Heritable susceptibility to severe Borrelia burgdorferi-induced arthritis is dominant and is associated with persistence of large numbers of spirochetes in tissues.

In human Lyme disease, symptoms with widely varying levels of severity have been observed. A mouse model of Lyme disease has been developed which allows analysis of mice with mild, moderate, and severe pathologies after inoculation with the spirochete Borrelia burgdorferi. To determine whether the differences in symptoms reflect differences in the number of spirochetes persisting in affected tissues, a sensitive PCR technique was developed to detect B. burgdorferi DNA in virtually any tissue of an infected mouse. This analysis, which detects DNA from as few as three spirochetes, revealed the presence of B. burgdorferi DNA in many tissues from severely arthritic C3H/HeJ mice as early as 1 week postinfection. The heart, ear, and ankle were particularly heavily infected, although B. burgdorferi DNA was also detected in spleen, liver, brain, kidney, bladder, uterus, and lymph nodes. In contrast, much lower levels of spirochete DNA were detected in tissues of infected BALB/c mice, which develop less severe arthritis when infected with B. burgdorferi than do C3H/HeJ mice. This difference was evident throughout the 5-week analysis. A competitive PCR method allowed determination of the absolute number of spirochete gene sequences in infected tissues. Ankles and hearts from C3H/HeJ mice were found to harbor 10(7) copies of the B. burgdorferi ospA gene, while these tissues from BALB/c mice contained 5- and 10-fold less B. burgdorferi DNA, respectively. The genetic regulation of severe pathology was analyzed by infecting the offspring of a cross between C3H/HeJ and BALB/c mice. The F1 mice developed severe arthritis and contained high levels of Borrelia DNA in the heart and ankle, similar to the C3H/HeJ parent. These findings indicate that susceptibility to severe arthritis is a dominant trait and suggest that it may correlate with high levels of persisting spirochetes. Models of pathology in Lyme disease should take into consideration the fact that severity of pathology may be directly related to the number of organisms in infected tissues.     

Evidence for B-lymphocyte mitogen activity in Borrelia burgdorferi-infected mice.

Borrelia burgdorferi produces a mitogen for murine B lymphocytes which can be measured in vitro by polyclonal stimulation of proliferation and immunoglobulin production (R. Schoenfeld, B. Araneo, Y. Ma, L. Yang, and J. J. Weis, Infect. Immun. 60:455-464, 1992). Sonicated B. burgdorferi cells also stimulated IL-6 production by splenocyte cultures. We have used the murine model for Lyme disease described by Barthold et al. (S. W. Barthold, D. S. Beck, G. M. Hansen, G. A. Terwilliger, and K. D. Moody, J. Infect. Dis. 162:133-138, 1990) to determine whether the B. burgdorferi B-cell mitogen is expressed during active infection. To correlate arthritic changes with immune events, we have studied two strains of mice injected with B. burgdorferi; one of them, C3H/HeJ, developed severe disease, and the other, BALB/c, developed only mild disease. C3H/HeJ mice displayed a persistent 10-fold increase in circulating immunoglobulin G (IgG) levels, a 2-fold increase in IgM levels, and a 15-fold increase in peripheral lymph node B-cell numbers, providing evidence of mitogenic activity. Infected BALB/c mice also had evidence for mitogen activity, since the IgG level in serum increased three- to fourfold. The bulk of the increase in circulating IgG levels was not directed against B. burgdorferi antigens, supporting the occurrence of polyclonal B-cell activation. Analysis of IgG isotypes pointed out a contrast between C3H/HeJ and BALB/c mice in that levels of all isotypes were elevated somewhat in both strains of infected mice but IgG2a levels were much more dramatically increased in the C3H/HeJ mice (28-fold) than in the BALB/c mice (4-fold). In this study, interleukin-6 levels were found to be persistently elevated in the serum of infected C3H/HeJ mice. Interestingly, interleukin-6 levels in serum were much lower in the infected BALB/c mice. These findings indicate that the B. burgdorferi mitogen is active in infected animals and may contribute to the inflammatory and immune response to infection.     

