Regulatory T Cells Prevent Control of Experimental African Trypanosomiasis

Wei, Guojian; Tabel, H.

doi:10.4049/jimmunol.180.4.2514

Cited by 41 publications

(72 citation statements)

References 37 publications

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“…Several studies investigated the role of Treg in infections with helminths or other parasites and yielded in diverging conclusions (reviewed in [1] and [13]). There is evidence that certain parasites depend on Treg action for their persistence [14][15][16][17]. Other species profit more indirectly from Treg circuits, which control infectioninduced pathology [18][19][20].…”

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Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells

et al. 2009

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Here, we show that Treg limit intestinal pathology during nematode infection and that they control the onset and magnitude of the anti-parasitic Th Th2 response. Using mice expressing the diptheria toxin receptor under the control of the foxp3 locus, we removed Foxp3 1 Treg during the early phase of infection with Heligmosomoides polygyrus bakeri. Depletion of Treg in infected animals did not affect adult worm burden, but led to increased pathology at the site of infection. Infected, depleted mice displayed higher frequencies of activated CD4 1 T cells and increased levels of the Th2 cytokines IL-4 and IL-13. The stronger parasite-specific Th2 response was accompanied by higher levels of IL-10. Only a moderate change in Th1 (IFN-c) reactivity was detected in worm-infected, Treg-depleted mice. Furthermore, we detected an accelerated onset of parasite-specific Th2 and IL-10 responses in the transient absence of Foxp3 1 Treg. However, adult worm burdens were not affected by the increased Th2-reactivity in Treg-depleted mice. Hence, our data show that Treg restrict the onset and strength of Th2 responses during intestinal worm infection, while increasing primary Th2 responses does not necessarily lead to killing of larvae or accelerated expulsion of adult worms.Key words: Foxp3 . Nematode . Pathology . Th2 response . Treg IntroductionParasitic worms are the most potent inducers of highly polarized Th cell type 2 (Th2) responses. Helminth infections tend to be long lasting and are often associated with insufficient immunity to re-infection [1,2]. Chronic infections favor immunosuppression, the so-called modulated Th2-response, associated with poor parasite-specific reactivity alongside with the strong production of anti-inflammatory cytokines, such as . This helminth-induced immunosuppression may spill over to bystander antigens [3], downmodulate reactivity against other pathogens [4] and impair vaccination efficacy [5]. However, such effects can be beneficial by downregulating inflammatory reactions to allergens and inflammatory disorders of the intestinal tract. Studies in animal models showed that helminths can suppress airway hyperreactivity and colitis [6][7][8] and nematodes have been used to efficiently treat human inflammatory bowel disease in clinical trials [9,10]. 3066In animal models, the beneficial effects of nematode infections on inflammatory disorders were associated with the presence of Treg populations [6,11,12]. However, it is not yet clear whether such Treg suppress anti-parasite immune reactivity and thus contribute to survival and well-being of the worms, or whether they predominantly dampen immunopathology. Several studies investigated the role of Treg in infections with helminths or other parasites and yielded in diverging conclusions (reviewed in [1] and [13]). There is evidence that certain parasites depend on Treg action for their persistence [14][15][16][17]. Other species profit more indirectly from Treg circuits, which control infectioninduced pathology [18][19][20].In a previous study ...

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Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells

et al. 2009

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“…Because we and others have previously shown that regulatory T cells (Tregs) prevent the control of infection with T. congolense (24,25), we wondered whether lowdose intradermal infection was associated with expansion of these cells. Therefore, we infected mice intradermally with 10 3 T. congolense parasites and on the indicated days assessed the percentages and absolute numbers of CD4 ϩ CD25 ϩ Foxp3 ϩ regulatory T cells in the spleens and draining lymph nodes by flow cytometry.…”

Section: Primary Low-dose Id T Congolense Infection and Susceptibimentioning

confidence: 99%

“…5A and B). Because previous studies showed that Tregs negatively influence the outcome of T. congolense infection in mice (24,25), we hypothesized that depletion of Tregs during challenge infection will abrogate the enhanced susceptibility mediated by repeated low-dose intradermal infection. We therefore injected mice repeatedly with 10 2 T. congolense parasites (2 times with a 1-week interval), and on the third week injected them with anti-CD25 monoclonal antibody (PC61) to deplete Tregs as we have done previously (25,30).…”

