Targeting of HLA-DR molecules transduces agonistic functional signals in cutaneous melanoma

The role of human leukocyte antigens (HLA) class II molecules in transducing intracellular signals in immune cells is well established. Solid tumors of different histotype can also express HLA class II antigens; however, their intracellular signaling ability is essentially unknown. Due to the frequent expression of HLA class II molecules in primary and metastatic lesions, cutaneous melanoma was utilized to investigate whether the engagement of HLA-DR molecules transduces functional intracellular signal(s). Triggering of HLA-DR molecules by the anti-HLA-DR monoclonal antibody (mAb) L243 induced a significant (P < 0.05) and dose-dependent growth-inhibition of metastatic melanoma cells Mel 120, as well as their homotypic aggregation. Furthermore, an increase in tyrosine phosphorylation of multiple cellular proteins with a molecular weight ranging from 66 to 130 kD, including p125 focal adhesion kinase, was observed. Lastly, the engagement of HLA-DR molecules by mAb L243 inhibited activator protein-1-DNA binding. Thus, HLA-DR molecules expressed on melanoma cells can transduce functional intracellular signals. This finding is consistent with evidences obtained in hematological malignancies, and suggests the potential usefulness of HLA-DR molecules to set-up new approaches of targeted therapy in metastatic melanoma.     

H2-restricted recognition of cloned HLA class I gene products expressed in mouse cells

Long-term syngeneic mouse cytolytic T lymphocyte (CTL) clones were obtained from DBA/2 (H2d) mice immunized with P815 (H2d) cells transfected with cloned human class I histocompatibility genes, HLA-CW3 or HLA-A24. Three distinct patterns of specificity were defined on P815 HLA transfectant target cells. One clone lysed HLA-CW3 but not -A24 transfectants, and a second lysed HLA-A24 but not -CW3 transfectant target cells. The third clone lysed P815 targets transfected with either HLA gene. None of the CTL clones lysed L cells (H2k) transfected with the same HLA genes or human targets that expressed these HLA specificities. Several lines of evidence indicated that recognition of HLA transfectants by these CTL clones was H2 restricted. First, lysis of P815 HLA transfectants could be inhibited by anti-H2Kd monoclonal antibody. In addition, the anti-P815-HLA CTL clones could lyse a (human X mouse) hybrid target that expressed both HLA class I and H2Kd antigens, but not a clonal derivative that no longer expressed H2Kd. The most direct evidence for H2-restricted recognition of P815-HLA transfectants by the syngeneic CTL clones was obtained by double transfection of mouse L cells (H2k) with both HLA and H2 class I genes. L cells transfected with HLA and H2Kd genes were susceptible to lysis by the same CTL clones that lysed the corresponding P815-HLA transfectant targets. Thus under certain conditions, CTL recognition of xenogeneic class I histocompatibility gene products can be restricted by other class I gene products.     

Analysis of the expression of cloned HLA class I genes in mouse transfected L cells by quantitative flow cytometry

By using a calibrated cell sorter and monoclonal antibodies conjugated to fluorochromes, a quantitative analysis of the levels of expression of HLA class I molecules at the surface of cloned murine L cells transfected with purified A3, B7, or CW3 genes was performed and compared with radioimmunoassay data. We selected clones of heterogeneous levels of HLA class I expression, which were shown to remain constant over a period of 4 mo in absence of HAT selection and not to be correlated to the DNA copy number of the corresponding integrated gene.     

Dual parameter, quantitative cytofluorometric analysis of endogenous H-2Kk and foreign HLA class I molecules expressed at the surface of murine transformed L cells

By using a calibrated dual laser cell sorter and monoclonal antibodies directly conjugated to fluorescein and rhodamine and specific for H-2Kk and HLA class I antigens, quantitative cytofluorometric analysis was performed on individual HLA-A3 or -CW3 transformed mouse L cells (H-2k). More than 80% of these cells expressed both HLA class I and H-2Kk molecules. Their respective levels of expression were calculated: a mean of 4 X 10(5) HLA class I and 2.3 X 10(5) H-2Kk molecules per single cell. Quantitative comparison with control untransformed L cells and double fluorescence contour maps showed a positive correlation between the levels of expression of HLA class I and H-2Kk molecules suggesting that expression of foreign class I molecules did not occur at the expense of the endogenous H-2k product.     