Interleukin-4 (IL-4) and IL-13 signaling pathways do not regulate Borrelia burgdorferi-induced arthritis in mice: IgG1 is not required for host control of tissue spirochetes

Previous studies have suggested that interleukin-4 (IL-4) has a protective effect in host defense to Borrelia burgdorferi infection, both in limiting the severity of arthritis and in controlling spirochete numbers in tissues, and a mapping study revealed suggestive linkage to a cluster of genes on mouse chromosome 11, including the genes for IL-4 and IL-13. In contrast, other studies have questioned the importance of IL-4. In this study the involvement of IL-4 in murine Lyme disease was examined in C57BL/6J and BALB/cJ mice with targeted disruptions in the IL-4 gene, the IL-4Ralpha chain gene, or both. A spectrum of arthritis severity was seen in BALB/cJ mice, and ablation of IL-4, IL-4Ralpha, or both had no effect on the overall severity of arthritis as determined by joint swelling and histopathology. Wild-type C57BL/6J mice exhibited mild to moderate arthritis, and ablation of IL-4 again had no effect on arthritis severity. IL-4- and IL-4Ralpha-deficient mice produced extremely low levels of immunoglobulin G1 (IgG1) and showed increased production of IgG2b. This shift in immunoglobulin isotype had no effect on the host's ability to control spirochete growth in either strain of mouse, as determined by PCR detection of B. burgdorferi DNA from heart and ankle tissues. In summary, the IL-4-IL-4Ralpha pathway, including IL-13 signaling, neither limits arthritis severity nor is required for control of spirochete growth during B. burgdorferi infection of mice. Furthermore, the IgG1 isotype is not required to control B. burgdorferi cell numbers in tissues. These findings suggest the host defense against B. burgdorferi infection is not dependent on the Th1-Th2 paradigm of T-cell responses.     

Effects of Ixodes scapularis and Borrelia burgdorferi on modulation of the host immune response: induction of a TH2 cytokine response in Lyme disease-susceptible (C3H/HeJ) mice but not in disease-resistant (BALB/c) mice.

Previous studies have demonstrated that both Ixodes scapularis saliva and Borrelia burgdorferi antigens modulated lymphokines and monokines in vitro. The studies presented here were designed to delineate the role of I. scapularis and B. burgdorferi in modulation of the host immune response in vivo. Infestation of C3H/HeJ mice with infected I. scapularis resulted in an up regulation of IL-4 as early as 8 days after tick infestation, while the levels of T helper cell type 1 (TH1) cytokines, interleukin-2 (IL-2) and gamma interferon (IFN-gamma), were significantly decreased by days 10 to 12. In contrast, the cytokine profile of BALB/c mice exposed to infected nymphal ticks resulted in only transient alterations in IL-4, IL-2, and IFN-gamma production throughout a 12-day period postinfestation. Although the IL-10 level was elevated in both C3H/HeJ and BALB/c mice infested with infected nymphal ticks, no significant difference in the levels of IL-10 was noted between the mouse strains. Flow-cytometric analysis demonstrated increases in the numbers of splenic B-cell and CD4+ lymphocytes in C3H/HeJ but not BALB/c mice exposed to infected ticks. Cell depletion experiments with C3H/HeJ mice demonstrated that CD4+ cells were the sole producers of IFN-gamma and IL-10 while both CD4+ and CD8+ splenocytes contributed to the production of IL-2 and IL-4. These findings suggest that B and CD4+ splenocytes are activated, increase in number, and produce a polarized TH2 response in C3H/HeJ mice exposed to infected I. scapularis. Given that C3H/HeJ mice are susceptible to Lyme disease and the initial TH2 polarization is not evident in BALB/c mice, effective control of this response may have ramifications for spirochete transmission in vivo.     

