Prothymosin alpha enhances human and murine MHC class II surface antigen expression and messenger RNA accumulation.

Prothymosin alpha (ProT alpha) is an acidic polypeptide with potentiating effects on HLA-DR-restricted in vitro cellular immune response systems such as T cell proliferative responses to soluble proteins and cellular auto- or alloantigens. Experiments were performed to investigate the effect of ProT alpha on MHC class II Ag expression in human monocytes, murine splenocytes, and tumor cell lines at both protein and molecular levels. RIA and immunofluorescence analysis revealed that ProT alpha enhances HLA-DR surface Ag expression whereas Northern blot analysis demonstrated that ProT alpha causes significant accumulation of MHC class II mRNA. The enhancing effect of ProT alpha was demonstrated convincingly using precultured human peripheral monocytes, which are known to express decreased amounts of surface HLA-DR Ag, and HLA-DR-positive human cell lines. Moreover, ProT alpha was shown to induce HLA-DR Ag expression in a priori HLA-DR-negative tumor cells. Furthermore, ProT alpha was shown to be active in vivo. Splenocytes from mice pretreated with ProT alpha expressed more surface Ilpha Ag and contained more I alpha-specific mRNA. These findings suggest that ProT alpha may be important in the regulation of the immune response by enhancing MHC class II Ag expression in APC.     

RMP在肝癌细胞基因组稳定性和凋亡中的作用

目的:研究RPB5调节蛋白(RMP)在正常肝细胞及肝癌细胞基因组稳定性中的作用,并探讨其与细胞凋亡的相关性。方法:采用逆转录-聚合酶链反应(RT-PCR)从mRNA 水平检测正常细胞系及多种肿瘤细胞系中RMP的表达。不同剂量⁶⁰Coγ射线照射肝癌细胞SMMC-7721细胞和正常肝细胞HL-7702细胞,RT-PCR法检测RMP的表达,流式细胞技术检测照射肝癌细胞周期变化及细胞凋亡。应用RNA干扰技术研究RMP在肝癌细胞基因组稳定性中的作用。结果:正常细胞系及多种肿瘤细胞系中RMP基因均有不同程度的表达。经⁶⁰Coγ射线诱导的肝癌细胞及正常肝细胞RMP表达水平明显升高,且有一定剂量依赖性。随着照射剂量增加细胞凋亡明显增多,细胞周期G₁期增高,而S期明显降低。RMP被干扰后, 电子显微镜观察细胞形态发生明显改变,p21基因表达减弱。结论:RMP具有维持细胞基因组稳定性的潜在作用。RMP的表达与p53、p21等具有一定相关性,可能与后者协同调节细胞凋亡过程。     

Myelin-reactive type B T cells and T cells specific for low-affinity MHC-binding myelin peptides escape tolerance in HLA-DR transgenic mice

Genes of the MHC show the strongest genetic association with multiple sclerosis (MS), but the underlying mechanisms have remained unresolved. In this study, we asked whether the MS-associated MHC class II molecules, HLA-DRB1*1501, HLA-DRB5*0101, and HLA-DRB1*0401, contribute to autoimmune CNS demyelination by promoting pathogenic T cell responses to human myelin basic protein (hMBP), using three transgenic (Tg) mouse lines expressing these MHC molecules. Unexpectedly, profound T cell tolerance to the high-affinity MHC-binding hMBP82-100 epitope was observed in all Tg mouse lines. T cell tolerance to hMBP82-100 was abolished upon back-crossing the HLA-DR Tg mice to MBP-deficient mice. In contrast, T cell tolerance was incomplete for low-affinity MHC-binding hMBP epitopes. Furthermore, hMBP82-100-specific type B T cells escaped tolerance in HLA-DRB5*0101 Tg mice. Importantly, T cells specific for low-affinity MHC-binding hMBP epitopes and hMBP82-100-specific type B T cells were highly encephalitogenic. Collectively, the results show that MS-associated MHC class II molecules are highly efficient at inducing T cell tolerance to high-affinity MHC-binding epitope, whereas autoreactive T cells specific for the low-affinity MHC-binding epitopes and type B T cells can escape the induction of T cell tolerance and may promote MS.     

