技术资料

Preferential activation of regulatory T (Treg) cells limits autoimmune tissue damage during chronic immune responses but can also facilitate tumor growth. Here,we show that tissue-produced inflammatory mediators prime maturing dendritic cells (DC) for the differential ability of attracting anti-inflammatory Treg cells. Our data show that prostaglandin E(2) (PGE(2)),a factor overproduced in chronic inflammation and cancer,induces stable Treg-attracting properties in maturing DC,mediated by CCL22. The elevated production of CCL22 by PGE(2)-matured DC persists after the removal of PGE(2) and is further elevated after secondary stimulation of DC in a neutral environment. This PGE(2)-induced overproduction of CCL22 and the resulting attraction of FOXP3(+) Tregs are counteracted by IFN alpha,a mediator of acute inflammation,which also restores the ability of the PGE(2)-exposed DC to secrete the Th1-attracting chemokines: CXCL9,CXCL10,CXCL11,and CCL5. In accordance with these observations,different DCs clinically used as cancer vaccines show different Treg-recruiting abilities,with PGE(2)-matured DC,but not type 1-polarized DC,generated in the presence of type I and type II IFNs,showing high Treg-attracting activity. The current data,showing that the ability of mature DC to interact with Treg cells is predetermined at the stage of DC maturation,pave the way to preferentially target the regulatory versus proinflammatory T cells in autoimmunity and transplantation,as opposed to intracellular infections and cancer. View Publication

Understanding the cellular mechanisms that ensure an appropriate innate immune response against viral pathogens is an important challenge of biomedical research. In vitro studies have shown that natural killer (NK) cells purified from healthy donors can kill heterologous cell lines or autologous CD4+ T cell blasts exogenously infected with several strains of HIV-1. However,it is not known whether the deleterious effects of high HIV-1 viremia interferes with the NK cell-mediated cytolysis of autologous,endogenously HIV-1-infected CD4+ T cells. Here,we stimulate primary CD4+ T cells,purified ex vivo from HIV-1-infected viremic patients,with PHA and rIL2 (with or without rIL-7). This experimental procedure allows for the significant expansion and isolation of endogenously infected CD4+ T cell blasts detected by intracellular staining of p24 HIV-1 core antigen. We show that,subsequent to the selective down-modulation of MHC class-I (MHC-I) molecules,HIV-1-infected p24(pos) blasts become partially susceptible to lysis by rIL-2-activated NK cells,while uninfected p24(neg) blasts are spared from killing. This NK cell-mediated killing occurs mainly through the NKG2D activation pathway. However,the degree of NK cell cytolytic activity against autologous,endogenously HIV-1-infected CD4+ T cell blasts that down-modulate HLA-A and -B alleles and against heterologous MHC-I(neg) cell lines is particularly low. This phenomenon is associated with the defective surface expression and engagement of natural cytotoxicity receptors (NCRs) and with the high frequency of the anergic CD56(neg)/CD16(pos) subsets of highly dysfunctional NK cells from HIV-1-infected viremic patients. Collectively,our data demonstrate that the chronic viral replication of HIV-1 in infected individuals results in several phenotypic and functional aberrancies that interfere with the NK cell-mediated killing of autologous p24(pos) blasts derived from primary T cells. View Publication

The intracellular expression of the programmed death receptor 1 (PD1) identifies a subset of naive T(reg) cells with enhanced suppressive ability; antigen stimulation results in the surface expression of PD1. Because the role of T(reg) impairments in multiple sclerosis (MS) is still contradictory,we analyzed naive PD1- and PD1+ T(reg) cells in peripheral blood and cerebrospinal fluid (CSF) of relapsing-remitting multiple sclerosis (RR-MS) patients and of healthy control subjects. Results showed that 1) CSF PD1- T(reg) cells were significantly augmented in MS patients; 2) PD1- T(reg) cells were significantly increased in the peripheral blood of patients with stable disease (SMS) compared to those with acute (AMS) disease,and in patients responding to glatiramer acetate (COPA) compared to AMS- and COPA-unresponsive patients; and 3) PD1+ T(reg) cells were similar in CSF and peripheral blood of all groups analyzed. PD1- T(reg) cells were not increased in the peripheral blood of interferon-beta (IFNbeta) -responsive patients,but the suppressive ability of T(reg) cells was significantly higher in SMS and in COPA- or IFNbeta-responsive compared to AMS- and COPA-unresponsive individuals. The data herein suggest that PD1- T(reg) cells play a pivotal role in MS and offer a biological explanation for disease relapse and for the mechanism associated with response to COPA and IFNbeta. View Publication