Genetic control of experimental lyme arthritis in the absence of specific immunity

Host genetics play an important role in determining resistance or susceptibility to experimental Lyme arthritis. While specific immunity appears to regulate disease resolution, innate immunity appears to regulate disease severity. Intradermal infection with Borrelia burgdorferi yields severe arthritis in C3H/He (C3H) mice but only minimal arthritis in BALB/c mice. Intradermal infection of immunodeficient C3H SCID mice also results in severe arthritis, but arthritis of only moderate severity in BALB/c SCID mice. In the present study, we examined immunodeficient recombinase-activating gene-knockout (RAG-1(-/-)) (RAG-) mice from resistant C57BL/6 (B6) and DBA/2 (DBA) mouse strains. B. burgdorferi-infected B6 RAG- and DBA RAG- mice had little or no ankle swelling, a low occurrence of inflammatory infiltrates in tibiotarsal joints, and low arthritis severity scores in comparison to RAG+ and RAG- BALB/c or C3H mice. Few differences in spirochete DNA levels in ankles of resistant and susceptible RAG- mice were seen. These data suggest that resistance to arthritis development following B. burgdorferi infection is not necessarily dependent on an acquired immune response and can occur despite the presence of high spirochete burden. Thus, genes expressed outside the specific immune response can be central regulators of experimental arthritis.     

Demonstration of a B-lymphocyte mitogen produced by the Lyme disease pathogen, Borrelia burgdorferi.

Lyme disease refers to the multisymptomatic illness in humans which results from infection with the tick-borne spirochete Borrelia burgdorferi. The white-footed mouse is the major reservoir for B. burgdorferi and, upon infection, certain inbred mice develop symptoms similar to those reported in human disease. Sonicated preparations of washed spirochetes were found to have potent mitogenic activity when cultured with lymphocytes from naive C57BL/6, C3H/HeJ, or BALB/c mice. The activity of the B. burgdorferi sonicate was approximately fourfold greater than that of a similarly prepared Escherichia coli sonicate. Polymyxin B efficiently inhibited the mitogenic activity of the E. coli sonicate but only slightly inhibited that of the B. burgdorferi sonicate, suggesting that a lipid A-containing lipopolysaccharide was not responsible for the B. burgdorferi activity. Kinetic analysis indicated peak proliferation at 2 to 3 days of culturing, suggesting polyclonal activation. B- and T-lymphocyte depletion experiments indicated that the major cell type responding to the B. burgdorferi mitogen was the B lymphocyte. This mitogen stimulated murine B cells not only to proliferate but also to differentiate into antibody-secreting cells, as demonstrated by the production of immunoglobulin by stimulated splenocytes. Furthermore, the sonicated preparation stimulated the B-cell tumor line CH12.LX to secrete immunoglobulin in the absence of accessory cells. B. burgdorferi also stimulated interleukin-6 production in splenocyte cultures. The observation that B. burgdorferi can stimulate activation of and immunoglobulin production by normal B lymphocytes may directly reflect on the development of arthritis associated with persistent infection by this organism.     

Mice lacking CD21 and CD35 proteins mount effective immune responses against Borrelia burgdorferi infection

CD21/35(-/-) mice, deficient in CD21 and CD35 (complement receptors 2 and 1, respectively), were infected with Borrelia burgdorferi to assess the role of these receptors in a chronic bacterial infection. Although CD21/35(-/-) mice on both C57BL/6 and BALB/c backgrounds produced less B. burgdorferi-specific antibodies than did wild-type mice, spirochete levels and arthritis severity were similar.     

Marginal zone B-cell depletion impairs murine host defense against Borrelia burgdorferi infection

Marginal zone B (MZB) cells are a B-cell subset that produces T-cell-independent antibodies to blood-borne antigens. In this study, we examined the effects of MZB cell depletion on the immune response to the Lyme disease spirochete Borrelia burgdorferi, an extracellular pathogen for which T-cell-independent antibody is an important host defense. MZB cell depletion of C3H/HeJ mice using monoclonal antibody to LFA-1 and alpha(4)beta(1) integrins reduced B. burgdorferi-specific immunoglobulin M (IgM) titers, enhanced pathogen burden, and led to more severe arthritis assessed within the first 2 weeks of infection. In addition, MZB cell-depleted mice had reduced levels of B. burgdorferi-specific IgG, which correlated with diminished splenic CD4+ T-cell-activation, proliferation, and cytokine production. Passive transfer of immune mouse serum from infected control mice into infected MZB cell-depleted mice reduced pathogen burden but did not alter the expression of T-cell activation markers on splenic CD4+ T cells. These findings demonstrate that MZB cells not only are a source of pathogen-specific IgM important for limiting spirochete burden and pathology but also play a prominent role in the priming of splenic T-cell responses to a blood-borne pathogen.     

