抗Caspase-3核酶M1RNA的制备与体内外活性鉴定

为评价抗caspase 3核酶在阻抑细胞凋亡发生中的潜在价值 ,以RNaseP催化亚基M1RNA为模板 ,设计合成 3个特异性针对人caspase 3的核酶pM1 GS716、pM1 GS337和pM1 GS2 35 ,并对它们的体内外切割活性进行探讨 .3 2 P标记的caspase 3基因片段体外转录物作为靶RNA ,体外切割实验表明 ,pM1 GS716和pM1 GS337均有切割活性 ,其中pM1 GS716的切割效率可达到 93% .3个核酶转染HeLa细胞 ,评价其在体内的切割活性 .在TNF α作用下 ,转染pM1 GS716的HeLa细胞内caspase 3mRNA下降了 75 % ,蛋白含量下降了 6 9% ,caspase 3蛋白酶活性下降了 5 2 % .Hoechst 332 5 8染色表明 ,细胞凋亡率较对照明显下降 (分别为 2 1 6± 0 7%和 4 9 4± 0 2 % ,P <0 0 1) .提示体外制备的pM1 GS716具有良好的特异催化切割活性 ,有望通过切割caspase 3而抑制细胞凋亡 .     

BCR3/ABL2核酶的设计、构建及对K562细胞增殖与集落形成的抑制作用和凋亡诱导作用

利用计算机模拟设计合成了针对 K5 62细胞致癌融合 bcr3/abl2 m RNA的锤头状核酶 .该核酶以融合点附近 UUC为识别切割三联体 ,在核酶的 3′端增加一段 T7噬菌体终止子序列 .用基因克隆结合体外转录的方法 ,肯定了核酶的体外切割活性 .进而将核酶基因克隆到 p CEP4真核细胞高效表达载体上 ,利用脂质体 Lipofectin AMINE介导的转染技术将核酶与核酶基因导入靶细胞 ,从抑制靶细胞 K5 62的增殖与集落形成及引起靶细胞凋亡等方面验证了核酶在细胞水平上对融合基因 bcr3/abl2 m RNA的特异切割作用 ,并观察到了 T7噬菌体终止子序列对核酶切割效率的增强影响 .     

人端粒酶逆转录酶核酶抑制端粒酶活性

为有效切割端粒酶逆转录酶mRNA以降低端粒酶活性 ,从而使肿瘤细胞生长变慢 ,凋亡增加。设计并合成了针对端粒酶逆转录酶mRNA的锤头状核酶基因 ,构建了该核酶基因的体外转录和真核表达质粒。检测了该核酶对端粒酶逆转录酶mRNA的体外切割效力。并将该核酶基因转染至肿瘤细胞中 ,检测其对肿瘤细胞端粒酶活性和生物学性状的影响。结果表明 ,该核酶在体外和细胞内均能有效切割端粒酶逆转录酶mRNA ;在细胞内能明显抑制端粒酶活性 ,使细胞生长变慢 ,倍增时间延长。因而 ,该核酶可望成为有效的端粒酶抑制剂 ,在抑制肿瘤生长中发挥作用     

丙型肝炎病毒RNA特异性核酶的切割活性研究

针对丙型肝炎病毒RNA(HCV-RNA)的5′非编码区和部分C区的二级结构,设计并合成了四个不同的锤头型核酶(ribozyme A, ribozyme B, ribozyme C₁, ribozyme C₂).首先应用体外切割实验筛选出作用于HCV-RNA起始密码子上游GTA↓位点的核酶RzA有较好的活性.为初步验证核酶RzA在细胞内的切割活性,经脂质体介导,将RzA-RNA与另一携带该核酶靶基因的质粒表达载体pCl-neo-luciferase(载体中荧光素酶基因受核酶靶基因的调控)共转染HepG₂细胞.通过测定荧光素酶基因的表达证实了核酶在细胞内有较好的切割活性.在此实验基础上,把RzA基因克隆至pCl-neo质粒表达载体中,再次经脂质体介导,将重组的表达载体pCl-neo-RzA与携带该核酶靶基因的质粒表达载体pCl-neo-luciferase共转染HepG₂细胞,获得了更好的切割效果.     

