Oral or nasal antigen induces regulatory T cells that suppress arthritis and proliferation of arthritogenic T cells in joint draining lymph nodes

The propagation of mucosal tolerance as a therapeutic approach in autoimmune diseases remains a difficult goal to achieve, and therefore further mechanistic studies are necessary to develop potential clinical protocols to induce mucosal regulatory T cells (Tr cells). In this study we addressed whether oral or nasal proteoglycan induced functional Tr cells in the cartilage proteoglycan-induced chronic arthritis model. Both nasal and oral application of human proteoglycan before induction of disease suppressed arthritis severity and incidence. Tolerized mice showed enhanced numbers of IL-10 producing CD4(+) cells in the paw-draining lymph nodes. Furthermore, CD4(+) spleen cells displayed enhanced expression of molecules associated with Tr cells, such as IL-10, Foxp3, and TGF-beta. Transfer of CD4(+) spleen cells from mucosally tolerized donors into proteoglycan-immunized mice abolished arthritis and reduced humoral responses, indicative of Tr cells with the capacity to inhibit already induced immune responses. Tr cells were activated upon transfer, because enhanced proliferation was observed in the joint draining lymph nodes compared with activated T cells from nontolerized donors. Upon cotransfer with naive proteoglycan-specific T cells, mucosally induced Tr cells inhibited proliferation of these arthritogenic T cells in vivo. Herein we show that both oral and nasal Ag application induced Tr cells, which had a direct inhibitory effect on already established pathogenic B and T cell responses.     

IL-10 Is Critically Involved in Mycobacterial HSP70 Induced Suppression of Proteoglycan-Induced Arthritis

Background

The anti-inflammatory capacity of heat shock proteins (HSP) has been demonstrated in various animal models of inflammatory diseases and in patients. However, the mechanisms underlying this anti-inflammatory capacity are poorly understood. Therefore, the possible protective potential of HSP70 and its mechanisms were studied in proteoglycan (PG) induced arthritis (PGIA), a chronic and relapsing, T cell mediated murine model of arthritis.

Methodology/Principal Findings

HSP70 immunization, 10 days prior to disease induction with PG, inhibited arthritis both clinically and histologically. In addition, it significantly reduced PG-specific IgG2a but not IgG1 antibody production. Furthermore, IFN-γ and IL-10 production upon in vitro restimulation with HSP70 was indicative of the induction of an HSP70-specific T cell response in HSP70 immunized mice. Remarkably, HSP70 treatment also modulated the PG-specific T cell response, as shown by the increased production of IL-10 and IFN-γ upon in vitro PG restimulation. Moreover, it increased IL-10 mRNA expression in CD4⁺CD25⁺ cells. HSP70 vaccination did not suppress arthritis in IL-10^−/− mice, indicating the crucial role of IL-10 in the protective effect.

Conclusions/Significance

In conclusion, a single mycobacterial HSP70 immunization can suppress inflammation and tissue damage in PGIA and results in an enhanced regulatory response as shown by the antigen-specific IL-10 production. Moreover, HSP70 induced protection is critically IL-10 dependent.     

Modulation of Feline Immunodeficiency Virus Infection by Stromal Cell-Derived Factor

