever--like spirochetes than B. burgdorferi s.s. (p<0.05, Fisher exact test). The proportion of relapsing fever--like spirochetes appears to be similar in the population of European and American vector ticks. The vertebrate host associations of relapsing fever--like spirochetes transmitted by hard ticks have not yet been defined. If the prevalence of a tick-borne pathogen increases with each developmental stage of the tick, a reservoir host is likely involved in its transmission cycle. Although evidence of such a pattern of accumulation, in the case of the relapsing fever--like spirochetes, is no more than marginal; field, as well as laboratory, observations suggest the possibility of vertebrate hosts. B/7, mtyamotol has been isolated from the blood of a Small Japanese Field Mouse The Small Japanese Field Mouse (Apodemus argenteus) is a species of rodent in the Muridae family. It is found only in Japan. References
To the extent that diverse pathogens share reservoir hosts, they might also co-infect their vector hosts. Although various Lyme disease spirochetes occasionally are detected in the same tick, the relapsing fever--like spirochetes appear not to co-infect ticks that are infected by Lyme disease spirochetes. None of our 565 European ticks and only 1 of 712 American ticks in an earlier study were co-infected in this manner (12). If these infections were distributed randomly, numerous co-infections would be anticipated. The presence of one kind of spirochete, however, appears to exclude the presence of the other. Lyme disease and relapsing fever--like spirochetes may directly interact in their tick or vertebrate hosts (e.g., inhibiting the other's proliferation) or each may be closely associated with a reservoir host that is zooprophylactic for the other kind of spirochete. Co-infection between diverse spirochetes occurs only infrequently. The distribution of B. lusitaniae, the most recently described Lyme disease genospecies, is anomalous. With the possible exception of B. valaisiana, the prevalence of the other genospecies is constant from site to site. Indeed, these estimates correspond closely to those in a survey conducted in more northerly sites (16,17). B. lusitaniae, in contrast, was detected in only one of the three sites surveyed in the present study and not at all in four other sites that we have investigated (unpub. data). Although this genospecies may more frequently infect ticks in the Mediterranean basin (Portugal [18], Spain [19], and Tunisia [20]), it has been detected in ticks as far east as Slovakia (21), Moldovia, the Czech Republic, and Ukraine (22). The prevalence of B. lusitaniae in our Lembach site corresponds more to that in southern than in eastern Europe. Although B. lusitaniae induces disease when injected into susceptible mice (23), nothing is known about its pathogenic potential in people. The distribution of B. lusitaniae is irregular and its biologic relationships largely unknown. Certain members of the relapsing fever group of spirochetes, mainly those transmitted by soft ticks, cause severe human disease. The classic agent of human relapsing fever in Europe is attributed to infection by B. hispanica, a relatively rare Ornithodoros-transmitted spirochete endemic to the southern part of that continent (4). Recently, a "Spain strain" of such spirochetes was implicated in human disease (24). The relapsing fever--like spirochetes that we describe differ fundamentally from these pathogens in that they are transmitted by hard ticks. Two kinds of spirochetes in this group are endemic to North America, B. theileri and B. lonestari, which are transmitted mainly by Boophilus and Amblyomma ticks, respectively. B. theileri is the agent of bovine borreliosis, a severe veterinary disease (25). B. lonestari appears to cause a human illness, known as Master's disease or southern tick-associated rash illness (STARI STARI Southern Tick-Associated Rash Illness STARI Star Annual Index ) (26-29). Although the Asian, American, and European Ixodes-borne relapsing fever--like spirochetes relate more closely to each other than to B. theileri and B. lonestari, they form a monophyletic monophyletic /mono·phy·let·ic/ (mon?o-fi-let´ik) descended from a common ancestor or stem cell. mon·o·phy·let·ic adj. 1. Descended or derived from one original stock or source. clade clade Cladus, subtype Genetics A branch of biological taxa or species that share features inherited from a common ancestor; a single phylogenetic group or line. See Inheritance, Species. with these other hard-tick-associated spirochetes (12,30). Neither the pathognomonic pathognomonic /pa·thog·no·mon·ic/ (path?ug-no-mon´ik) specifically distinctive or characteristic of a disease or pathologic condition; denoting a sign or symptom on which a diagnosis can be made. recurrent fever of the soft-tick--transmitted spirochetes nor the transient fever and rash associated with Master's disease has been associated with infection by the Ixodes-borne relapsing fever--like spirochete. Exposure risk of this agent is almost as great as that to one or another of the European Lyme disease genospecies. Although many people may be bitten by ticks infected by relapsing fever--like spirochetes, the resulting health implications remain unknown.