Section: Primary Low-dose Id T Congolense Infection and Susceptibimentioning

confidence: 99%

“…Although their primary role is to prevent autoimmunity and suppress inflammatory responses, Tregs have also been implicated in the pathogenesis of several infectious diseases, including those caused by parasites (22)(23)(24). In particular, increased numbers of CD4 ϩ CD25 ϩ Foxp3 ϩ Tregs have been reported in experimental T. congolense infections (25,26), and these cells have been implicated in enhanced susceptibility to the infection (24,25), although the exact mechanisms remain unknown.…”

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“…CD4 ϩ T cells that constitutively express CD25 and the transcription factor Foxp3 (called regulatory T cells [Tregs]) have been shown to play a major role in immune homeostasis by actively suppressing several pathological and physiological immune responses in the host (19)(20)(21). Although their primary role is to prevent autoimmunity and suppress inflammatory responses, Tregs have also been implicated in the pathogenesis of several infectious diseases, including those caused by parasites (22)(23)(24). In particular, increased numbers of CD4 ϩ CD25 ϩ Foxp3 ϩ Tregs have been reported in experimental T. congolense infections (25,26), and these cells have been implicated in enhanced susceptibility to the infection (24,25), although the exact mechanisms remain unknown.…”

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Low-Dose Intradermal Infection with Trypanosoma congolense Leads to Expansion of Regulatory T Cells and Enhanced Susceptibility to Reinfection

et al. 2014

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BALB/c mice are highly susceptible to experimental intraperitoneal Trypanosoma congolense infection. However, a recent report showed that these mice are relatively resistant to primary intradermal low-dose infection. Paradoxically, repeated low-dose intradermal infections predispose mice to enhanced susceptibility to an otherwise noninfectious dose challenge. Here, we explored the mechanisms responsible for this low-dose-induced susceptibility to subsequent low-dose challenge infection. We found that akin to intraperitoneal infection, low-dose intradermal infection led to production of interleukin-10 (

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Effect of CD4+CD25+ regulatory T cells on the immune evasion of Schistosoma japonicum

et al. 2010

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It has been known that parasites developed sophisticated strategies to escape from the host immune assault. More recently, one strategy to induce immune evasion involved CD4(+)CD25(+) regulatory T cells (Tregs). Mice were infected with Schistosoma japonicum cercariae and then injected intraperitoneally with anti-CD25 monoclonal antibody (anti-CD25 mAb). The results showed that the percentages of CD4(+)CD25(+) Tregs in mice were expanded by S. japonicum infection, and it could be partially blocked by anti-CD25 mAb. Worm burden in anti-CD25 mAb group (23.17 ± 6.94) was significantly lower than that in infected group (30.17 ± 5.85). The level of interferon gamma was increased with anti-CD25 mAb administration; meanwhile, lower concentration of interleukin 10 was observed in the same group. These results suggest that CD4(+)CD25(+) Tregs contribute to the escape of S. japonicum from the host immune responses, while anti-CD25 mAb can partially block CD4(+)CD25(+) Tregs and enhance the protective immunity to the parasite by Th1-type immune response.

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Regulatory T Cells Prevent Control of Experimental African Trypanosomiasis

Cited by 41 publications

References 37 publications

Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells

Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells

Low-Dose Intradermal Infection with Trypanosoma congolense Leads to Expansion of Regulatory T Cells and Enhanced Susceptibility to Reinfection

Effect of CD4+CD25+ regulatory T cells on the immune evasion of Schistosoma japonicum

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Regulatory T Cells Prevent Control of Experimental African Trypanosomiasis

Cited by 41 publications

References 37 publications

Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3+ cells

Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3+ cells

Low-Dose Intradermal Infection with Trypanosoma congolense Leads to Expansion of Regulatory T Cells and Enhanced Susceptibility to Reinfection

Effect of CD4+CD25+ regulatory T cells on the immune evasion of Schistosoma japonicum

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Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells

Establishment of nematode infection despite increased Th2 responses and immunopathology after selective depletion of Foxp3⁺ cells