Primary systemic amyloidosis (AL) is a rare monoclonal plasma cell (PC) disorder characterized by the deposition of misfolded immunoglobulin (Ig) light chains (LC) in vital organs throughout the body. To our knowledge,no cell lines have ever been established from AL patients. Here we describe the establishment of the ALMC-1 and ALMC-2 cell lines from an AL patient. Both cell lines exhibit a PC phenotype and display cytokine-dependent growth. Using a comprehensive genetic approach,we established the genetic relationship between the cell lines and the primary patient cells,and we were also able to identify new genetic changes accompanying tumor progression that may explain the natural history of this patient's disease. Importantly,we demonstrate that free lambda LC secreted by both cell lines contained a beta structure and formed amyloid fibrils. Despite absolute Ig LC variable gene sequence identity,the proteins show differences in amyloid formation kinetics that are abolished by the presence of Na(2)SO(4). The formation of amyloid fibrils from these naturally secreting human LC cell lines is unprecedented. Moreover,these cell lines will provide an invaluable tool to better understand AL,from the combined perspectives of amyloidogenic protein structure and amyloid formation,genetics,and cell biology. View Publication

The dynamic interplay between dendritic cells (DCs) and human immunodeficiency virus type-1 (HIV-1) is thought to result in viral dissemination and evasion of antiviral immunity. Although initial observations suggested that the C-type lectin receptor (CLR) DC-SIGN was responsible for the trans-infection function of the virus,subsequent studies demonstrated that trans-infection of CD4(+) T cells with HIV-1 can also occur through DC-SIGN-independent mechanisms. We demonstrate that a cell surface molecule designated DCIR (for DC immunoreceptor),a member of a recently described family of DC-expressing CLRs,can participate in the capture of HIV-1 and promote infection in trans and in cis of autologous CD4(+) T cells from human immature monocyte-derived DCs. The contribution of DCIR to these processes was revealed using DCIR-specific siRNAs and a polyclonal antibody specific for the carbohydrate recognition domain of DCIR. Data from transfection experiments indicated that DCIR acts as a ligand for HIV-1 and is involved in events leading to productive virus infection. Finally,we show that the neck domain of DCIR is important for the DCIR-mediated effect on virus binding and infection. These results point to a possible role for DCIR in HIV-1 pathogenesis by supporting the productive infection of DCs and promoting virus propagation. View Publication

T cell dysfunction is crucial to the pathogenesis of systemic lupus erythematosus (SLE); however,the molecular mechanisms involved in the deficient expression of the T cell receptor-associated CD3zeta chain in SLE are not clear. SLE T cells express abnormally increased levels of an alternatively spliced isoform of CD3zeta that lacks a 562-bp region in its 3'-untranslated region (UTR). We showed previously that two adenosine/uridine-rich elements (ARE) in this splice-deleted region of CD3zeta transcript are critical for the mRNA stability and protein expression of CD3zeta. In this study we show for the first time that the mRNA-stabilizing protein HuR binds to these two ARE bearing regions of CD3zeta 3'-UTR. Knockdown of HuR resulted in decreased expression of the CD3zeta chain,whereas overexpression led to the increase of CD3zeta chain levels. Additionally,overexpression of HuR in human T cells resulted in increased mRNA stability of CD3zeta. Our results identify the 3'-UTR of CD3zeta as a novel target for the mRNA-stabilizing protein HuR. Thus,the absence of two critical AREs in the alternatively spliced CD3zeta 3'-UTR found in SLE T cells may result in decreased HuR binding,representing a possible molecular mechanism contributing to the reduced stability and expression of CD3zeta in SLE. View Publication