U6嵌合型抗caspase-3核酶的体外及体内活性鉴定

为探讨caspase-3基因在细胞凋亡中的作用,及不同表达核酶的载体在体内的表达效果,本研究对比了3种表达核酶的真核质粒,包括RNA聚合酶Ⅱ启动的p1.5RZ107(自我剪切)和pRZ107及RNA聚合酶Ⅲ启动的嵌合于U6中的pU6RZ107在体外和在肝细胞BRL-3A内的活性,以期获得细胞内切割活性较高的的核酶载体方面的信息.结果显示,具有自我剪切功能的质粒p1.5RZ107在体外切割靶RNA的效率最高,几达80%;而体内caspase-3在RNA,蛋白水平及蛋白功能活性上均显著下降,证明核酶在体内均可有效地表达并切割底物,以pU6RZ107切割效率最高,约达65%,pRZ107次之,p1.5RZ107最低.结果表明,U6嵌合型核酶pU6RZ107体内可有效地表达核酶及下调靶RNA水平,这不仅为探讨caspase-3在凋亡途径中的作用,也可为今后的基因治疗提供研究基础.     

脱氧核酶抑制近日基因period 1表达的实验研究

研究脱氧核酶对近日钟基因period1(per1)表达的影响, 进而寻找治疗和近日节律有关疾病的基因疗法. 设计合成针对per 1的脱氧核酶DRz164, DRz256, 并构建pcDNA3-per1_164:256体外转录载体, 将转录产物和脱氧核酶混合, 在一定反应条件下进行体外切割反应, 地高辛酶联免疫及酶催化显色法检测脱氧核酶的体外切割效率. 将pcDNA3-per1和DRz164或DRz256在脂质体的介导下转染NIH3T3细胞, 通过逆转录-聚合酶链反应(RT-PCR)、流式细胞术(FCM)检测脱氧核酶对近日基因表达的影响. 于37℃孵育2 h后, DRz164对底物的剪切百分率为63%, DRz256为50.5%. RT-PCR半定量检测per1 mRNA表达水平明显下降, FCM结果显示细胞内Per1蛋白的合成受到抑制. 脱氧核酶DRz164, DRz256体外具有定点切割近日钟基因per1mRNA组分的活性, 使转染细胞per1 mRNA 和Per1蛋白表达下降.     

GPI-PLD调节CEA的释放对白血病HL-60细胞的增殖和凋亡的影响

糖基化磷脂酰肌醇特异性磷脂酶D(glycosyl phosphatidyl inositol specific phospholipase D,GPI-PLD)是人体内唯一可水解细胞膜表面GPI结构、调节GPI锚定蛋白释放的酶.将GPI-PLD转染入急性粒细胞白血病(AGL)的HL-60细胞株,采用实时荧光定量PCR法和Western blot法确定转染后HL-60细胞内GPI-PLD的表达水平;并检测GPI-PLD活性;噻唑蓝(MTT)检测HL-60细胞的增殖;流式细胞仪检测HL-60细胞的凋亡.ELISA检测GPI锚定癌胚抗原(CEA)的表达和释放情况.转染GPI-PLD后,HL-60细胞株中GPI-PLD表达量与活性增加;MTT检测显示,GPI-PLD过表达后HL-60细胞株增殖生长受到抑制;流式检测证实HL-60细胞凋亡增加;且GPI锚定的蛋白质CEA释放增加.该结果提示GPI-PLD基因有抗肿瘤的作用,过表达GPI-PLD后能抑制HL-60细胞增殖且促进其凋亡,所涉机制可能与GPI-PLD释放GPI锚定蛋白,增强白血病细胞对补体杀伤的敏感性有关.     

汉滩病毒诱导小鼠骨髓瘤SP2/0细胞凋亡的初步研究

为研究汉滩病毒对肿瘤细胞的诱导凋亡作用,以一定量病毒悬液感染体外培养的SP2/0细胞,接种后定时间将细胞消化甩片行Gimsa染色观察凋亡细胞核的变化,制细胞悬液以流式细胞仪测细胞周期,并用免疫组化的方法检测凋亡分子Fas和FasL的表达.结果示经病毒诱导后细胞出现生长特性及形态学变化,Giemsa染色观察到典型凋亡细胞;流式细胞仪显示有凋亡峰出现;免疫组化检测出感染后SP2/0细胞中Fas和FasL表达明显升高.该结果表明汉滩病毒可诱导体外培养SP2/0细胞凋亡,其发生可能与凋亡分子Fas和FasL有关.     