The α-chemokine receptor CXCR4 has recently been shown to support syncytium formation mediated by strains of feline immunodeficiency virus (FIV) that have been selected for growth in the Crandell feline kidney cell line (CrFK-tropic virus). Given that both human and feline CXCR4 support syncytium formation mediated by FIV, we investigated whether human stromal cell-derived factor (SDF-1) would inhibit infection with FIV. Human SDF-1α and SDF-1β bound with a high affinity (K_Ds of 12.0 and 10.4 nM, respectively) to human cells stably expressing feline CXCR4, and treatment of CrFK cells with human SDF-1α resulted in a dose-dependent inhibition of infection by FIV_PET. No inhibitory activity was detected when the interleukin-2 (IL-2)-dependent feline T-cell line Mya-1 was used in place of CrFK cells, suggesting the existence of a CXCR4-independent mechanism of infection. Furthermore, neither the human β-chemokines RANTES, MIP-1α, MIP-1β, and MCP-1 nor the α-chemokine IL-8 had an effect on infection of either CrFK or Mya-1 cells with CrFK-tropic virus. Envelope glycoprotein purified from CrFK-tropic virus competed specifically for binding of SDF-1α to feline CXCR4 and CXCR4 expression was reduced in FIV-infected cells, suggesting that the inhibitory activity of SDF-1α in CrFK cells may be the result of steric hindrance of the virus-receptor interaction following the interaction between SDF and CXCR4. Prolonged incubation of CrFK cells with SDF-1α led to an enhancement rather than an inhibition of infection. Flow cytometric analysis revealed that this effect may be due largely to up-regulation of CXCR4 expression by SDF-1α on CrFK cells, an effect mimicked by treatment of the cells with phorbol myristate acetate. The data suggest that infection of feline cells with FIV can be mediated by CXCR4 and that, depending on the assay conditions, infection can be either inhibited or enhanced by SDF-1α. Infection with FIV may therefore prove a valuable model in which to study the development of novel therapeutic interventions for the treatment of AIDS.The initial stage in lentiviral infection involves the binding of the viral envelope glycoprotein (Env) to a molecule on the surface of the target cell. The primary high-affinity binding receptor for human immunodeficiency virus (HIV) is CD4 (9, 26), a member of the immunoglobulin supergene family of molecules. However, binding of the viral glycoprotein to CD4 is insufficient for infection to proceed (29); for virus-cell fusion to occur, the target cell must also express an accessory molecule or coreceptor. The principal coreceptors for HIV infection have now been identified as members of the seven-transmembrane domain (7TM) superfamily of molecules. Syncytium-inducing (SI) T-cell line-tropic strains of virus require coexpression of the α-chemokine receptor CXCR4 for infection (19), whereas non-syncytium-inducing (NSI) strains of virus require coexpression of the β-chemokine receptor CCR5 for infection (1, 6, 10, 13, 14). In addition, other chemokine receptors such as CCR2b and CCR3 (6, 13, 41, 48), the receptor encoded by human cytomegalovirus US28 (39, 41), and the orphan receptor STRL33 (28) can function as coreceptors for HIV infection. More recently, additional members of the 7TM superfamily have been identified as coreceptors for infection with simian immunodeficiency virus (SIV). Two of these receptors, termed Bonzo and BOB, support infection with not only SIV but also HIV type 2 (HIV-2) and macrophage-tropic or dualtropic (both macrophage- and T-cell-tropic) strains of HIV-1 (11). Bonzo has subsequently been identified as being identical to STRL33 (28), whereas BOB is identical to GPR15 (21). A subsequent study has demonstrated that an additional molecule, designated GPR1 (30), can function as a coreceptor for SIV (18). Thus, a diverse range of 7TM molecules which can support infection with primate lentiviruses have now been identified.The selective usage of chemokine receptors as coreceptors for infection by HIV and SIV is borne out by the sensitivity of the viruses to inhibition by chemokines. Infection with viruses which use CCR5 can be inhibited by the β-chemokines RANTES, MIP-1α, and MIP-1β (7, 14), whereas those which use CXCR4 can be inhibited by stromal cell-derived factor (SDF-1) (3, 36). Although infection of primary macrophages by certain primary NSI viruses is not inhibited reproducibly by the β-chemokines RANTES, MIP-1α, and MIP-1β (14, 33, 44), analogs of the β-chemokines such as AOP-RANTES that inhibit HIV infection with an increased potency, inhibit infection of both peripheral blood mononuclear cells (PBMC) and primary macrophages, and do not trigger signalling via G proteins coupled to the chemokine receptor have been developed (47). Therefore, with the development of SDF-1 derivatives analogous to AOP-RANTES, it may be possible to generate therapeutic agents that are effective at inhibiting not only the NSI strains of HIV found in early infection but also the SI strains of virus which appear late in infection with the progression to AIDS.Feline immunodeficiency virus (FIV) induces an AIDS-like illness in its natural host, the domestic cat (38). A proportion of primary isolates of FIV can be readily adapted to grow and form syncytia in the Crandell feline kidney (CrFK) cell line (45), analagous to the isolation of SI variants of HIV. Sequencing of the env gene from CrFK-tropic viruses would suggest that the principal determinant of CrFK tropism is an increase in charge of the V3 loop of the envelope glycoprotein (45, 51), further strengthening the analogy between CrFK-tropic strains of FIV and SI strains of HIV. While the primary high-affinity binding receptor for FIV remains elusive, recent studies have demonstrated a role for the feline homolog of CXCR4 in infection with CrFK-tropic strains of FIV (53, 56). Given that the appearance of CXCR4-dependent SI variants of HIV in the peripheral blood of HIV-infected individuals accompanies the progression to AIDS (8), the ability to study the role of such CXCR4-dependent strains of virus in disease pathogenesis is of obvious interest. Moreover, as it appears that several strains of SIV show preferential usage of CCR5 and not CXCR4 for infection (5, 11, 18), then FIV infection of the domestic cat is the only animal model described to date in which the contribution of CXCR4-dependent viruses to the pathogenesis of AIDS may be studied in the natural host of the virus.In this study, we investigated the nature of the interaction between FIV and the chemokine receptor CXCR4. Given the high degree of amino acid sequence homology between human and feline CXCR4 (56), we examined the interaction between human SDF-1 and feline CXCR4. We have found that human SDF-1 binds specifically to feline CXCR4 and inhibits infection with FIV. We demonstrate that SDF-1 can upregulate CXCR4 expression with a corresponding enhancement of infection and that this effect can be mimicked by treatment of the cells with the phorbol ester phorbol myristate acetate (PMA). Moreover, infection of interleukin-2 (IL-2)-dependent T cells with FIV was resistant to the inhibitory effects of SDF-1, suggesting the existence of a CXCR4-independent mechanism of infection in these cells. These data suggest that the mechanism of infection with FIV bears striking similarities to infection with HIV and that the study of FIV infection of the domestic cat may provide a valuable insight into the pathogenesis of AIDS.     