Distinct intracellular vesicle transport mechanisms are selectively modified by spastin and spastin mutations

Spastin is a microtubule severing ATPase that regulates intracellular and axonal transport of vesicles. Intracellular vesicle trafficking was analyzed in differentiated SH‐SY5Y‐neuroblastoma cells, transfected with spastin wild‐type and three spastin mutations (ΔN, K388R, S44L) to investigate spastin‐mediated effects on the velocity of vesicles, stained with LysoTracker Red®. The vesicle velocity varied considerably between mutations and detailed analysis revealed up to five distinct velocity classes. Microtubule severing by overexpressed wild‐type spastin caused reduced vesicle velocity. S44L and ΔN mutations, which were functionally impaired, showed similar velocities as control cells. K388R‐transfected cells exhibited an intermediate velocity profile. The results support the idea that spastin mutations not only alter axonal transport, but in addition regulate intracellular trafficking in the cell soma as well. J. Cell. Physiol. 226: 362–368, 2011. © 2010 Wiley‐Liss, Inc.     

SAMHD1 restricts HIV-1 reverse transcription in quiescent CD4+ T-cells

Background

HIV-1 infection is associated with profound dysfunction of myeloid dendritic cells, for reasons that remain ill-defined. Soluble HLA class I molecules can have important inhibitory effects on T cells and NK cells, but may also contribute to reduced functional properties of professional antigen-presenting cells. Here, we investigated the expression of soluble HLA class I isoforms during HIV-1 infection and assessed their functional impact on antigen-presenting characteristics of dendritic cells.

Results

Soluble HLA class I molecules were highly upregulated in progressive HIV-1 infection as determined by quantitative Western blots. This was associated with strong increases of intracellular expression of HLA class I isoforms in dendritic cells and monocytes. Using mixed lymphocyte reactions, we found that soluble HLA class I molecules effectively inhibited the antigen-presenting properties of dendritic cells, however, there was no significant influence of HLA class I molecules on the cytokine-secretion properties of these cells. The immunomodulatory effects of soluble HLA class I molecules were mediated by interactions with inhibitory myelomonocytic MHC class I receptors from the Leukocyte Immunoglobulin Like Receptor (LILR) family.

Conclusions

During progressive HIV-1 infection, soluble HLA class I molecules can contribute to systemic immune dysfunction by inhibiting the antigen-presenting properties of myeloid dendritic cells through interactions with inhibitory myelomonocytic HLA class I receptors.     

Genetically modified HLA class I molecules able to inhibit human NK cells without provoking alloreactive CD8+ CTLs

Human NK cells are likely to be important effectors of xenograft rejection. Expression of HLA class I molecules by transfected porcine cells can protect them from human NK cell-mediated lysis; however, this strategy has the potential to augment the anti-graft response by recipient CD8(+) T cells recognizing foreign pig peptides presented by HLA. In this study we show that the introduction of a mutation (D227K) in the alpha(3) domain of HLA-Cw3 abrogates its recognition by CD8-dependent T cells but leaves intact its ability to function as an inhibitory ligand for NK cells. Such genetically modified molecules may have potential therapeutic applications in the prevention of delayed xenograft rejection and in the facilitation of allogeneic and xenogeneic bone marrow engraftment.     

Factors affecting the presentation of exogenous hepatitis B virus core antigen

Hepatitis B virus core antigen (HBcAg) plays a critical role in terminating acute Hepatitis B virus infection and may be used as a potential vaccine candidate. The cell surface major histocompatibility complex (MHC) class 1 molecules are thought to be involved in the presentation of HBcAg. Surface MHC class 1 HLA A2 heavy chain (HC) and trimeric molecules were characterized on transfected Hela cells used as antigen presenting cells (APC) for the presentation of HBcAg. The results show that antibodies against HC HLA A2 and trimeric HLA-A2 molecules resulted in increased activation of HBcAg 18-27 minimal peptide specific cytotoxic T lymphocytes (CTLs), while the addition of exogenous beta2-microglobulin decreased the activation of HBcAg specific CTLs. Further, specific CD8+ T cells were activated only when Hela cells as APCs were primed with HBcAg (peptide, soluble or embedded on virosomes) at pH 6.5.     