Distinct Characteristics of Resistance to Borrelia burgdorferi-Induced Arthritis in C57BL/6N Mice

Studies of mice infected with Borrelia burgdorferi have indicated that the severity of arthritis is influenced by the genetic composition of the host: the C3H mouse develops severe arthritis while BALB/c and C57BL/6 mice develop mild arthritis. In this study, the effects of increasing infectious dose on the severity of arthritis were determined in these three mouse strains. C3H/He mice developed severe arthritis at all infectious doses, with 100% infection requiring 200 spirochetes. In BALB/cAnN mice, arthritis severity was dependent on infectious dose; symptoms were mild with infection by 200 B. burgdorferi and progressively more severe with increasing infectious dose. Infection of BALB/cAnN mice with 2 × 10⁴ B. burgdorferi resulted in arthritis with severity identical to that in C3H/He mice. Spirochete levels in rear ankle joints of C3H/HeJ and C3H/HeN mice were relatively high, as detected by PCR, and did not increase with infectious dose. Spirochete levels in joints from BALB/cAnN mice increased with increasing infectious dose to levels found in severely arthritic C3H/He mice. Thus, resistance to severe arthritis in BALB/cAnN mice was conditional: it could be overcome by high infectious dose and the arthritis became severe when high levels of B. burgdorferi were present in joints. A unique response to increasing infectious dose was seen in C57BL/6N mice, which displayed mild to moderate arthritis at all doses of B. burgdorferi tested, up to 2 × 10⁵. At all infectious doses, the levels of spirochetes in ankle joints of C57BL/6N mice were high, equivalent to those found in the severely arthritic C3H/He mice. The arthritis observed in infected (C57BL/6N × C3H/HeN)F₁ mice was of severity intermediate between those of the two parental strains. The finding that resistance to severe arthritis in C57BL/6N mice could not be overcome by high infectious doses and was independent of spirochete levels in joints suggested that it was mediated by a distinct mechanism from that operating in BALB/cAnN mice.Lyme disease is caused by infection with the tick-transmitted spirochete Borrelia burgdorferi and is characterized by multisystem involvement (14, 16, 24). Many tissues may display disease involvement, and there is variability in the degree to which patients are affected. This variability could be due to host, microbial, or environmental factors. In fact, infection in Europe by related members of the B. burgdorferi sensu lato group is more frequently associated with chronic skin abnormalities and central nervous system involvement, while infection by B. burgdorferi sensu stricto in the United States is more commonly associated with arthritis (4, 38). Studies using the murine model of Lyme disease, developed by Barthold and colleagues, indicate host factors also influence disease outcome. Arthritis seen in this model is representative of human disease and is characterized by tendonitis, synovial hyperproliferation, and infiltration of neutrophils and other leukocytes (7). Interestingly, a spectrum of arthritis severity has been observed among inbred strains of mice in response to infection by B. burgdorferi. Infected C3H mice develop severe arthritis, whereas infected BALB/c and C57BL/6 mice develop only mild to moderate arthritis (8). Thus, inbred strains of mice provide opportunities to study host influences on disease severity.The results of several studies using the mouse model suggest the presence of inflammatory and/or anti-inflammatory cytokines can influence disease development and resolution. For example, manipulations of interleukin 12, interleukin 4, and gamma interferon levels by treating infected mice with neutralizing antibodies can influence disease severity and alter its resolution (2, 17, 21). The acquired defenses, particularly antibody production, are clearly involved in disease resolution (9, 30) but do not appear to be required for arthritis and carditis development. Not only does disease develop in scid mice, which lack mature T and B lymphocytes, but the relative differences in severity of arthritis in C3H/He and BALB/c mice is maintained in the presence of the scid mutation (12). Finally, studies with congenic mice expressing distinct major histocompatibility complex haplotypes on resistant or susceptible backgrounds suggest that the major histocompatibility complex itself had little influence on disease severity, but rather, that genes located at distinct chromosomal locations were important determinants of disease (41). These studies suggest that genes independent of acquired defenses play a large role in determining severity of disease in infected mice.In order to identify host genes that influence disease severity, the phenotypes of severe and mild arthritis must be well characterized. We previously compared B. burgdorferi levels in many tissues of C3H/HeJ and BALB/cJ mice, at several times following infection (42). Quantitative PCR demonstrated that the highest levels of spirochetes were found in the hearts and ankle joints at most time points. C3H/HeJ mice harbored 5- to 10-fold more B. burgdorferi in ankles and hearts than did BALB/cJ mice. This suggested that the severity of arthritis in C3H/HeJ mice was directly related to the high levels of spirochetes in tissues and that the relative resistance in BALB/cJ mice was associated with more restricted growth of the spirochetes.In this study we report that there are at least two different mechanisms for resistance to severe arthritis in mice. Resistance in BALB/cAnN mice could be overcome by increasing the infectious dose of B. burgdorferi and was associated with low levels of spirochetes in tissues. In contrast, resistance to severe arthritis in C57BL/6N mice was not overcome by increasing infectious dose and did not require the levels of spirochetes in joints to be low. F₁ mice from BALB/cAnN × C3H/HeJN mating developed severe arthritis upon infection, suggesting that resistance in BALB/cAnN mice could be masked by alleles from C3H/HeN mice (42). In contrast, infection of F₁ mice from a C57BL/6N × C3H/HeN cross resulted in arthritis of intermediate severity, suggesting more equal contribution by C57BL/6N and C3H/HeN genes.     