Table 1. Prevalence of spirochetal variants in questing Ixodes ricinus
ticks sampled from central Europe (a)
% infected ticks
Ticks examined infected by Borrelia
Site Stage No. % infected RFS afz gar
PC Nymph 107 26.2 10.7 28.6 28.6
Adult 34 52.9 16.7 33.3 22.2
MK Nymph 63 28.6 5.6 27.8 55.6
Adult 113 38.9 13.6 22.7 31.8
LB Nymph 45 17.7 0 62.5 12.5
Adult 203 39.9 8.6 37.0 25.9
Ticks % infected ticks
examined infected by Borrelia
% total ticks
Site Stage val bur lus infected by RFS
PC Nymph 32.1 7.1 0 2.8
Adult 27.8 5.6 0 8.8
MK Nymph 5.6 11.1 0 1.6
Adult 29.5 2.3 0 5.3
LB Nymph 0 0 25.0 0
Adult 7.4 1.2 22.2 3.4
(a) The sampling sites were Petite Camargue Alsacienne, France (PC),
Maikammer, Germany (MK), and Lembach, France (LB), and the variants
were B. afzelii (afz), B. garinii (gar), B. valaisiana (val), B.
burgdorferi s.s. (bur), and B. lusitaniae (lus), European relapsing
fever-like spirochete (RFS).
Table 2. Similarity matrix for the flagellin sequences of various
relapsing fever and relapsing fever-like spirochetes (RFS)
% similarity with
American European Borrelia
Species Variant Accession no. RFS RFS miyamotoi
American RFS MP2000 AY024344 100
European RFS LB-M56 AF529084 98.84 100
B. miyamotoi HT31 D43777 98.56 98.32 100
B. lonestari Texas U26704 89.66 89.17 89.98
B. hispanica N.n. (a) U28498 85.60 84.90 85.82
"Spain" strain N.n. U28499 88.35 88.06 88.94
% similarity with
"Spain"
Species B. lonestari B. hispanica strain
American RFS
European RFS
B. miyamotoi
B. lonestari 100
B. hispanica 84.36 100
"Spain" strain 86.86 94.32 100
(a) N.n., not named.
Table 3. Similarity matrix for the 16S rRNA sequences of various
relapsing fever and relapsing fever-like spirochetes (RFS)
% similarity with
American European Borrelia
Species Variant Accession no. RFS RFS miyamotoi
American RFS MP2000 AY024345 100
European RFS LB-W100 AF529085 99.64 100
B. miyamotoi HT31 D45192 99.34 99.46 100
B. lonestari Texas-20 U23211 98.19 98.28 98.19
B. hispanica UESV/246 U42294 98.16 98.37 97.79
"Spain" strain N.n. (a) U28502 97.10 97.56 96.69
% similarity with
"Spain"
Species B. lonestari B. hispanica strain
American RFS
European RFS
B. miyamotoi
B. lonestari 100
B. hispanica 98.13 100
"Spain" strain 97.06 98.87 100
(a) N.n., not named.
