一种紫菜多糖的制备及对淋巴细胞生长的影响

用DEAE－纤维素和SephadexG-200柱层析法分离纯化条斑紫菜的热水提取物,从中得到多糖PY2,并测出其分子量为2．0％10^4。用紫外和红外光谱对PY2的性质进行了鉴定。进一步测定了PY2对体外培养的小鼠骨髓细胞及淋巴细胞生长的影响。结果表明,PY2是一种少见的紫菜多糖,它不含有大多数紫菜侈糖具有的3,6－内醚－兰乳糖和硫酸基,它对小鼠脾脏淋巴细胞、胸腺淋巴细胞以及混合淋巴细胞的增殖有一定的抑制作用,而对骨髓细胞的增殖没有明显的影响。     

siRNA分析nm23-H1基因与人慢性髓性白血病的关系

设计并筛选靶向nm23-H1基因的siRNAs序列,探讨nm23-H1基因与人慢性髓性白血病之间的关系。依据siRNA设计原则,设计3条siRNA序列。将不同靶点的siRNA用lipofectamine2000转染人慢性髓性白血病细胞株K562。转染后24h RTPCR检测nm23-H1mRNA水平变化;转染后48h免疫细胞化学法检测nm23-H1蛋白表达。MTT法检测转染后24h、48h和72h有效siRNA对K562细胞生长的影响。3条siRNA中,siNM526能有效地抑制K562细胞nm23-H1基因表达,转染siNM526的K56细胞生长受到抑制。说明下调nm23-H1基因的表达有抑制K562细胞增殖的作用,即降低了K562细胞的恶性程度。nm23-H基因有可能成为白血病治疗潜在的分子靶点。     

氧化苦参碱对骨髓来源细胞生长的双向调节作用

目的:观察氧化苦参碱(oxymatrine,OMT)对骨髓来源细胞增殖的影响.方法:应用MTr比色法、流式细胞仪检测法、集落形成法和免疫细胞活性测定等方法,检测OMT对白血病细胞K562的抑制作用;骨髓造血干细胞的集落形成实验和脾细胞对肿瘤细胞的杀伤的生物活性试验,检测OMT对小鼠免疫和造血的影响.结果:(1)不同浓度的OMT可明显抑制白血病细胞K562细胞的增殖、集落形成,导致细胞凋亡(P＜0.05),且作用呈浓度依赖性.(2)OMT可以促进小鼠骨髓粒系造血,且在0.2475 mg/mL时达到峰值.(3)OMT可抑制小鼠的免疫功能.结论:OMT可抑制白血病K562细胞的增殖并诱导其凋亡,同时抑制小鼠的免疫功能,促进小鼠骨髓CFU-GM的形成,表现出对骨髓来源细胞生长的双向调节作用.     

电击穿对K562,NS—1和小鼠脾脏细胞存活率的影响

用一系列电融合参数(脉幅2—6kV/cm,脉宽10—90μs)处理K562,NS-1及小鼠脾脏细胞。结果说明,在以上电脉冲范围内,K562细胞的存活率不发生显著变化,其存活率均在80％左右波动。线性回归分析表明,其存活率与脉幅或脉宽变化均无显著相关性。NS-1细胞经脉幅为4kV/cm,脉宽为70μs的电脉冲处理,细胞存活率显著下降,仅为对照细胞的31％,并且细胞存活率与脉幅呈显著性负相关。小鼠脾细胞则在脉宽为50μs,脉幅为2kV/cm的电脉冲处理后,LPS诱导的B淋巴细胞~3H-Tdr掺入明显受到抑制,并且~3H-Tdr掺入与脉幅呈显著性负相关。3种细胞对电击穿的耐受性依次是K562细胞>NS-1细胞>小鼠脾脏B淋巴细胞。根据Zimmer-mann的理论推导,细胞膜电击穿主要与细胞直径有关,细胞直径越大,细胞膜击穿电压所需外加电场越小,反之亦然。然而本实验结果并不符合此规律。本文探讨了影响细胞膜电击穿的其他因素。     

滑子菇多糖的体外生物活性初步研究

为了研究滑子菇水提粗多糖(PNP)的体外生物活性,对滑子菇多糖的总还原力、清除1,1-二苯基-2-苦苯肼自由基(DPPH·)和由Fe2+诱发的脂质过氧化反应的抑制作用进行研究,采用MTT比色法和胎盘蓝细胞计数检测对滑子菇水提粗多糖的体外抑制K562细胞生长作用进行了研究,采用流失细胞术对滑子菇多糖作用人白血病K562细胞后的细胞周期进行了研究。结果表明:滑子菇水提粗多糖PNP具有一定的还原能力;在高质量浓度(800μg/mL)时具有接近于Vc清除DPPH·的能力,达41.28%;PNP对Fe2+诱发的脂质过氧化反应具有一定的抑制作用,并且随着浓度的增加抑制作用逐渐增强,但总的增长趋势不大;MTT实验表明PNP对K562细胞的体外增长有抑制作用,在质量浓度为800μg/mL和作用时间为48 h时,可达到最高的抑制率35.03%。流式细胞术对细胞周期的检测表明滑子菇多糖能够阻滞人白血病K562细胞于G1期。     