UBE2T基因对结直肠细胞增殖和凋亡的影响

目的:探讨人类泛素结合酶E2T(Ubiquitin-conjugating enzyme E2T,UBE2T)基因对结肠细胞增殖和凋亡的影响。方法:体外培养人正常结直肠粘膜细胞FHC,采用将UBE2T基因慢病毒质粒转染至FHC细胞48 h后,通过MTT法检测细胞增殖情况,western blotting检测细胞中增殖相关蛋白UBE2T蛋白、Ki67、促凋亡蛋白Bax和抗凋亡蛋白Bcl-2的表达,流式细胞术检测细胞凋亡率。结果:与转染空质粒的FHC细胞相比,UBE2T基因慢病毒质粒转染FHC细胞48 h后,细胞增殖能力显著上调(P0.05),UBE2T蛋白明显增加,Ki67的表达明显增加(P0.05),细胞凋亡率显著降低(P0.05),且Bax的表达明显下调而Bcl-2的表达上调(P0.05)。结论:UBE2T基因能够促进正常结肠粘膜细胞的增殖,并抑制其凋亡。     

抗人组织金属蛋白酶抑制剂—1核酶的体外制备和活性鉴定

研究了特异切割人瘢痕组织中组织金属蛋白酶抑制剂 1(tissueinhibitorofmetalloproteinases 1,TIMP 1)的锤头状核酶 ,测定了其体外切割活性。制备特异切割TIMP 1的U6snRNA嵌合型核酶基因克隆。TIMP 1mRNA基因片段克隆至T载体。用体外转录法大量制备以 [α 3 2 P]UTP标记的核酶及靶RNA ,进行体外切割实验。结果表明 :核酶∶底物 =1∶1时 ,活性的U6snRNA嵌合型核酶 (U6Rz35 8)在 5 0℃具有最佳切割活性 ,切割效率为 76 .34% ;37℃时 ,切割效率为 5 5 .2 1%。5 0℃时 ,Km=39.6nmol/L ,kcat=0 .2 1min-1;而点突变型核酶U6Rz35 8m 没有切割活性。制备的U6 Rz35 8有良好的特异切割活性 ,有望在瘢痕成纤维细胞内抑制人TIMP 1的表达。     

Inhibition of Fas-mediated apoptosis in Yac-1 cell via Anti-Fas ribozyme

As an RNA molecule with catalytic activity, ribozymecan inhibit gene expression via binding and cleaving targetRNA in a sequence specific way [1–3]. Now hammerheadribozyme is widely used in gene therapy because of itsmany superiorities [4–6], which incl…     

Inhibiting apoptosis of CTLL-2 cells to enhance their GVL effects via anti-Fas ribozyme

Donor lymphocyte infusion (DLI) is an adoptiveimmunotherapy to achieve particular therapy aims forpatients accepting allogenetic hemopoietic stem celltransplantation [1–3]. Recently, many researches havetestified that the graft-versus-leukemia effect (GV…     

Differential expression of apoptosis-related Fas antigen on lymphocyte subpopulations in human peripheral blood.

The Fas Ag is a newly defined cell-surface molecule that may mediate apoptosis. The antibody against Fas Ag can induce the apoptotic cell death in cell lines expressing this Ag. PBL subpopulations at various ages were here examined for Fas expression by two-or three-color flow-cytometric analyses using anti-Fas mAb. It was found that Fas Ag was appreciably detected on a proportion of T and B cells, whereas its expression was absent for NK cells. For CD4+ and CD8+ T cells, Fas Ag was expressed preferentially on CD45RO+ (memory or previously activated) populations, but not on CD45RO- naive ones. TCR-gamma/delta+ T cells, especially their CD45RO+ subsets, also expressed Fas Ag. Expectably, neonatal T cell subpopulations, most of which had the naive (CD45RO-) phenotype, expressed little Fas Ag. Fas-expressing B cells dominated in surface(s) IgD- populations, but neonatal B cells as well as adult sIgD+ B cells had little Fas Ag. The Fas Ag was inducible after in vitro mitogenic stimulation of naive T and B cells from neonatal blood. These observations suggested that expression of Fas Ag on T and B cells in the peripheral blood might reflect their in vivo Ag-activated status. In contrast to Fas-expressing cultured cell lines, however, viability of in vitro stimulated T and B cells as well as freshly isolated CD45RO+ T cells was not significantly changed after the treatment with anti-Fas mAb, indicating that additional cellular conditions to Fas expression might be required for anti-Fas-induced cell death.     