Analysis of the HLA-Cw3-specific cytotoxic T lymphocyte response of HLA-B7 X human beta 2m double transgenic mice

The cytolytic responses of either normal (non transgenic), HLA-B7 (single transgenic) or HLA-B7 x human beta 2 microglobulin (double transgenic) DBA/2 mice induced by transfected HLA-Cw3 P815 (H-2d) mouse mastocytoma cells were compared, to evaluate whether the expression of an HLA class I molecule in responder mice would favor the emergence of HLA-specific, H-2-unrestricted CTL. Only 8 of 300 HLA-Cw3-specific CTL clones tested could selectively lyse HLA-Cw3-transfected cells in an H-2-unrestricted manner, all having been isolated after hyperimmunization of double transgenic mice. These clones also lysed HLA-Cw3+ human cells. Unexpectedly, the lysis of the human but not that of the murine HLA-Cw3 cells was inhibited by Ly-2,3-specific mAb. Despite significant expression of HLA-B7 class I molecules on transgenic lymphoid cells, including thymic cells, limiting dilution analysis and comparative study of TCR-alpha and -beta gene rearrangements of the eight isolated clones (which suggested that they all derived from the same CTL precursor) indicated that the frequency of HLA-Cw3-specific H-2 unrestricted cytotoxic T lymphocytes remained low (even in HLA-B7 x human beta 2-microglobulin double transgenic mice). This suggests that coexpression of HLA class I H and L chain in transgenic mice is not the only requirement for significant positive selection of HLA class I-restricted cytotoxic mouse T lymphocytes.     

Cytotoxic T lymphocyte recognition of secreted HLA class I molecules

The cytolytic responses of DBA/2 mice against syngeneic transfected P815 mastocytoma cells expressing either membrane-associated (HLA-Cw3) or -secreted hybrid (HLA-Cw3 x H-2 Q10b) molecules were compared. In spite of the absence of serologically detectable hybrid molecules on their plasma membrane, cells secreting these molecules elicited a CTL response similar to that of cells expressing the membrane associated HLA-Cw3 molecules, in terms of both MHC-restriction and peptide specificity. Together with the observation that syngeneic mice were capable of rejecting the injected secreting cells, these results imply that secreted HLA class I molecules can function as minor histocompatibility Ag and suggest that processing of both the membrane-bound and the -secreted forms of a protein may follow common or overlapping pathways.     

Species-restricted recognition of transfected HLA-A2 and HLA-B7 by human CTL clones

Human cytolytic T lymphocytes (CTL) clones and HLA-A2- and HLA-B7-transfected human, monkey, and mouse cell lines were used to investigate the basis for species-restricted antigen recognition. Most allospecific CTL clones obtained after stimulation with the human JY cell line (source of HLA-A2 and HLA-B7 genomic clones) recognized HLA antigens expressed in human and monkey cell lines but did not recognize HLA expressed in murine cells. By initially stimulating the responder cells with HLA-transfected mouse cells, two CTL clones were obtained that recognized HLA expressed in murine cells. Functional inhibition of these CTL clones with anti-class I monoclonal antibodies (MAb) indicated that clones reactive with HLA+ murine cells were of higher avidity than clones that did not recognize HLA+ murine target cells. MAb inhibition of accessory molecule interactions demonstrated that the LFA-1 and T8 surface molecules were involved in CTL-target cell interactions in all three species. In contrast, the LFA-2/CD2 molecule, previously shown to participate in a distinct activation pathway, was involved in the cytolysis of transfected human and monkey target cells, but not in the lysis of HLA+ murine cells. Thus transfection of HLA genes into different recipient species cell lines provides us with the ability to additionally delineate the functional requirements for allospecific CTL recognition and lysis.     

Human allospecific cytolytic T lymphocyte lysis of a murine cell transfected with HLA-A2

A variety of molecules are involved in the interaction of human allospecific cytolytic T lymphocytes (CTL) with target cells. Monoclonal antibodies specific for these molecules inhibit CTL-target conjugate formation and/or lysis. To further study recognition and lysis of targets by human CTL, we used a murine mastocytoma cell line transfected with the histocompatibility leukocyte antigen (HLA)-A2 gene (P815-A2+) as a target for human HLA-A2-specific CTL. We find that only a subset of human HLA-A2-specific CTL can lyse murine P815-A2+ cells, suggesting that the murine cells may lack one or more accessory molecules needed for CTL recognition and lysis.     