Acknowledgments We thank Mandy Potter for excellent technical assistance. This study was supported by grant Ma 942/10-1 from the Deutsche Forschungsgemeinschaft. References (1.) Dumpis U, Crook D, Oksi J. Tick-borne encephalitis. Clin Infect Dis 1999;28:882-90. (2.) Ebel GD, Campbell E, Goethert HK, Spielman A, Telford SR. Enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. transmission of deer tick virus in New England and Wisconsin sites. Am J Trop Med Hyg 2000;63:36-42. (3.) Homer MJ, Aguilar-Delfin I, Telford SR, Krause PJ, Persing DH. Babesiosis babesiosis (bəbē'bēō`sĭs), tick-borne disease caused by a protozoan of the genus Babesia. Babesiosis most commonly affects domestic and wild animals and can be a serious problem in cattle. . Clin Microbiol Rev 2000;13:451-69. (4.) Parola P, Raoult D. 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Molecular and pathogenic characterization of Borrelia burgdorferi sensu lato isolates from Spain. J Clin Microbiol 2000;38:4026-33. (20.) Younsi H, Postic D, Baranton G, Bouattour A. High prevalence of Borrelia lusitaniae in Ixodes ricinus ticks in Tunisia. Eur J Epidemiol 2001;17:53-6. (21.) Gem L, Hu CM, Kocianova E, Vyrostekova V, Rehacek J. Genetic diversity of Borrelia burgdorferi sensu lato isolates obtained from Ixocles ricinus ticks collected in Slovakia. Eur J Epidemiol 1999;15:665-9. (22.) Postic D, Korenberg E, Gorelova N, Kovalevski YV, Bellenger E, Baranton G. Borrelia burgdorferi sensu lato in Russia and neighbouring countries: high incidence of mixed isolates. Res Microbiol 1997;148:691-702. (23.) Zeidner NS, Nuncio NUNCIO. The name given to the Pope's ambassador. Nuncios are ordinary or extraordinary; the former are sent upon usual missions, the latter upon special occasions. MS, Schneider BS, Gern L, Piesman J, Brandao O, et al. A Portuguese isolate of Borrelia lusitaniae induces disease in C3H/HeN mice. J Med Microbiol 2001;50:1055-60. (24.) Anda P, Sanchez-Yebra W, del Mar Vitutia M, Pastrana EP, Rodriguez I, Miller NS, et al. A new Borrelia species isolated from patients with relapsing fever in Spain. Lancet 1996;348:162-5. (25.) Smith RD, Miranpuri GS, Adams JH, Ahrens EH. Borrelia theileri: isolation from ticks (Boophilus microplus) and tick-borne transmission between splenectomized calves. Am J Vet Res 1985;46:1396-8. (26.) Barbour AG, Maupin GO, Teltow G J, Carter C J, Piesman J. Identification of an uncultivable Borrelia species in the hard tick Amblyomma americanum: possible agent of a Lyme disease-like illness. J Infect Dis 1996;173:403-9. (27.) Armstrong PM, Rich SM, Smith RD, Hartl DL, Spielman A, Telford SR. A new Borrelia infecting lone star ticks. Lancet 1996;347:67-8. (28.) Burkot TR, Mullen GR, Anderson R, Schneider BS, Happ CM, Zeidner NS. Borrelia lonestari DNA in adult Amblyomma americanum ticks, Alabama. Emerg Infect Dis 2001;7:471-3. (29.) James AM, Liveris D, Wormser GP, Schwartz I, Montecalvo MA, Johnson BJB. Borrelia lonestari infection after a bite by an Amblyomma americanum tick. J Infect Dis 2001;183:1810-4. (30.) Rich SM, Armstrong PM, Smith RD, Telford SR. Lone star tick-infecting borreliae are most closely related to the agent of bovine borreliosis. J Clin Microbiol 2001;39:494-7. Address for correspondence: Dania Richter, Abteilung Parasitologie, Institut fur Pathologie, Charite, Humboldt-Universitat zu Berlin, Malteserstrasse 74-100, 12249 Berlin, Germany; fax: +49 30 776 2085; email: drichter@charite.de Dania Richter, * Daniels B. Schlee, * and Franz-Rainer Matuschka * * Institut fur Pathologie, Charite, Humboldt-Universitat zu Berlin, Berlin, Germany Dr. Richter is a research associate at the Charite Medical School, Humboldt-Universitat zu Berlin. Her research interests focus on the immunologic and molecular interface of the host-vector-pathogen relationship in the epizootiology of tick-borne diseases. |
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