Apoptosis in the immune system: 1. Fas-induced apoptosis in monocytes-derived human dendritic cells

Dendritic cells (DC) are cells of the hematopoietic system specialized in capturing antigens and initiating T cell-mediated immune responses. We show here that human DC generated from adherent peripheral blood mononuclear cells (PBMC) after in vitro stimulation with granulocyte macrophage colony stimulating factor (GM-CSF) and interleukin-4 (IL-4) express Fas antigen (APO-1, CD95) and can undergo apoptosis upon triggering of Fas by monoclonal antibodies. Immature monocytes-derived dendritic cells (MDDC) upregulate CD86 and HLA-DR expression and develop dendrites and veiled processes. Flow cytometry analysis revealed CD95 expression in approx. 40% of these MDDC and incubation with anti-CD95 mAb (0.5μg/ml) induced apoptosis when compared to untreated controls. The extent of apoptosis induced by the agonist anti-Fas antibody strongly related to the percentage of cells expressing CD 95. Upon tumor necrosis factor α (TNF-α) additional stimulation, MDDC assumed a characteristic mature dendritic cells morphology showing prolonged veils, CD83 expression, and high levels of HLA-DR. These cells have downregulated their Fas receptors (to approx. 20%) and undergo apoptosis to a lesser extent when treated with anti-CD 95, as demonstrated by the hardly noticeable effect of this antibody on the viability of cultured cells as compared to controls. Thus, upon TNF-α induced maturation, MDDC became resistant to Fas-induced apoptosis. The apoptotic episodes surrounding the earlier stage of DC differentiation appeared to be mediated by Fas. In contrast, a Fas independent pathway is probably responsible for the apoptotic events associated with terminally differentiated DC.     

IL-10 protects mouse intestinal epithelial cells from Fas-induced apoptosis via modulating Fas expression and altering caspase-8 and FLIP expression

We have previously shown that the absence of Fas/Fas ligand significantly reduced tissue damage and intestinal epithelial cell (IEC) apoptosis in an in vivo model of T cell-mediated enteropathy. This enteropathy was more severe in IL-10-deficient mice, and this was associated with increased serum levels of IFN-gamma and TNF-alpha and an increase in Fas expression on IECs. In this study, we investigated the potential of IL-10 to directly influence Fas expression and Fas-induced IEC apoptosis. Mouse intestinal epithelial cell lines MODE-K and IEC4.1 were cultured with IFN-gamma, TNF-alpha, or anti-Fas monoclonal antibody (mAb) in the presence or absence of IL-10. Fas expression and apoptosis were determined by FACScan analysis of phycoerythrin-anti-Fas mAb staining and annexin V staining, respectively. Treatment with a combination of IFN-gamma and TNF-alpha induced significant apoptosis. Anti-Fas mAb alone did not induce much apoptosis unless cells were pretreated with IFN-gamma and TNF-alpha. These IECs constitutively expressed low levels of Fas, which significantly increased by preincubation of the cells with IFN-gamma and TNF-alpha. Treatment with cytokine or cytokine plus anti-Fas mAb increased apoptosis, which correlated with a decreased Fas-associated death domain IL-1-converting enzyme-like inhibitory protein (FLIP) level, increased caspase-8 activity, and subsequently increased caspase-3 activity. IL-10 diminished both cytokine- and anti-Fas mAb-induced apoptosis, and this was correlated with decreased cytokine-induced Fas expression, increased FLIP, and decreased caspase-8 and caspase-3 activity. In conclusion, IL-10 modulated cytokine induction of Fas expression on IEC cell lines and regulated IEC susceptibility to TNF-alpha, IFN-gamma, and Fas-mediated apoptosis. These findings suggest that IL-10 directly modulates IEC responses to T cell-mediated apoptotic signals.     

Apoptosis by a cytosolic extract from Fas-activated cells.