Helicobacter pylori urease binds to class II MHC on gastric epithelial cells and induces their apoptosis

Infection by Helicobacter pylori leads to injury of the gastric epithelium and a cellular infiltrate that includes CD4+ T cells. H. pylori binds to class II MHC molecules on gastric epithelial cells and induces their apoptosis. Because urease is an abundant protein expressed by H. pylori, we examined whether it had the ability to bind class II MHC and induce apoptosis in class II MHC-bearing cells. Flow cytometry revealed the binding of PE-conjugated urease to class II MHC+ gastric epithelial cell lines. The binding of urease to human gastric epithelial cells was reduced by anti-class II MHC Abs and by staphylococcal enterotoxin B. The binding of urease to class II MHC was confirmed when urease bound to HLA-DR1-transfected COS-1 (1D12) cells but not to untransfected COS-1 cells. Urease also bound to a panel of B cell lines expressing various class II MHC alleles. Recombinant urease induced apoptosis in gastric epithelial cells that express class II MHC molecules, but not in class II MHC- cells. Also, Fab from anti-class II MHC and not from isotype control Abs blocked the induction of apoptosis by urease in a concentration-dependent manner. The adhesin properties of urease might point to a novel and important role of H. pylori urease in the pathogenesis of H. pylori infection.     

Regulation of FAS ligand expression by chemokine ligand 2 in human endometrial cells

Human endometrium is a dynamic tissue under the influence of numerous hormones, growth factors, and cytokines interacting to maintain a balance of cellular growth, differentiation, and apoptosis. We have previously demonstrated that several factors including interleukin-8, extracellular matrix, and steroid hormones modulate FASLG, one of the apoptotic molecules, in human endometrium. Chemokine ligand 2 (CCL2), a monocyte chemoattractant and activating factor, is a cytokine involved in endometrial function. CCL2 is elevated in the peritoneal fluid of women with endometriosis. We hypothesize that increased levels of CCL2 in the endometriotic environment may upregulate FASLG expression in human endometrial stromal cells and induce a local immunotolerance in endometriosis. To test our hypothesis, we studied the in vitro regulation of FASLG expression and apoptosis by CCL2 in endometrial stromal cells. Western blot analysis revealed that CCL2 upregulated FASLG protein expression in cultured endometrial stromal cells. Based on semiquantitative RT-PCR analysis, CCL2 did not alter either FAS or FASLG mRNA expression in endometrial stromal cells. Immunocytochemistry results from the same cells treated with CCL2 demonstrated upregulation of FASLG protein expression. CCL2 did not change rate of apoptosis in endometrial stromal cells as evaluated by TUNEL assay. However, an increased apoptotic rate was detected in Jurkat (T lymphocytes) cells cocultured with endometrial stromal cells previously treated with CCL2. We speculate that increased FASLG expression by CCL2 may induce apoptosis of T lymphocytes and thus produce an immunotolerant environment for the development of ectopic implants.     

Ligation of HLA-DR molecules on B cells induces enhanced expression of IgM heavy chain genes in association with Syk activation

Signals transmitted by class II major histocompatibility complex are important regarding cell function related to antigen presentation. We examined effects of DR-mediated signaling on Ig production from B cells. Cross-linking HLA-DR molecules on B cells by solid-phase anti-HLA-DR monoclonal antibodies, led to an increased production of IgM, without proliferation or apoptosis. This event was accompanied by an enhanced expression of both membrane- and secretory-type IgM heavy chain mRNA. When peptide-pulsed B cells were co-incubated with an HLA-DR-restricted T cell clone treated by the protein synthesis inhibitor emetine, peptide-induced de novo expression of lymphokines and cell-surface molecules on T cells can be neglected. CD40-CD154 interaction was not involved in IgM enhancement, in such a system. The protein-tyrosine kinase inhibitors and the Syk inhibitor piceatannol, but not the Src inhibitor PP2 had a marked inhibitory effect on IgM secretion. Furthermore, ligation of HLA-DR on B cells using the F(ab')2 fragment of anti-DR monoclonal antibody, enhanced Syk activity. Our data suggest that HLA-DR on B cells not only present antigenic peptides to T cells, but also up-regulate IgM production, in association with Syk activation and without the involvement of Src kinases, hence the possible physiological relevance of Src-independent Syk activation.     

Quantitative relationship between MHC class II-superantigen complexes and the balance of T cell activation versus death

The binding of bacterial superantigens (SAgs) is profoundly affected by the nature of the MHC class II-associated antigenic peptide. It was proposed that this limitation in the density of SAgs displayed at the surface of APCs is important for efficient TCR serial triggering as well as for preventing apoptosis of the responding T lymphocytes. Here, we have addressed quantitatively the size of this SAg-receptive pool of HLA-DR molecules that are available to bind and present staphylococcal enterotoxin A (SEA) at the surface of B lymphocytes. Our binding curves, depletion experiments, and quantitative immunoprecipitations show that about half the HLA-DR class II molecules on B cells are refractory to SEA binding. Yet, as compared with typical nominal Ags, an unusually high amount of class II-SAg complexes can be presented to T cells. This characteristic appears to be necessary for SAg-induced T cell apoptosis. When <0.3% of the total cell surface MHC class II molecules are occupied by SEA, T cells undergo a normal sequence of early activation events. However, presentation of a ligand density beyond this threshold results in T cell activation that is readily aborted by apoptosis but only after a few cell divisions. Thus, we confirm the existence of MHC class II subsets that are structurally unable to present SEA and provide a quantitative framework to account for the ability of bacterial SAgs to induce peripheral activation vs tolerance in the host.     

