Emerging Infectious Diseases Vol.1, No. 3 - July-September 1995

Dispatches

Simultaneous Infection of Ixodes ricinus Nymphs by Two Borrelia
burgdorferi Sensu Lato Species: Possible Implications for
Clinical Manifestations

Data from European studies indicate that in humans, particular
Borrelia burgdorferi genospecies may be associated with specific  
clinical manifestations of Lyme disease. Infections by B.
burgdorferi sensu stricto tend to lead to arthritic symptoms,
whereas infections by B. garinii appear to cause neurologic
complications. Late cutaneous manifestations (acrodermatitis)
appear to be associated with B. afzelii (1). Mixed clinical       
manifestations have also been described (2). Recently it has been
demonstrated, by using polymerase chain reaction (PCR), that DNA
from more than one of the three Borrelia species associated with
Lyme disease in Europe was present in the biological fluids of
Lyme disease patients (3). These data raise questions concerning
the relative growth of the Borrelia species after a bite by a
dually infected tick, the clinical significance of human
infection caused by more than one species of Borrelia, and the
origin of these multiple infections. This last point evokes       
the following question: do they result from successive bites by
two infected ticks or from a single bite by a tick infected by
more than one species?

To investigate whether ticks are infected by different species of
the B. burgdorferi complex at the same time, we carried out a
survey of the vector Ixodes ricinus during the spring of 1994, in
Rambouillet Forest near Paris. A total of 249 unfed nymphs,
collected from vegetation, were analyzed by PCR. The ticks were
then crushed in phosphate-buffered saline, solubilized in 0.5%
Tween 20, and boiled for 10 min. The resulting lysate was used as
a template for the amplification reactions by either the
universal ospA-based primers SL or the three pairs of
genospecific-based primers (3). These last primers distinguish
the three Lyme disease-associated B. burgdorferi sensu lato      
species, i.e., B. burgdorferi sensu stricto, B. garinii, and B.
afzelii. In some cases,amplified DNA products were digested with  
specific restriction enzymes to confirm the typing of the
Borrelia strain.

Thirty of the 249 nymphs were positive for B.burgdorferi when SL
universal primers were used. Further testing of 5 of 30 nymphs by
PCR, using genospecific primer sets andrestriction analysis, did
not confirm thepreliminary results with the universalprimers.
This may have been due either to thegenotypic variability of B.
burgdorferi sensulato or to the existence of other distinct
subgroups or genomic species included in B.burgdorferi sensu
Lato, as other data appear to indicate (4). Of the 25 other
nymphs, 22 were analyzed by both restriction analyses and the
specific primers, and three by restriction analysis alone. (The
available tick material was not sufficient to perform PCR with
genospecific primers.) Nineteen nymphs were infected by a single
species of Borrelia (fourby B. garinii, 15 by B. afzelii), and
six were infected by more than one (two by both B.burgdorferi
sensu stricto and B. garinii,three by B. garinii and B. afzelii,
one by B.burgdorferi sensu stricto and B. afzelii).

From these results, it appears that when nymphs are infected with
one species, B.afzelii is the most prevalent. This species may
actually be prevalent in this study area or may have a greater
tropism for dermal tissue and/or for the peripheral circulatory
system of the vertebrate than the other two species.  In infected
nymphs, the simultaneous presence of more than one genospecies in
unfed nymphs of I. ricinus was not exceptional(24%), and all
combinations of two species were observed. The association of
three genospecies has not yet been detected. Simultaneous
infections in unfed nymphs could have different explanations. The
first is a larval meal on a host infected by more than one
species. Recently, Apodemus speciosus(field mice) infected by two
different species have been found (5). A second possibility is
successive infectious interrupted larval meals. A third
possibility is an infectious larval meal by a previously
transovarially infected larva. The fourth possibility is a mixed
infection acquired transovarially.

Bruno Pichon,* Edmond Godfroid,# Bernard Hoyois,# Alex Bollen,#
Francois Rodhain,* and Claudine P‚rez-Eid*

* Unit‚ d'Ecologie des SystŠmes Vectoriels, Institut Pasteur
75724 Paris, France

# Laboratoire de Genetique Appliqu‚, Universit‚ Libre de
Bruxelles, Rue de l'Industrie 24, B-1400 Nivelles, Belgium

This work was supported by grants from the Recherche & Partage
Association, the Gould Foundation, and the Conseil du Departement
du Val d'Oise. E. Godfroid, B. Hoyois, and A.Bollen, were
supported by a grant from the Walloon Region of Belgium
(Convention UIB, Region Wallonne No. 2267).

References

1. Assous MV, Postic D, Paul G, Nevot P, Baranton G. Western blot
analysis of sera from Lyme borreliosis patients according to the
genomic species of the Borrelia strain used as antigens. Eur J
Clin Infect Dis 1993;12:261-8.

2. Wienecke R, Neubert U, Volkenandt M. Cross-immunity among
types of Borrelia burgdorferi. Lancet 1993;341:830-1.

3. Demaerschalck I, Ben Messaoud A, De Kesel M, Hoyois B, Lobet
Y, Hoet P, et al. Simultaneous presence of different Borrelia
burgdorferi genospecies in biological fluids of Lyme disease
patients. J Clin Microbiol 1995;33:602-8.

4. Nohlmans LMKE, De Boer R, Van Den Boggard AEJM, Van Boven CPA.
Genotypic and phenotypic analysis of Borrelia burgdorferi
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5. Nakao M, Miyamoto K. Mixed infection of different Borrelia
species among Apodemus speciosus mice in Hokkaido, Japan. J Clin
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