B lymphocyte stimulator (BLyS) is a well-known direct costimulator of adaptive immune cells,particularly B lineage cells. However,we have reported recently that BLyS is also able to activate monocytes. Other innate immune cells,such as dendritic cells (DCs),play a key role in the initiation of adaptive immune responses and the purpose of the current study was to assess whether there is a direct role for BLyS in modulating human DC functions. In this study,we show that BLyS induces DC activation and maturation. Thus,BLyS strongly induced up-regulation of surface costimulatory molecule expression and secretion of specific cytokines and chemokines in DCs. BLyS-stimulated DCs (BLyS-DCs) were also able to augment allogeneic CD4 T cell proliferation to a greater extent than control DCs. BLyS-DCs secreted elevated levels of the major Th1-polarizing cytokine,IL-12p70,and they promoted naive CD4 T cell differentiation into Th1 T cells. Regarding BLyS receptor expression,DCs primarily express cytoplasmic transmembrane activator and CAML interactor; however,low levels of cell surface transmembrane activator and CAML interactor are expressed as well. Collectively,our data suggest that BLyS may modulate adaptive immune cells indirectly by inducing DC maturation. View Publication

BACKGROUND: Patients with type 2 diabetes mellitus are at increased risk for the development of atherosclerosis. A pivotal event in the development of atherosclerosis is macrophage foam cell formation. The ATP-binding cassette (ABC) transporters ABCA1 and ABCG1 regulate macrophage cholesterol efflux and hence play a vital role in macrophage foam cell formation. We have previously found that chronic elevated glucose reduces ABCG1 expression. In the present study,we examined whether patients with type 2 diabetes mellitus had decreased ABCG1 and/or ABCA1,impaired cholesterol efflux,and increased macrophage foam cell formation. METHODS AND RESULTS: Blood was collected from patients with and without type 2 diabetes mellitus. Peripheral blood monocytes were differentiated into macrophages,and cholesterol efflux assays,immunoblots,histological analysis,and intracellular cholesteryl ester measurements were performed. Macrophages from patients with type 2 diabetes mellitus had a 30% reduction in cholesterol efflux with a corresponding 60% increase in cholesterol accumulation relative to control subjects. ABCG1 was present in macrophages from control subjects but was undetectable in macrophages from patients with type 2 diabetes mellitus. In contrast,ABCA1 expression in macrophages was similar in both control subjects and patients with type 2 diabetes mellitus. Macrophage expression of ABCG1 in both patients and control subjects was induced by treatment with the liver X receptor agonist TO-901317. Upregulation of liver X receptor dramatically reduced foam cell formation in macrophages from patients with type 2 diabetes mellitus. CONCLUSIONS: ABCG1 expression and cholesterol efflux are reduced in patients with type 2 diabetes mellitus. This impaired ABCG1-mediated cholesterol efflux significantly correlates with increased intracellular cholesterol accumulation. Strategies to upregulate ABCG1 expression and function in type 2 diabetes mellitus could have therapeutic potential for limiting the accelerated vascular disease observed in patients with type 2 diabetes mellitus. View Publication

It has recently been shown that interleukin (IL)-21 is produced by Th17 cells,functions as an autocrine growth factor for Th17 cells,and plays critical roles in autoimmune diseases. In this study,we investigated the differentiation and characteristics of IL-21-producing CD4(+) T cells by intracellular staining. Unexpectedly,we found that under Th17-polarizing conditions,the majority of IL-21-producing CD4(+) T cells did not produce IL-17A and -17F. We also found that IL-6 and -21 potently induced the development of IL-21-producing CD4(+) T cells without the induction of IL-4,IFN-gamma,IL-17A,or IL-17F production. On the other hand,TGF-beta inhibited IL-6- and IL-21-induced development of IL-21-producing CD4(+) T cells. IL-2 enhanced the development of IL-21-producing CD4(+) T cells under Th17-polarizing conditions. Finally,IL-21-producing CD4(+) T cells exhibited a stable phenotype of IL-21 production in the presence of IL-6,but retained the potential to produce IL-4 under Th2-polarizing conditions and IL-17A under Th17-polarizing conditions. These results suggest that IL-21-producing CD4(+) T cells exhibit distinct characteristics from Th17 cells and develop preferentially in an IL-6-rich environment devoid of TGF-beta,and that IL-21 functions as an autocrine growth factor for IL-21-producing CD4(+) T cells. View Publication

