技术资料

The deregulation of the immune response is a critical component in inflammatory disease. Recent in vitro data show that T-cell protein tyrosine phosphatase (TC-PTP) is a negative regulator of cytokine signaling. Furthermore,tc-ptp(-/-) mice display immune defects and die within 5 weeks of birth. We report here that tc-ptp(-/-) mice develop progressive systemic inflammatory disease as shown by chronic myocarditis,gastritis,nephritis,and sialadenitis as well as elevated serum interferon-gamma. The widespread mononuclear cellular infiltrates correlate with exaggerated interferon-gamma,tumor necrosis factor-alpha,interleukin-12,and nitric oxide production in vivo. Macrophages grown from tc-ptp(-/-) mice are inherently hypersensitive to lipopolysaccharide,which can also be detected in vivo as an increased susceptibility to endotoxic shock. These results identify T-cell protein tyrosine phosphatase as a key modulator of inflammatory signals and macrophage function. View Publication

Lipid rafts accumulate in the immunological synapse formed by an organized assembly of the TCR/CD3,LFA-1,and signaling molecules. However,the precise role of lipid rafts in the formation of the immunological synapse is unclear. In this study,we show that LFA-1 on CTL is constitutively active and mediates Ag-independent binding of CTL to target cells expressing its ligands. LFA-1 and CD3 on CTL,but not resting T cells,colocalize in lipid rafts. Binding of LFA-1 on CTL to targets initiates the formation of the immunological synapse,which is formed by LFA-1,CD3,and ganglioside GM1 distributed in the periphery of the cell contact site and cholesterol is more widely distributed. The formation of this synapse is Ag independent,but the recognition of Ag by the TCR induces accumulation of tyrosine phosphorylated proteins in the synapse as well as redistribution of the microtubule organization center toward the cell contact site. Our results suggest that LFA-1 recruits lipid rafts and the TCR/CD3 to the synapse,and facilitates efficient and rapid activation of CTL. View Publication

The Notch signaling pathway controls several cell fate decisions during lymphocyte development,from T-cell lineage commitment to the peripheral differentiation of B and T lymphocytes. Deltex-1 is a RING finger ubiquitin ligase which is conserved from Drosophila to humans and has been proposed to be a regulator of Notch signaling. Its pattern of lymphoid expression as well as gain-of-function experiments suggest that Deltex-1 regulates both B-cell lineage and splenic marginal-zone B-cell commitment. Deltex-1 was also found to be highly expressed in germinal-center B cells. To investigate the physiological function of Deltex-1,we generated a mouse strain lacking the Deltex-1 RING finger domain,which is essential for its ubiquitin ligase activity. Deltex-1(Delta/Delta) mice were viable and fertile. A detailed histological analysis did not reveal any defects in major organs. T- and B-cell development was normal,as were humoral responses against T-dependent and T-independent antigens. These data indicate that the Deltex-1 ubiquitin ligase activity is dispensable for mouse development and immune function. Possible compensatory mechanisms,in particular those from a fourth Deltex gene identified during the course of this study,are also discussed. View Publication

PURPOSE: The propensity of tumor cells to escape immune elimination could limit,if not defeat,the long-term benefits of effective immunotherapeutic protocols. Immunologic targeting of tumor stroma could significantly reduce the ability of tumors to evade immune elimination. Murine studies have shown that inducing immunity against angiogenesis-associated products engenders potent antitumor immunity without significant pathology. It is,however,not known whether T cells corresponding to stromal products are present in humans. In this study,we describe a method to screen for human stromal products that have not triggered significant tolerance and could therefore serve as candidate antigens for cancer immunotherapy. EXPERIMENTAL DESIGN: To identify candidates for human stromal antigens,we used an in vitro-screening method to determine whether dendritic cells transfected with mRNA encoding products,which are overexpressed in the tumor stroma,are capable of stimulating cytotoxic CD8(+) (CTL) responses from human peripheral blood mononuclear cells. RESULTS: CTL responses could be consistently generated against fibroblast activation protein (FAP) but not against matrix metalloproteinase-9 (MMP-9) or MMP-14. To enhance the immunogenicity of the mRNA-translated FAP product,a lysosomal targeting signal derived from lysosome-associated membrane protein-1 (LAMP-1) was fused to the COOH terminus of FAP to redirect the translated product into the class II presentation pathway. Dendritic cells transfected with mRNA encoding the FAP-LAMP fusion product stimulated enhanced CD4(+) and CD8(+) T-cell responses. CONCLUSION: This study identifies FAP,a protease preferentially expressed in tumor-associated fibroblasts,as a candidate human stromal antigen to target in the setting of cancer immunotherapy,and shows that differential expression of stromal products is not a sufficient criteria to indicate its immunogenicity in a vaccination setting. View Publication