伯氏疏螺旋体与嗜吞噬细胞无浆体混合感染的实验研究

目的应用动物模型探讨蜱传病原体伯氏疏螺旋体和嗜吞噬细胞无浆体混合感染对组织螺旋体载量、莱姆关节炎严重性、宿主免疫功能的影响。方法建立伯氏疏螺旋体和嗜吞噬细胞无浆体混合感染和伯氏疏螺旋体单一感染小鼠模型，在不同时间点研究各组小鼠组织中的螺旋体载量、关节炎严重性和血清IgG效价，并对数据进行统计学分析。结果与单一感染组相比，在螺旋体感染后18d和30d，混合感染组小鼠组织螺旋体载量显著增高，关节炎明显严重，血清IgC效价显著偏低。结论伯氏疏螺旋体和嗜吞噬细胞无浆体混合感染显著增加小鼠组织螺旋体载量、加重关节炎症状和病理改变，且抑制体液免疫功能。     

Early induction of gamma interferon and interleukin-10 production in draining lymph nodes from mice infected with Borrelia burgdorferi

Lymph node (LN) cells from C3H/HeJ mice (Lyme disease susceptible) infected for 1 week with Borrelia burgdorferi strain JD1 produced higher levels of gamma interferon (IFN-gamma) when stimulated in vitro with B. burgdorferi spirochetes than equivalent cells from B. burgdorferi-infected C57BL/6J mice (disease resistant). The interleukin-10 (IL-10) levels were comparable in the two strains, whereas the IL-4 levels were below detection limits. B. burgdorferi-stimulated LN cells from C57BL/6J mice produced significantly higher levels of IFN-gamma in the presence of neutralizing anti-IL-10 antibody than cells cultured with B. burgdorferi alone. No effect of IL-10 neutralization on IFN-gamma production by LN cells from C3H/HeJ mice was observed. Neutralizing antibody to IFN-gamma had no effect on the production of IL-10 by LN cells from C57BL/6J mice. A slight decrease in IL-10 production was detected in culture supernatants of equivalent cells from C3H/HeJ mice. The differential effect of IL-10 on IFN-gamma production in C57BL/6J and C3H/HeJ mice suggests that IL-10 is probably involved in the regulation of IFN-gamma production by LN cells during infection and may be at the root of the differential susceptibility to Lyme arthritis in these two strains of mice.     

CD8+ T cells are activated during the early Th1 and Th2 immune responses in a murine Lyme disease model.