T-bet and STAT4 play critical roles in helper T cell differentiation,especially for Th1 cells. However,it is still unknown about the relative importance and redundancy of T-bet and STAT4 for Th1 differentiation. It is also unknown about their independent role of T-bet and STAT4 in the regulation of allergic airway inflammation. In this study,we addressed these issues by comparing T-bet-deficient (T-bet(-/-)) mice,STAT4(-/-) mice,and T-bet- and STAT4-double-deficient (T-bet(-/-)STAT4(-/-)) mice on the same genetic background. Th1 differentiation was severely decreased in T-bet(-/-) mice and STAT4(-/-) mice as compared with that in wild-type mice,but Th1 differentiation was still observed in T-bet(-/-) mice and STAT4(-/-) mice. However,Th1 cells were hardly detected in T-bet(-/-)STAT4(-/-) mice. In contrast,the maintenance of Th17 cells was enhanced in T-bet(-/-) mice but was reduced in STAT4(-/-) mice and T-bet(-/-)STAT4(-/-) mice. In vivo,Ag-induced eosinophil and neutrophil recruitment into the airways was enhanced in T-bet(-/-) mice but was attenuated in STAT4(-/-) mice and T-bet(-/-)STAT4(-/-) mice. Ag-induced IL-17 production in the airways was also diminished in STAT4(-/-) mice and T-bet(-/-)STAT4(-/-) mice. These results indicate that STAT4 not only plays an indispensable role in T-bet-independent Th1 differentiation but also is involved in the maintenance of Th17 cells and the enhancement of allergic airway inflammation. View Publication

We identify the tumor necrosis factor receptor superfamily 25 (TNFRSF25)/TNFSF15 pair as critical trigger for allergic lung inflammation,which is a cardinal feature of asthma. TNFRSF25 (TNFR25) signals are required to exert T helper cell 2 (Th2) effector function in Th2-polarized CD4 cells and co-stimulate interleukin (IL)-13 production by glycosphingolipid-activated NKT cells. In vivo,antibody blockade of TNFSF15 (TL1A),which is the ligand for TNFR25,inhibits lung inflammation and production of Th2 cytokines such as IL-13,even when administered days after airway antigen exposure. Similarly,blockade of TNFR25 by a dominant-negative (DN) transgene,DN TNFR25,confers resistance to lung inflammation in mice. Allergic lung inflammation-resistant,NKT-deficient mice become susceptible upon adoptive transfer of wild-type NKT cells,but not after transfer of DN TNFR25 transgenic NKT cells. The TNFR25/TL1A pair appears to provide an early signal for Th2 cytokine production in the lung,and therefore may be a drug target in attempts to attenuate lung inflammation in asthmatics. View Publication

DNA immunization with in vivo electroporation is an efficient alternative protocol for the production of monoclonal antibodies (mAb). Generation of mAb by DNA immunization is a novel approach to circumvent the following technical hurdles associated with problematic antigens: low abundance and protein instability and use of recombinant proteins that lack posttranslational modifications. This chapter describes the use of a DNA-based immunization protocol for the production of mAb against a house dust mite allergen,designated as Blo t 11,which is a paramyosin homologue found in Blomia tropicalis mites. The Blo t 11 cDNA fused at the N terminus to the sequence of a signal peptide was cloned into the pCI mammalian expression vector. The DNA construct was injected intramuscularly with in vivo electroporation into mice,and the specific antibody production in mice was analyzed by enzyme-linked immunosorbent assay (ELISA). Hybridomas were generated by fusing mouse splenocytes with myeloma cells using the ClonaCell-HY Hybridoma Cloning Kit. Six hybridoma clones secreting Blo t 11 mAb were successfully generated,and these mAb are useful reagents for immunoaffinity purification and immunoassays. View Publication