Generic construction of single component particles that elicit humoural and cellular immune responses without the need for adjuvants.

Insoluble, pure protein particles could be advantageous as single-entity vaccines or as carriers for small peptide epitopes. Dense gas anti-solvent precipitation was employed to produce pure protein particles which were found to be insoluble in water. As particulate and multimerized antigens are more immunogenic and hence more advantageous for vaccination, particles were produced via this method using ovalbumin as a model antigen. The particles produced had a mean diameter of approximately 300nm, and remained as discrete particles at low pH. At neutral pH or in the presence of electrolyte, the particles exhibited predictable flocculation behaviour to produce aggregates 1-5microm in diameter. Immunisation of mice with these flocculates elicited specific ovalbumin antibody production, T-cell proliferation and a cytotoxic T-cell response, all in the absence of adjuvant. Thus, dense gas processing could be used as a generic method to produce pure protein particulate vaccines.

SOCS1: a potent and multifaceted regulator of cytokines and cell-mediated inflammation.

Suppressor of cytokine signalling-1 (SOCS1), as the name implies, is a protein that functions as a negative regulator of cytokine signalling. Initially characterized for its ability to inhibit JAK phosphorylation and function, SOCS1 also targets proteins for degradation by the proteosome machinery. The expression of SOCS1 can be regulated at the transcription, translation and protein level. Despite the broad spectrum of cytokines that can induce SOCS1 expression and/or be inhibited by SOCS1 in vitro, the use of genetically modified mice has revealed a more specific role for SOCS1 in vivo including a critical role in the regulation of IFNgamma signalling. In addition, SOCS1 has a complex role in T cell activation, and studies have revealed significant roles for SOCS1 in the regulation of IL-4, IL-12 and IL-15 in vivo. Interestingly, SOCS1 action is not limited to the regulation of the classical JAK/STAT-signalling pathway, because SOCS1 also inhibits cytokines like insulin and toll-like receptor signal transduction, neither of which activates the JAK/STAT pathway. Evidence is emerging for a role for aberrant SOCS1 expression in human disease, particularly in a number of malignancies.

Kidney protection against autoreactive CD8(+) T cells distinct from immunoprivilege and sequestration.

BACKGROUND: The kidney tubulointerstitium has been reported to be protected from T-cell--mediated damage by sequestration from the T-cell compartment. We examined the ability of autoreactive T cells to infiltrate the kidney in a transgenic mouse model. METHODS: RIP-mOVA transgenic mice express the model autoantigen, membrane-bound ovalbumin (mOVA), in kidney proximal tubular cells and pancreatic beta cells. OVA-specific CD8(+) T cells (OT-I cells) were transferred into these recipient mice and their immune response against pancreas and kidney tissue was compared. RESULTS: When OVA-specific CD8(+) T cells (OT-I cells) were injected into RIP-mOVA mice, they were activated in the renal and pancreatic lymph nodes by cross-presentation. These in vivo-activated OT-I cells caused the destruction of pancreatic islets leading to autoimmune diabetes, but did not infiltrate the kidney. Neither CD95--CD95 ligand interactions, which have been proposed to induce apoptosis in T cells infiltrating immunologically privileged sites, nor CD30 signaling was responsible for the lack of kidney infiltration. When OT-I cells were activated in vitro prior to injection, they could infiltrate the kidney and caused acute renal failure when injected in high numbers. CONCLUSIONS: A mechanism distinct from previously described organ-specific protective mechanisms such as sequestration of antigen or CD95-mediated immunoprivilege contributes to the protection of the kidney tubulointerstitium from infiltration by autoreactive CD8(+) T cell.

Cell-associated ovalbumin is cross-presented much more efficiently than soluble ovalbumin in vivo.

To better understand the antigenic requirements for cross-presentation, we compared the in vivo efficiency of presentation of cell-associated vs soluble OVA with the OT-I (CD8) and OT-II (CD4) TCR transgenic lines. Cross-presentation of cell-associated OVA was very efficient, requiring as little as 21 ng of OVA to activate OT-II cells and 100-fold less to activate OT-I cells. In contrast, soluble OVA was presented inefficiently, requiring at least 10,000 ng OVA for activation of either T cell subset. Thus, cell-associated OVA was presented 500-fold more efficiently than soluble OVA to CD4 T cells and 50,000-fold more efficiently to CD8 T cells. These data, which represent the first quantitative in vivo analysis of cross-presentation, show that cell-associated OVA is very efficiently presented via the class I pathway.

A bone marrow-derived APC in the gut-associated lymphoid tissue captures oral antigens and presents them to both CD4+ and CD8+ T cells.

We have previously reported that feeding OVA to C57BL/6 mice can lead to a weak CTL response that is dependent on CD4+ T cell help and is capable of causing autoimmunity. In this study, we investigated the basis of the class I and class II-restricted Ag presentation required for such CTL induction. Two days after feeding OVA, Ag-specific CD4+ and CD8+ T cells were seen to proliferate in the Peyer's patches and mesenteric lymph nodes. Little proliferation was evident in other lymphoid tissues, except at high Ags doses, in which case some dividing CD4+ T cells were observed in the spleen and peripheral lymph nodes. Using chimeric mice, the APC responsible for presenting orally derived Ags was shown to be derived from the bone marrow. Examination of the Ag dose required to activate either CD4+ or CD8+ T cells indicated that a single dose of 6 mg OVA was the minimum dose that consistently stimulated either T cell subset. These data indicate that oral Ags can be transported from the gut into the gut-associated lymphoid tissue, where they are captured by a bone marrow-derived APC and presented to both CD4+ and CD8+ T cells.

