Scrapie pathogenesis: the role of complement C1q in scrapie agent uptake by conventional dendritic cells.

Mice lacking complement components show delayed development of prion disease following peripheral inoculation. The delay could relate to reduced scrapie prion protein (PrP(Sc)) accumulation on follicular dendritic cells (DCs). However conventional DCs (cDCs) play a crucial role in the early pathogenesis of prion diseases and complement deficiency could result in decreased PrP(Sc) uptake by cDCs in the periphery. To explore this possibility, we cultured murine splenic or gut-associated lymph node cDCs with scrapie-infected whole brain homogenate in the presence or absence of complement. Uptake decreased significantly if the serum in the cultures was heat-inactivated. Because heat inactivation primarily denatures C1q, we used serum from C1q(-/-) mice and showed that PrP(Sc) uptake was markedly decreased. PrP(Sc) internalization was saturable and temperature-dependent, suggesting receptor-mediated uptake. Furthermore, uptake characteristics differed from fluid-phase endocytosis. Immunofluorescence showed colocalization of C1q and PrP(Sc), suggesting interaction between these molecules. We evaluated the expression of several complement receptors on cDCs and confirmed that cDCs that take up PrP(Sc) express one of the C1q receptors, calreticulin. Our results show that C1q participates in PrP(Sc) uptake by cDCs, revealing a critical role for cDCs in initial prion capture, an event that takes place before the PrP(Sc) accumulation within the follicular DC network.

CD11c(high )dendritic cells are essential for activation of CD4+ T cells and generation of specific antibodies following mucosal immunization.

To generate vaccines that protect mucosal surfaces, a better understanding of the cells required in vivo for activation of the adaptive immune response following mucosal immunization is required. CD11c(high) conventional dendritic cells (cDCs) have been shown to be necessary for activation of naive CD8(+) T cells in vivo, but the role of cDCs in CD4(+) T cell activation is still unclear, especially at mucosal surfaces. The activation of naive Ag-specific CD4(+) T cells and the generation of Abs following mucosal administration of Ag with or without the potent mucosal adjuvant cholera toxin were therefore analyzed in mice depleted of CD11c(high) cDCs. Our results show that cDCs are absolutely required for activation of CD4(+) T cells after oral and nasal immunization. Ag-specific IgG titers in serum, as well as Ag-specific intestinal IgA, were completely abrogated after feeding mice OVA and cholera toxin. However, giving a very high dose of Ag, 30-fold more than required to detect T cell proliferation, to cDC-ablated mice resulted in proliferation of Ag-specific CD4(+) T cells. This proliferation was not inhibited by additional depletion of plasmacytoid DCs or in cDC-depleted mice whose B cells were MHC-II deficient. This study therefore demonstrates that cDCs are required for successful mucosal immunization, unless a very high dose of Ag is administered.

Murine cecal patch M cells transport infectious prions in vivo.

We show that following oral inoculation, prions bind to ileal Peyer patch and cecal patch microfold cells (M cells) in vivo. Furthermore, we show evidence that the cecum acts a biological sump holding large concentrations of prions for relatively long periods, thus increasing the exposure time of cecal patch M cells. Our results show a critical initial step in the translocation of prions from the intestinal lumen of mammals in vivo, which is a precursor to infection.

Soluble CD38 significantly prolongs the lifespan of memory B-cell responses.

The development and maintenance of memory B cells (MBC) is dependent on germinal centres (GC) with follicular dendritic cell (FDC) networks. We have previously shown that FDC networks within GC of the spleen express a novel ligand for CD38 and that the administration of soluble CD38 induces an expansion of these cellular structures. We therefore used adoptive transfer studies to investigate whether the expansion of FDC networks with soluble CD38 affected the generation and maintenance of antigen-specific MBC. These studies found that the administration of soluble CD38 significantly extended the period after which MBC could be activated and that the frequencies of these cells also were increased. In conclusion, soluble CD38 appears to significantly extend the lifespan of antibody memory by increasing the numbers of MBC.

Eosinophilic bowel disease controlled by the BB rat-derived lymphopenia/Gimap5 gene.

BACKGROUND & AIMS: Many models of autoimmunity are associated with lymphopenia. Most involve a T-helper cell (Th)1-type disease, including the diabetic BioBreeding (BB) rat. To investigate the roles of identified susceptibility loci in disease pathogenesis, we bred PVG-RT1(u), lymphopenia (lyp)/lyp rats, congenic for the iddm1 (RT1(u)) and iddm2 (lyp, Gimap5(-/-)) diabetes susceptibility loci on the PVG background. Surprisingly, these rats developed a spontaneous, progressive, inflammatory bowel disease. To understand the disease pathogenesis, we undertook investigations at the genetic, histologic, and cellular levels. METHODS: Genetically lymphopenic rats and congenic wild-type partners were compared for gross pathologic, histologic, and immunologic parameters, the latter including cytokines and autoantibodies. RESULTS: Genetic analysis demonstrated that homozygosity at the lyp locus was required for disease. All rats developed disease, and the median age at humane killing was approximately 36 weeks. This panintestinal disease showed a conspicuous eosinophilic infiltrate in the submucosa and muscle layers, but the villi were unaffected. Diseased rats showed splenomegaly and massive enlargement of the mesenteric lymph nodes. This pathology resembles human eosinophilic gastroenteritis, and several further features indicate a Th2 basis. The rats developed high serum IgE and made IgG autoantibodies that detected a nonleukocytic cell present in the intestinal wall of all rats (including germ free). CONCLUSIONS: The T-lymphopenic state associated with GIMAP5 deficiency renders rats generally susceptible to T-cell-mediated autoimmunity, but the immunoregulatory bias (Th1/Th2) of any disease depends on other genetic (or environmental) factors. In the present model, we suggest that defective peripheral tolerance to an intestine-specific autoantigen leads to uncontrolled inflammation of the intestinal wall.

Dendritic cells and follicular dendritic cells express a novel ligand for CD38 which influences their maturation and antibody responses.

CD38 is a cell surface molecule with ADP-ribosyl cyclase activity, which is predominantly expressed on lymphoid and myeloid cells. CD38 has a significant role in B-cell function as some anti-CD38 antibodies can deliver potent growth and differentiation signals, but the ligand that delivers this signal in mice is unknown. We used a chimeric protein of mouse CD38 and human immunogobulin G (IgG) (CD38-Ig) to identify a novel ligand for murine CD38 (CD38L) on networks of follicular dendritic cells (FDCs) as well as dendritic cells (DCs) in the spleen. Flow-cytometry found that all DC subsets expressed cytoplasmic CD38L but only fresh ex vivo CD11c+ CD11b- DCs had cell surface CD38L. Anti-CD38 antibody blocked the binding of CD38-Ig to CD38L, confirming the specificity of detection. CD38-Ig immuno-precipitated ligands of 66 and 130 kDa. Functional studies found that CD38-Ig along with anti-CD40 and anti-major histocompatibility complex (MHC) class II antibody provided maturation signals to DCs in vitro. When CD38-Ig was administered in vivo with antigen, IgG2a responses were significantly reduced, suggesting that B and T cells expressing CD38 may modulate the isotype of antibodies produced through interaction with CD38L on DCs. CD38-Ig also expanded FDC networks when administered in vivo. In conclusion, this study has identified a novel ligand for CD38 which has a role in functional interactions between lymphocytes and DCs or FDCs.