Fas is a type I membrane protein and its activation by binding of the Fas ligand or an agonistic anti-Fas antibody induces apoptosis in Fas-bearing cells. In this report we prepared lysates from cells treated with anti-Fas antibody. The lysates induced apoptotic morphological changes in nuclei from normal mouse liver, accompanied by DNA degradation. The apoptosis-inducing activity was quickly generated in cells by anti-Fas antibody and was found in the soluble cytosolic fraction. Induction of the activity in cells was inhibited by a tetrapeptide, acetyl-Tyr-Val-Ala-Asp-chloromethylketone, a specific inhibitor of interleukin-1 beta converting enzyme. Addition of COS cell lysates containing Bcl-2 to the assay significantly inhibited the apoptotic process, indicating that the in vitro process reflected apoptosis that occurs in intact cells.     

Resistance of SKW6 cell to apoptosis induction with anti-Fas antibody upon transduction of a reverse fragment to a cDNA encoding human 6A8 α-mannosidase

The effect of transduction with a reverse fragment to a cDNA encoding human 6A8 α-mannosidase on apoptosis induction of human B cell line SKW6 by anti-Fas antibody was tested. Apoptosis-inducer of anti-Fas monoclonal antibody was used to induce apoptosis in SKW6 cells. Giemsa’s staining, Annexin-V-FLUOS staining and DNA ladder test were used to determine the events of apoptosis. Indirect immunofluorescent staining with anti-Fas antibody was performed to detect the surface Fas expression. In a time-course test of 12, 24 and 36 h for apoptosis induction by anti-Fas antibody, DNA ladder was observed in the wild-type SKW6 cells in a time-dependent fashion. Mock transduction had no effect on DNA ladder production. However, no DNA ladder was detected in the rAAV-antisense 6A8 cDNA-transduced SKW6. Results from Annexin-V-FLUOS staining on anti-Fas antibody-treated cells revealed that the staining-positive rate in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells was decreased in comparison to that in the wild-type and the mock-transduced cells. Giemsa’s staining observation showed that the number of dying (with apoptotic bodies) and dead cells was reduced in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells in comparison with that in the wild-type and the mock-transduced cells upon anti-Fas antibody induction. The transduction did not affect the expression of Fas molecular on cell surface. 100% cells in all the groups showed Fas expression. The SKW6 cells became resistant to apoptosis induction by anti-Fas antibody upon transduction with a reverse fragment to a cDNA encoding human 6A8 α-mannosidase. The transduction did not affect the expression of Fas molecule on cells.     

Resistance of SKW6 cell to apoptosis induction with anti-Fas antibody upon transduction of a reverse fragment to a cDNA encoding human 6A8 α-mannosidase

The effect of transduction with a reverse fragment to a cDNA encoding human 6A8 ?-mannosidase on apoptosis induction of human B cell line SKW6 by anti-Fas antibody was tested. Apoptosis-inducer of anti-Fas monoclonal antibody was used to induce apoptosis in SKW6 cells. Giemsa’s staining, Annexin-V-FLUOS staining and DNA ladder test were used to determine the events of apoptosis. Indirect immunofluorescent staining with anti-Fas antibody was performed to detect the surface Fas expression. In a time-course test of 12, 24 and 36 h for apoptosis induction by anti-Fas antibody, DNA ladder was observed in the wild-type SKW6 cells in a time-dependent fashion. Mock transduction had no effect on DNA ladder production. However, no DNA ladder was detected in the rAAV-antisense 6A8 cDNA-transduced SKW6. Results from Annexin-V-FLUOS staining on anti-Fas antibody-treated cells revealed that the staining-positive rate in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells was decreased in comparison to that in the wild-type and the mock-transduced cells. Giemsa’s staining observation showed that the number of dying (with apoptotic bodies) and dead cells was reduced in the rAAV-antisense 6A8 cDNA-transduced SKW6 cells in comparison with that in the wild-type and the mock-transduced cells upon anti-Fas antibody induction. The transduction did not affect the expression of Fas molecular on cell surface. 100% cells in all the groups showed Fas expression. The SKW6 cells became resistant to apoptosis induction by anti-Fas antibody upon transduction with a reverse fragment to a cDNA encoding human 6A8 a-mannosidase. The transduction did not affect the expression of Fas molecule on cells.