The use of carboxyfluorescein diacetate succinimidyl ester to determine the site, duration and cell type responsible for antigen presentation in vivo.

This report examines the use of 5-(and-6)-carboxyfluorescein diacetate succinimidyl ester (CFSE) to determine the site, duration and cell type responsible for antigen presentation in vivo. Evidence that CFSE-labelled T cells can be used to determine where various types of antigens are presented, including auto-antigens, oral antigens and cell-associated foreign antigens, is provided. Using this technique, the length of time antigen is presented after acquisition by APC was measured. Finally, CFSE labelling was used to identify the origin of the APC responsible for different forms of antigen presentation.

Thymic shared antigen-2: a novel cell surface marker associated with T cell differentiation and activation.

Thymic shared Ag-2 (TSA-2) is a 28-kDa, glycophosphatidylinitosol-linked cell surface molecule expressed on various T cell and thymic stromal cell subsets. It is expressed on most CD3-CD4-CD8-, CD4+CD8+, and CD3highCD4-CD8+ thymocytes but is down-regulated on approximately 40% of CD3highCD4+CD8- thymocytes. Expression on peripheral TCR-alphabeta+ T cells is similar to that of CD3+ thymocytes, although a transient down-regulation occurs with cell activation. Consistent with the recent hypothesis that emigration from the thymus is an active process, recent thymic emigrants are primarily TSA-2-/low. TSA-2 expression reveals heterogeneity among subpopulations of CD3highCD4+CD8- thymocytes and TCR-gamma delta+ T cell previously regarded as homogenous. The functional importance of TSA-2 was illustrated by the severe block in T cell differentiation caused by adding purified anti-TSA-2 mAb to reconstituted fetal thymic organ culture. While each CD25/CD44-defined triple-negative subset was present, differentiation beyond the TN stage was essentially absent, and cell numbers of all subsets were significantly below those of control cultures. Cross-linking TSA-2 on thymocytes caused a significant Ca2+ influx but no increase in apoptosis, unless anti-TSA-2 was used in conjunction with suboptimal anti-CD3 mAb. Similar treatment of mature TSA-2+ T cells had no effect on cell survival or proliferation. This study reveals TSA-2 to be a functionally important molecule in T cell development and a novel indicator of heterogeneity among a variety of developing and mature T cell populations.

Preselection thymocytes are more sensitive to T cell receptor stimulation than mature T cells.

During T cell development, thymocytes which are tolerant to self-peptides but reactive to foreign peptides are selected. The current model for thymocyte selection proposes that self-peptide-major histocompatibility complex (MHC) complexes that bind the T cell receptor with low affinity will promote positive selection while those with high affinity will result in negative selection. Upon thymocyte maturation, such low affinity self-peptide-MHC ligands no longer provoke a response, but foreign peptides can incidentally be high affinity ligands and can therefore stimulate T cells. For this model to work, thymocytes must be more sensitive to ligand than mature T cells. Contrary to this expectation, several groups have shown that thymocytes are less responsive than mature T cells to anti-T cell receptor for antigen (TCR)/CD3 mAb stimulation. Additionally, the lower TCR levels on thymocytes, compared with T cells, would potentially correlate with decreased thymocyte sensitivity. Here we compared preselection thymocytes and mature T cells for early activation events in response to peptide-MHC ligands. Remarkably, the preselection thymocytes were more responsive than mature T cells when stimulated with low affinity peptide variants, while both populations responded equally well to the antigenic peptide. This directly demonstrates the increased sensitivity of thymocytes compared with T cells for TCR engagement by peptide-MHC complexes.

Characterization of the AKR thymic microenvironment and its influence on thymocyte differentiation and lymphoma development.

The thymic stroma has long been implicated in AKR thymic leukaemia. In this study an extensive panel of monoclonal antibodies was used to investigate changes in the AKR thymic microenvironment, in parallel with thymocyte differentiation of normal (2 month), preleukaemic (5-7 month) and leukaemic (> 7 month) mice. We found select alterations in the thymic stroma, including a loss of isolated medullary antigens and changes in MTS 32, a mAb detecting an antigen on both thymocytes and stroma in the thymic cortex. Stromal alterations were accompanied by shifts in thymocyte differentiation and the appearance of the leukaemogenic mink cell focus-forming (MCF) murine leukaemia virus.

Isolation of Yersinia enterocolitica and related species from the faeces of cows.

A total of 203 samples of faeces from 124 cows was examined for the presence of Yersinia enterocolitica and related species by a variety of isolation procedures. Cold enrichment at 5 degrees C for three weeks, followed by plating on cefsulodin-irgasannovobiocin agar yielded Yersinia species most frequently. Yersinia enterocolitica or related species were isolated from 50% of the cows.