Peptide-induced modulation of target cell sensitivity to natural killing.

We have previously shown that the capacity of class I molecules to confer resistance to NK in transfected target cells maps to the Ag-binding site (ABS) of the HLA class I structure. Here we examine the effect of peptide (reagents specific for the ABS) pretreatment on the NK sensitivity of class I+ target cells. Synthetic peptides (10-17 amino acids in length) were used to pretreat C1R target cells expressing either no serologically detectable HLA-A, B class I molecules, or C1R transfectants expressing individual HLA-A or -B locus class I molecules. In each case in which the class I allele had previously been shown to directly bind a given peptide, peptide-pulsing of target cells resulted in increased sensitivity to NK-mediated conjugation and cytolysis. The NK susceptibility of C1R target cells expressing no HLA-A, B class I molecules or the nonprotective HLA-A2.1 or HLA-A2M70 mutant class I molecules was unaffected by pretreatment with HLA-A2-binding peptides. These results support the intimate involvement of the HLA class I ABS and potentially ABS-bound peptides in determining target cell sensitivity to NK. Furthermore, these findings form the basis of an effective screening procedure for discerning peptide class I allele-specific interactions.     

人白细胞抗原G3在稳定转染细胞细胞膜上的表达

人白细胞抗原G(HLA G)是一种在母婴耐受中起主要作用的非经典的HLA Ⅰ类分子 .其中HLA G3结构简单 ,仅具有α1结构域、穿膜区及胞浆区 ,其是否在细胞表面表达尚存在争议 .为了建立HLA G3稳定转染细胞株并确定其在细胞内的定位 ,采用RT PCR法从 9周人胎盘组织中获得了HLA G3的cDNA ,并构建到真核表达载体pcDNA3中 ,将所获得的真核表达质粒pcDNA G3转染至HLA Ⅰ (- )细胞株K5 6 2 ,经G4 18筛选后获得稳定转染的细胞株K5 6 2 G3.利用RT PCR、Western印迹检测方法证明在K5 6 2 G3细胞株中 ,HLA G3在mRNA水平和蛋白水平上均有表达 .进一步利用免疫荧光标记技术 ,证明HLA G3能够在转染细胞细胞膜上表达 .结果表明 ,稳定转染细胞株中HLA G3蛋白能够定位表达在细胞膜     

Relative ability of distinct isotypes of human major histocompatibility complex class II molecules in binding staphylococcal enterotoxin A.

Relative ability of distinct isotypes of human major histocompatibility complex class II molecules to bind staphylococcal enterotoxin A (SEA) was investigated. SEA-binding was observed in L cells transfected with DR2 and DQw1 genes. By contrast, it was not detected in L cells transfected with DPw4 and DP (Cp63) genes. All the transfectants supported SEA-induced IL-2 production by human T cells. Levels of the accessory activity were low in the DPw4 and DP (Cp63) transfectants compared with the DR2 and DQw1 transfectants. In view of the observation that all the transfectants express well the transfected gene products on their surface, the results indicate that DR and DQ molecules bind SEA with high affinity, while DP molecules bind it with fairly low affinity.     

Expression of human histocompatibility antigens on the surface of murine cells transformed by cosmid clones containing HLA genes

Thymidine kinase-negative C3H mouse L fibroblasts (LMTK⁻) transformed with cosmid clones containing both herpes virus-derived thymidine kinase (TK) and HLA class I genes were first selected in HAT (hypoxanthine, aminopterin, thymidine) medium and subsequently analyzed for the expression of human transplantation antigens. TK⁺-transformed cells expressing HLA class I molecules were characterized by surface radioimmunoassay, cytofluorimetric analysis and immunoperoxidase PAP technique at the light and electron microscopic levels, using a set of monoclonal antibodies. Comparisons were made with human B (Raji) and T (1 301) lymphoblastoid cell lines which respectively express high and low levels of HLA molecules on their surface. The expression of HLA class I in association with murine β2-microglobulin on the surface of transformed cells did not reduce the level of expression of H-2 molecules.     

HLA-B27 expression modulates gram-negative bacterial invasion into transfected L cells.

