Establishment of a minor groove binder-probe based quantitative real time PCR to detect Borrelia burgdorferi sensu lato and differentiation of Borrelia spielmanii by ospA-specific conventional PCR

The first human isolate of Borrelia lusitaniae recovered from a Portuguese patient with suspected Lyme borreliosis is described. This isolate, from a chronic skin lesion, is also the first human isolate of Borrelia in Portugal. Different phenotypic and molecular methods are used to characterize it.

In 475 Borrelia-infected Ixodes ricinus (2155 ticks investigated) from southern Germany the most common Borrelia burgdorferi sensu lato species was B. garinii (34.3%) followed by B. afzelii (25.1%), B. burgdorferi sensu stricto (22.0%), and B. valaisiana (12.7%). B. spielmanii sp. nov. was detected in 5.9% of the 475 infected ticks. Hints for a focal distribution were found for B. spielmanii sp. nov. and B. garinii OspA type 4. In 242 patient isolates, dominance (66.9%) of B. afzelii for skin could be confirmed, while frequency of B. garinii in cerebrospinal fluid (CSF) isolates (51.1%) was comparable to the frequency in nymphal ticks (51.6%). Four patient isolates from southern Germany and two from Slovenia, all isolated from erythema migrans, could be assigned to B. spielmanii sp. nov. Within this new species high sequence identities were found for rrs, fla, and ospA while rrf-rrl, ospC, and dbpA were less conserved: three new ospC and two new dbpA sequence types were found. This genetic heterogeneity reveals that B. spielmanii sp. nov. did not evolve just recently.

The Lyme disease spirochaete, Borrelia burgdorferi s.l., is the only Borrelia known to infect both mammals and birds. The main vertebrate reservoirs of B. burgdorferi are thought to be various small and intermediate size mammals, but the importance of birds as a reservoir has not been thoroughly explored. In the Northern and Southern Hemispheres the seabird tick, Ixodes uriae, is prevalent and closely associated with many species of colony-nesting marine birds. Here we report the presence of spirochaetes, demonstrated by immunofluorescent assay, by polymerase chain reaction and in culture, in I. uriae infesting razorbills on an island in the Baltic Sea. This island is free from mammals. The protein profile of the spirochaetes and the sequences of their flagellin and ospA genes are identical to those of the Lyme disease spirochaete, Borrelia burgdorferi s.l., previously isolated from I. ricinus on a nearby island. In biopsies from the foot web of razorbills, B. burgdorferi-specific DNA was detected after amplification by polymerase chain reaction. Our results suggest that birds play an important part in the maintenance of B. burgdorferi and that mammals may not be a prerequisite for its life cycle.