Cell stress induced HSP are targets of regulatory T cells: a role for HSP inducing compounds as anti-inflammatory immuno-modulators?

T cell responses to heat shock proteins (HSP) have disease suppressive activities through production of anti-inflammatory cytokines in patients and in models of inflammatory diseases. There is evidence that the anti-inflammatory activity of HSP-specific T cells depends on their recognition of endogenous HSP epitopes as expressed by stressed cells at sites of inflammation. Previously, we have demonstrated that such T cells can be induced by conserved sequences of microbial HSP. Now we propose that drug induced up-regulation of endogenous HSP can contribute to anti-inflammatory T cell regulation.     

The Dutch N-cascade in the European perspective

The Netherlands is “well known” for its nitrogen problems; it has one of the highest reactive nitrogen (Nr) emission densities in the world. It is a small country at the delta of several large European rivers. Ever since the industrial revolution, there has been a growing excess of nutrients and related emissions into the atmosphere (ammonia, nitrogen oxides and nitrous oxide) and into groundwater and surface water (nitrate), leading to a large range of cascading environmental impacts. Vehicular traffic, sewage and animal husbandry are the main sources of oxidized and reduced forms of Nr. This paper provides an overview of the origin and fate of nitrogen in the Netherlands, the various reported impacts of nitrogen, the Dutch and European policies to reduce nitrogen emissions and related impacts. In addition, ways are presented to go forward to potentially solve the problems in a European perspective. Solutions include the improvement of nitrogen efficiencies in different systems, technological options and education.     

Genome‐wide promoter methylation analysis identifies epigenetic silencing of MAPK13 in primary cutaneous melanoma

The involvement of epigenetic alterations in the pathogenesis of melanoma is increasingly recognized. Here, we performed genome‐wide DNA methylation analysis of primary cutaneous melanoma and benign melanocytic nevus interrogating 14 495 genes using BeadChip technology. This genome‐wide view of promoter methylation in primary cutaneous melanoma revealed an array of recurrent DNA methylation alterations with potential diagnostic applications. Among 106 frequently hypermethylated genes, there were many novel methylation targets and tumor suppressor genes. Highly recurrent methylation of the HOXA9, MAPK13, CDH11, PLEKHG6, PPP1R3C, and CLDN11 genes was established. Promoter methylation of MAPK13, encoding p38δ, was present in 67% of primary and 85% of metastatic melanomas. Restoration of MAPK13 expression in melanoma cells exhibiting epigenetic silencing of this gene reduced proliferation, indicative of tumor suppressive functions. This study demonstrates that DNA methylation alterations are widespread in melanoma and suggests that epigenetic silencing of MAPK13 contributes to melanoma progression.