Mice lacking CD137L (4-1BBL) show normal primary expansion and contraction of the CD8+ T cell response to influenza virus,but exhibit a defect in Ag-specific CD8+ T cell numbers at 3-6 wk postinfection. Previous results showed that the decrease in CD8+ T cell numbers in this model is not due to a programming defect during primary expansion. Thus,it appears that 4-1BB/4-1BBL interactions control the number of surviving CD8+ effector memory cells,late in the primary response. In this report,we asked how 4-1BB on T cells could play a role after Ag has apparently been cleared from the host. We show that IL-15,a cytokine involved in regulation of CD8+ memory T cell survival,induces the expression of 4-1BB on CD8+CD44(high) memory phenotype T cells,but not on CD4+ T cells. The Ag-independent induction of 4-1BB by IL-15 was dependent on MAPK p38 and ERK activation. Transfer of in vitro-generated OT-I CD8+ memory T cells into unimmunized wild-type or 4-1BBL-deficient hosts revealed a 2- to 3-fold survival advantage when 4-1BBL was present,recapitulating the effect seen in the endogenous response to influenza in mice. Decreases in the overall number of memory CD8+ T cells were also observed in the bone marrow of unmanipulated 4-1BBL-deficient mice. These data suggest a model whereby 4-1BB expression on memory CD8+ T cells,perhaps due to encounter with IL-15 in the bone marrow,allows 4-1BB/4-1BBL interactions to maintain memory CD8 T cell survival in the absence of Ag. View Publication

Current strategies for the production of therapeutic mAbs include the use of mammalian cell systems to recombinantly produce Abs derived from mice bearing human Ig transgenes,humanization of rodent Abs,or phage libraries. Generation of hybridomas secreting human mAbs has been previously reported; however,this approach has not been fully exploited for immunotherapy development. We previously reported the use of transient regulation of cellular DNA mismatch repair processes to enhance traits (e.g.,affinity and titers) of mAb-producing cell lines,including hybridomas. We reasoned that this process,named morphogenics,could be used to improve suboptimal hybridoma cells generated by means of ex vivo immunization and immortalization of antigen-specific human B cells for therapeutic Ab development. Here we present a platform process that combines hybridoma and morphogenics technologies for the generation of fully human mAbs specific for disease-associated human antigens. We were able to generate hybridoma lines secreting mAbs with high binding specificity and biological activity. One mAb with strong neutralizing activity against human granulocyte-macrophage colony-stimulating factor was identified that is now considered for preclinical development for autoimmune disease indications. Moreover,these hybridoma cells have proven suitable for genetic optimization using the morphogenics process and have shown potential for large-scale manufacturing. View Publication

In a murine model of autoimmunity targeted against the epidermal cell Ags,Skn,adoptive transfer of Skn-immune T cells to immunosuppressed recipients elicits skin lesions in areas of mild epidermal trauma. In this study,we examined peripheral regulation of Skn-induced autoreactivity disrupted by rendering the mice immunoincompetent. We found that regulation of Skn-directed autoimmunity was restored by cotransfer of normal syngeneic spleen cells at twice the concentration of Skn-immune cells and was evidenced by significantly reduced lesion severity by days 5-7 post-cotransfer compared with animals given injections of Skn-immune cells alone. Enrichment and depletion of normal CD4(+) or CD8(+) spleen cells and RT-PCR analysis of selected cytokines identified CD4(+) cells as the regulatory cells in the cotransfer inoculum; however,significant reduction in lesion severity was observed only when there was a concomitant increase in levels of IL-7. The role of IL-7 was further supported in that mice cotransferred with Skn-immune cells plus normal spleen cells,but also treated with anti-IL-7 Ab,no longer exhibited reduced lesion severity. To determine whether IL-7 expression without normal spleen cell cotransfer could modulate lesion development,an IL-7-encoding plasmid (pCMV-Tag1-IL-7) was topically delivered to sites flanking the stressed skin site in Skn-induced autoimmune mice. Daily application of 15 mug of pCMV-Tag1-IL-7 significantly suppressed lesion severity. Our results support a mechanism for CD4(+) T cells and IL-7 in contributing to the control of autoreactivity. View Publication