The mechanism by which HLA-B27 confers genetic susceptibility to the seronegative spondyloarthropathies ankylosing spondylitis, Reiter's syndrome, and reactive arthritis, is not well understood. The current concept of an extraarticular bacterial infection functioning as the triggering event in a genetically susceptible host suggests the possibility of direct microbial-MHC interaction. We have addressed the role of HLA-B27 in microbial-host cell interaction by examining invasion by putatively arthritogenic gram-negative bacteria. Target cells used were murine L cells transfected with HLA-B27, HLA-A3, HLA-A2, HLA B44, HLA B18, or pSV2neo vector alone. Relative to the pSV2neo control and the HLA-A3 transfectant, HLA-B27-transfected cells demonstrated a consistent decrease in invasion for each of the following pathogens: Salmonella typhimurium (45 +/- 2% decrease), Shigella sonnei (53 +/- 13% decrease), Shigella flexneri (45 +/- 5% decrease), and enteroinvasive Escherichia coli (57 +/- 8% decrease). This decrease was specific for the HLA B27-transfected L cells and was not observed in the other B allele transfectants. The decreased invasion in the HLA-B27 transfectants is not the result of either altered endogenous mouse class I expression as a result of human class I transfection or increased intracellular bacterial killing within the B27 transfectants. There was an inverse relationship between the amount of surface expression of HLA-B27, as measured by FACS, and the degree of invasion. Blocking of surface B27 Ag with anti-B27 mAb augmented bacterial invasion in the B27 transfectants. These studies demonstrate a novel bacterial-B27 interaction that may have relevance to the pathogenesis of B27-related arthritis.     

Specific antihepatocellular carcinoma T cells generated by dendritic cells pulsed with hepatocellular carcinoma cell line HepG2 total RNA

Dendritic cell (DC) vaccination with the use of total tumor RNA provides the potential to generate a polyclonal immune response to multiple known and unknown tumor antigens without HLA restriction. Our study evaluated this approach as potential immunotherapy for patients with hepatocellular carcinoma (HCC). Immature DCs generated from peripheral blood mononuclear cells of patients with HCC were transfected with HepG2-GFP (HepG2 cells transfected stably with plasmid pEGFP-C3) cells total RNA. Transfected, matured DCs were used to stimulate autologous T cells. Results revealed that DCs transfected with HepG2-GFP cells total RNA expressed EGFP when observed by flow cytometry. Compared with those before transfection, the expressions of membrane molecules were increased dramatically, and interleukin-12p70 release in the supernatant was elevated significantly. Specific T cells generated by DCs transfected with HepG2-GFP total RNA recognized HLA-matched HepG2 cell lines specifically. These findings indicate that these RNA-transfected DCs successfully generate specific T cells that specifically recognize HCC cells. Total tumor RNA-pulsed DCs may have potential as an adjuvant immunotherapy for patients with HCC.     

CD4 and CD7 molecules as targets for drug delivery from antibody bearing liposomes.

We have examined two T lymphocyte cell surface molecules, CD4 and CD7, as targets for specific delivery of drugs from antibody-directed liposomes. The efficiency of uptake by peripheral lymphocytes, thymocytes, and two CEM sublines (CEM.MRS and CEM-T4) of anti-CD4 and anti-CD7 liposomes containing methotrexate was evaluated by the methotrexate-mediated inhibition of the incorporation of d-[3H]Urd into DNA. This was compared with similar liposomes targeted to MHC-encoded HLA class I molecules, which are known to be efficiently taken up by T cells. Despite the lower expression of CD7 molecules relative to HLA class I on most cell lines, CD7 was shown to be a good target for drug delivery. The results of an internalization study using radiolabeled Protein A showed that a higher proportion of CD7 molecules was internalized than HLA class I molecules. CD4-targeted liposomes, in contrast, were relatively ineffective for drug delivery for lymphoid cells, and only partially inhibited CEM-T4 cells. The lack of toxicity correlated with poor internalization of the target molecule on most cell lines. The drug effect of anti-CD4 liposomes was more pronounced on HeLa-T4, which is an epithelial cell line transfected with the CD4 gene. In contrast to lymphoid cells, these cells efficiently internalized CD4 molecules. PMA is known to down-regulate surface expression of CD4 molecules on various T cells. Internalization of CD4 was induced by PMA, but PMA failed to induce cytotoxicity of CD4-targeted liposomes for CEM.MRS. The internalized drug was probably degraded rapidly because internalized anti-CD4 antibody-bound Protein A was degraded very rapidly.