T-helper responses following Borrelia burgdorferi infection in mice determine susceptibility to Lyme arthritis. The ratio of interleukin 4-positive, CD4+ to gamma interferon (IFN-gamma)-positive, CD4+ T cells was significantly greater in infected BALB/cJ mice than in infected C3H/HeJ mice. Increased numbers of IFN-gamma-producing cells predicted greater arthritis severity, and CD8+ T cells were the main source of IFN-gamma in both strains.     

Borrelia burgdorferi outer surface lipoproteins OspA and OspB possess B-cell mitogenic and cytokine-stimulatory properties.

Sonicated Borrelia burgdorferi was previously reported to possess both B-cell mitogenic and interleukin-6 (IL-6) stimulatory activities. In this report, two outer surface lipoproteins, OspA and OspB, were purified from B. burgdorferi and assessed for the presence of these functions. OspA was purified from two strains, an OspB-deficient variant of HB19 and N40, while OspB was purified from the N40 strain. All lipoprotein preparations were free of endotoxin contamination, and polymyxin B failed to inhibit responses, indicating that media contamination was not contributing to biological assays. All three preparations were able to stimulate proliferation of mononuclear cells from naive C3H/HeJ and BALB/c mice. Depletion experiments indicated that the responding cells were B lymphocytes and not T lymphocytes. Purified OspA and OspB stimulated immunoglobulin M production by splenocyte cultures from naive mice, a property also previously attributed to sonicated B. burgdorferi. OspA and OspB also stimulated the production of IL-6 and tumor necrosis factor alpha by bone marrow-derived macrophages from BALB/c and C3H/HeJ mice. Cytokine production was enhanced by the presence of gamma interferon in the cultures, indicating that the magnitude of responses to these lipoproteins may be modulated by cytokines in the microenvironment of infected tissues. Human endothelial cells produced IL-6 when incubated with OspA and OspB, indicating that non-hematopoietic lineage cells can respond to the lipoproteins. Purified OspA and OspB had approximately equal activity, with responses detected in the range of 10 ng of lipoprotein per ml to 1 microgram of lipoprotein per ml. Comparison with published dose responses for lipoproteins purified from Escherichia coli indicates that OspA and OspB purified from B. burgdorferi are much more potent. The high potency of the B. burgdorferi lipoproteins and the ability of the spirochete to invade tissues and persist argue that they could be important in the localized events contributing to the pathology of Lyme disease.     

Impact of genotypic variation of Borrelia burgdorferi sensu stricto on kinetics of dissemination and severity of disease in C3H/HeJ mice

Various genotypes of Borrelia burgdorferi sensu stricto have been previously identified among a large collection of isolates cultured from patients with Lyme disease in the United States. Furthermore, association of specific genotypes with hematogenous dissemination early in the disease course has been observed. The present study assessed kinetics of spirochete dissemination and disease severity in C3H/HeJ mice infected with two different genotypes of B. burgdorferi. Spirochete load in plasma and ear and other tissue samples of infected mice was measured by quantitative PCR, and these data were compared to those obtained by culture and histopathologic analysis. In mice infected with isolate BL206 (a type 1 strain), the peak number of spirochetes was observed in plasma between day 4 and 7, in heart and ear tissue on day 14, and in joints on day 28 postinoculation. There was a correlation between the peak number of spirochetes in plasma on day 4 or 7 and that in ear biopsy and joint specimens on day 14. By contrast, spirochete burdens in plasma of mice infected with isolate B356 (a type 3 strain) were 16- and 5-fold lower than those of BL206-infected mice on days 7 and 14 of infection, respectively. Similarly, approximately 6- and 13-fold fewer spirochetes were detected in the heart tissues of B356-infected mice compared to BL206-infected mice. Histopathologically, severe arthritis and aortitis were noted only in mice infected with isolate BL206. Spirochete dissemination and disease severity vary significantly in mice infected with distinct genotypes of B. burgdorferi, suggesting that genotypic differences in the infecting spirochetes play a key role in the pathogenesis and development of clinical disease.     

Relative contributions of innate and acquired host responses to bacterial control and arthritis development in Lyme disease

TLR2(-/-)/scid double-mutant mice were infected with B. burgdorferi to assess the relative importance of acquired and innate host defenses. Although spirochete levels at 4 weeks were lower in TLR2(-/-) mice than in TLR2(-/-)/scid mice, the increased arthritis severity of TLR2 (Toll-like receptor 2)-deficient mice was reduced by the presence of the scid mutation.     