UVC radiation-induced effect on human primary thyroid cell proliferation and HLA-DR expression

The aim of this study was to examine how UVC irradiation will affect normal human thyroid cell proliferation and HLA-DR expression. Primary human thyroid cells were exposed to UVC (254 nm wavelength) irradiation. In some experiments 0.5 mM buthionine sulfoximine (BSO) was added. Apoptosis was detected measuring annexin V, proteins involved in apoptotic process (p53, Bax, Bcl-2, caspase 3, and 9) by immunoblot analysis and HLA-DR expression by FACS. UVC induced a cell cycle arrest in G0/G1 phase in the first 24 h, accumulation of cells in the S phase 72 h after treatment, and an increase of apoptotic cells. BSO pretreatment showed an earlier appearance and a higher percentage of apoptosis. p53, caspase 3 and 9 were increased, while Bax and Bcl-2 were decreased. We also observed a transient significant increase in HLA-DR expression. UVC inhibited cell proliferation and induced apoptosis in normal human primary thyroid cells. An inhibitor of glutathione synthesis induced an earlier appearance and higher percentage of apoptosis suggesting that oxidative stress may play a role. Apoptotis involved components of the intrinsic mitochondrial pathway. A transient increase in HLA-DR expression after UVC irradiation could play a role in inducing AITD.     

Hypoxia-ischemia-induced apoptotic cell death correlates with IGF-I mRNA decrease in neonatal rat brain.

Hypoxia-ischemia induces apoptotic and necrotic cell death, which results partially from persistent alterations in cellular energy homeostasis. Insulin-like growth factor I (IGF-I) is an anabolic pleiotrophic factor required by developing neurons for their optimal proliferation, differentiation, and survival. To determine how cell death and changes in IGF-I gene expression relate to the extent of hypoxia-ischemia, we evaluated the time course of apoptosis in a neonatal hypoxia-ischemia model in relation to the cellular distribution of IGF-I and IGFBP5 mRNA. Severe hypoxia-ischemia results in an immediate decrease in neuronal IGF-I and IGFBP5 mRNA. The decrease in neuronal IGF-I mRNA was concurrent with an increase in the number of apoptotic cells. It is conceivable that the immediate decrease in IGF-I gene expression may contribute to the impending neuronal death and selective vulnerability of myelinogenesis during the perinatal period.     

Interferon-gamma regulates the T cell response to precursor nevi and biologically early melanoma

To examine the potential regulatory role of interferon-gamma in the cellular immune response to melanoma and its precursor lesions, we have tested the capacity of this lymphokine to enhance HLA class II antigen-dependent T lymphocyte blastogenesis, its in vitro production by autologous T cells stimulated by melanoma, and its presence in melanocytic lesions in situ. Cell lines derived from a dysplastic nevus, a radial growth phase primary tumor, a vertical growth phase primary, and metastatic lesions were induced by recombinant interferon-gamma to express increased amounts of HLA class II antigens. Such cells were then examined in radioimmunoassay for expression of HLA-DR antigens and in co-culture for their ability to stimulate proliferation of autologous T cells. Interferon-gamma treatment of melanocytic cells increased their expression of HLA-DR antigens threefold to sixfold. In parallel with these findings, co-culture of T cells with interferon-treated cells of a dysplastic nevus and a radial phase melanoma led to augmented T cell incorporation of tritiated thymidine, and this stimulation was inhibited with a monoclonal antibody to HLA-DR antigens. Despite augmented expression of HLA class II antigens (HLA-DR, -DQ, and -DP), vertical growth phase and metastatic melanoma cells failed to stimulate autologous T cells. When T cells were co-cultured with stimulating melanoma cells, culture supernatants contained significantly increased amounts of interferon-gamma (12 U/ml) in comparison with supernatants of T cells alone (4 U/ml). No interferon was detectable in cultures of melanoma cells alone. To link these in vitro phenomena to in situ events, we used murine monoclonal antibodies to interferon-gamma, the interleukin 2 receptor, and HLA-DR antigens in an immunoperoxidase system to detect interferon production and lymphocyte activation in frozen sections of lesions representative of melanocytic tumor progression. In these studies, precursor dysplastic nevi and radial phase melanomas contained the highest numbers of activated lymphocytes and stained positively for interferon-gamma. These results suggest that interferon-gamma plays a central role in the regulation of the cellular immune response to melanoma. It is produced by T cells, likely activated by tumor antigens seen in the context of HLA class II antigens. In turn, interferon-gamma production enhances expression of HLA class II antigens by melanoma and precursor cells, and such enhancement is associated with additional T cell activation in a positive feed-back loop.