In herpesvirus infections,the virus persists for life but is contained through T-cell-mediated immune surveillance. How this immune surveillance operates is poorly understood. Recent studies of other persistent infections have indicated that virus persistence is associated with functional deficits in the CD8(+) T-cell response. To test whether this is the case in a herpesvirus infection,we used a mutant murine gammaherpesvirus that is defective in its ability to persist in the host. By comparing the immune response to this virus with a revertant virus that can persist,we were able to dissect the changes in the antiviral CD8(+) T-cell response that are induced by virus persistence. Surprisingly,persistently infected mice controlled a secondary challenge infection more rapidly than nonpersistently infected mice,indicating enhanced rather than diminished effector functions. Consistent with this,virus-specific CD8 T cells from these mice exhibited faster upregulation of the cytotoxic mediator granzyme B. Another unexpected finding was that CD8(+) T cells from neither infection responded efficiently to homeostatic cytokines. The unresponsiveness of the memory cells from the nonpersistently infected mice appears to be linked to the prolonged replication of virus within the lungs. Other changes seen in different chronic infection models were also observed,such as changes in Bcl-2 levels,interleukin-2 production,and the immunodominance hierarchy. These data show persistence of gammaherpesvirus type 68 alters the properties of CD8(+) T cells and illustrates that immune surveillance does not require CD8 T cells with the same attributes as classical" memory CD8(+) T cells." View Publication

Prior experimental strategies to induce transplantation tolerance have focused largely on modifying adaptive immunity. However,less is known concerning the role of innate immune signaling in the induction of transplantation tolerance. Using a highly immunogenic murine skin transplant model that resists transplantation tolerance induction when innate immunity is preserved,we show that absence of MyD88,a key innate Toll like receptor signal adaptor,abrogates this resistance and facilitates inducible allograft acceptance. In our model,absence of MyD88 impairs inflammatory dendritic cell responses that reduce T cell activation. This effect increases T cell susceptibility to suppression mediated by CD4+ CD25+ regulatory T cells. Therefore,this study provides evidence that absence of MyD88 promotes inducible allograft acceptance and implies that inhibiting innate immunity may be a potential,clinically relevant strategy to facilitate transplantation tolerance. View Publication

Macroautophagy (hereafter referred to as autophagy) is a well-conserved intracellular degradation process. Recent studies examining cells lacking the autophagy genes Atg5 and Atg7 have demonstrated that autophagy plays essential roles in cell survival during starvation,in innate cell clearance of microbial pathogens,and in neural cell maintenance. However,the role of autophagy in T lymphocyte development and survival is not known. Here,we demonstrate that autophagosomes form in primary mouse T lymphocytes. By generating Atg5-/- chimeric mice,we found that Atg5-deficient T lymphocytes underwent full maturation. However,the numbers of total thymocytes and peripheral T and B lymphocytes were reduced in Atg5 chimeras. In the periphery,Atg5-/- CD8+ T lymphocytes displayed dramatically increased cell death. Furthermore,Atg5-/- CD4+ and CD8+ T cells failed to undergo efficient proliferation after TCR stimulation. These results demonstrate a critical role for Atg5 in multiple aspects of lymphocyte development and function and suggest that autophagy may be essential for both T lymphocyte survival and proliferation. View Publication

Depletion of CD4+CD25+ regulatory T cells (Treg) by treatment with alphaCD25 antibody synergizes with vaccination protocols to engender protective immunity in mice. The effectiveness of targeting CD25 to eliminate Treg is limited by the fact that CD25,the low-affinity interleukin-2 receptor,is up-regulated on conventional T cells. At present,foxp3 is the only product known to be exclusively expressed in Treg of mice. However,foxp3 is not expressed on the cell surface and hence cannot be targeted with antibodies. In this study,we tested the hypothesis that vaccination of mice against foxp3,a self-antigen expressed also in the thymus,is capable of stimulating foxp3-specific CTL that will cause the depletion of Treg and enhanced antitumor immunity. Vaccination of mice with foxp3 mRNA-transfected dendritic cells elicited a robust foxp3-specific CTL response and potentiated vaccine-induced protective immunity comparably with that of alphaCD25 antibody administration. In contrast to alphaCD25 antibody treatment,repeated foxp3 vaccination did not interfere with vaccine-induced protective immunity. Importantly,foxp3 vaccination led to the preferential depletion of foxp3-expressing Treg in the tumor but not in the periphery,whereas alphaCD25 antibody treatment led to depletion of Treg in both the tumor and the periphery. Targeting foxp3 by vaccination offers a specific and simpler protocol for the prolonged control of Treg that may be associated with reduced risk of autoimmunity,introducing an approach whereby specific depletion of cells is not limited to targeting products expressed on the cell surface. View Publication