Temporal analysis of Borrelia burgdorferi Erp protein expression throughout the mammal-tick infectious cycle

Previous immunological studies indicated that the Lyme disease spirochete, Borrelia burgdorferi, expresses Erp outer surface proteins during mammalian infection. We conducted analyses of Erp expression throughout the entire tick-mammal infectious cycle, which revealed that the bacteria regulate Erp production in vivo. Bacteria within unfed nymphal ticks expressed little to no Erp proteins. However, as infected ticks fed on mice, B. burgdorferi increased production of Erp proteins, with essentially all transmitted bacteria expressing these proteins. Mice infected with B. burgdorferi mounted rapid IgM responses to all tested Erp proteins, followed by strong immunoglobulin G responses that generally increased in intensity throughout 11 months of infection, suggesting continued exposure of Erp proteins to the host immune system throughout chronic infection. As naive tick larvae acquired B. burgdorferi by feeding on infected mice, essentially all transmitted bacteria produced Erp proteins, also suggestive of continual Erp expression during mammalian infection. Shortly after the larvae acquired bacteria, Erp production was drastically downregulated. The expression of Erp proteins on B. burgdorferi throughout mammalian infection is consistent with their hypothesized function as factor H-binding proteins that protect the bacteria from host innate immune responses.     

Borrelia burgdorferi binding of host complement regulator factor H is not required for efficient mammalian infection

The causative agent of Lyme disease, Borrelia burgdorferi, is naturally resistant to its host's alternative pathway of complement-mediated killing. Several different borrelial outer surface proteins have been identified as being able to bind host factor H, a regulator of the alternative pathway, leading to a hypothesis that such binding is important for borrelial resistance to complement. To test this hypothesis, the development of B. burgdorferi infection was compared between factor H-deficient and wild-type mice. Factor B- and C3-deficient mice were also studied to determine the relative roles of the alternative and classical/lectin pathways in B. burgdorferi survival during mammalian infection. While it was predicted that B. burgdorferi should be impaired in its ability to infect factor H-deficient animals, quantitative analyses of bacterial loads indicated that those mice were infected at levels similar to those of wild-type and factor B- and C3-deficient mice. Ticks fed on infected factor H-deficient or wild-type mice all acquired similar numbers of bacteria. Indirect immunofluorescence analysis of B. burgdorferi acquired by feeding ticks from the blood of infected mice indicated that none of the bacteria had detectable levels of factor H on their outer surfaces, even though such bacteria express high levels of surface proteins capable of binding factor H. These findings demonstrate that the acquisition of host factor H is not essential for mammalian infection by B. burgdorferi and indicate that additional mechanisms are employed by the Lyme disease spirochete to evade complement-mediated killing.     

Clearance of Borrelia burgdorferi May Not Be Required for Resistance to Experimental Lyme Arthritis

Infection of inbred mouse strains with Borrelia burgdorferi results in the development of experimental Lyme arthritis. The degree of arthritic pathology has been suggested to correlate with the level of spirochete burden within tissues. To investigate this further, we infected resistant DBA/2 (DBA) and susceptible C3H/HeJ (C3H) mice in the hind footpads and monitored arthritis development for 21 days. To quantitate levels of spirochetes within tissues, we created a competitive PCR molecule containing modified ospA and fla gene segments. C3H mice developed severe arthritis of the tibiotarsal joints, while DBA mice developed only mild inflammation throughout the experimental period. At day 21, when the gross size and histologic composition of ankles revealed significant differences in arthritis between the strains, there was little difference in levels of spirochete DNA as determined by competitive PCR. Cultures of ankle tissue at day 21 were also uniformly positive in both C3H and DBA animals and contained relatively similar levels of spirochetes. These results indicate that the presence of spirochetes in the ankles of experimental animals is not sufficient for arthritis development. Since arthritic and nonarthritic animals can harbor relatively equal spirochete burdens yet retain their distinct phenotypic outcomes, an aberrant or overly exuberant immune response may be an additional requirement for pathology in arthritis-prone mice.