β—榄香烯吗素抗肿瘤作用的实验研究

β－榄香烯吗素（PIC－BE）是抗癌新药β－榄香烯的水溶性衍生物。本观察了PIC－BE对多药耐药K562／ADM细胞系及其敏感细胞K562的生长抑制和凋亡诱导作用。结果显示,（1）K562／ADM细胞对ADM具有明显的抗性,与K562细胞相比,抗笥倍数约为40倍,而两对PIC－BE的IC50接近,无显差异;（2）PIC－BE（10.0-30.0μg/ml）对K562和K562／ADM细胞不仅具有明显的生长抑制作用,而且显地诱导细胞凋亡,其作用强度在一定的范围内呈相对浓度和时间的依赖性,以上结果提示,PIC－BE是一种有效的抗肿瘤化合物,且已产生MDR的K562／ADM细胞对它不具耐药性。     

烷化溶血磷脂ET—18—OCH3对K562细胞作用的研究

为研究烷化溶血磷脂ET－18－OCH3（ALP）的抗白血病效果。本文以K562细胞为研究对象,通过台蓝拒染法测定ALP作用后K562细胞的生长抑制率和生长曲线;甲基纤维素半固体培养法测定克隆原细胞的存尖率;流式细胞仪检测K562细胞P210蛋白表达;TR－PCR半定量法测定细胞的bcr-abl mRNA;采用流式细胞仪进行DNA 及是民镜观察细胞形态学改变。结果显示,K562细胞经ALP处理后细胞生长明显受抑制,呈作用时间和剂量的依赖性,IC50为31.6(24h),22.3(48h),14.8(72h)μg/ml;细胞增殖速度显著降低,克隆原细胞存活曲线呈指数型,而正常对照组细胞的CFU－GM则未受影响;ATP还可使KT562细胞P210及bcr-abl mRNA水平下调,并有诱导细胞凋亡的作用,说明ALP对K562细胞生长具有明显抑制作用,并有诱导细胞凋亡的作用,提示ALP具有一定的抗白血病效应。     

三氧化二砷对K562细胞凋亡的诱导及生长抑制作用的研究

目的：研究三氧化二砷(As2O3)对人红白血病细胞株K562的生长抑制和凋亡诱导作用。方法：以As2O3作为耐药逆转剂,用台盼兰排染法,噻唑兰(MTT)还原法,Hoechst 33342和PI荧光染色法,流式细胞仪技术和荧光分光光度法,观察了不同浓度的As2O3(0．2—5．0μmol/L)对人红白血病细胞株K562的生长抑制和凋亡诱导作用。结果：As2O3对K562细胞具有明显生长抑制和凋亡诱导作用,其作用强度在一定范围内均具药物浓度和时间依赖性。结论：As2O3主要以诱导肿瘤细胞凋亡而表现其毒性作用。     

蛋白酶体抑制剂MG132诱导K562和HeLa细胞凋亡程度存在明显差异

蛋白酶体抑制剂MG132诱导人白血病细胞K562和宫颈癌细胞HeLa凋亡,用3个不同浓度的蛋白酶体抑制剂MG132处理人白血病细胞K562和宫颈癌细胞HeLa,通过MTT检测、annexin Ⅴ/ PI 双染法、流式细胞术、酶标仪和Western 印迹分别检测MG132对K562细胞和HeLa细胞的生长效应、细胞凋亡率、细胞内活性氧(ROS)水平和caspase-3活性变化的影响.蛋白酶体抑制剂MG132诱导K562细胞凋亡明显,对HeLa细胞诱导凋亡不明显.结果表明,蛋白酶体抑制剂MG132特异性诱导不同肿瘤细胞凋亡的程度存在明显差异.     

IL-3和羟基脲协同诱导K562细胞凋亡

本文应用流式细胞分选仪和电子显微镜研究了IL-3和羟基脲对人红白血病细胞株(K562细胞)凋亡的影响.结果显示IL-3和羟基脲分别诱导K562细胞,不能引起细胞凋亡;而IL-3和羟基脲协同诱导K562细胞,可以引起细胞凋亡.用流式细胞仪检测到IL-3和羟基脲协同诱导K562细胞后,DNA含量低于二倍体的细胞数达31.90%,并产生明显的凋亡小峰.同时,IL-3和羟基脲协同诱导K562细胞,可抑制细胞周期中的S期,阻止细胞从S期进入G2/M期,使细胞周期延长,对K562细胞的生长和增殖具有抑制作用.在电镜下可观察到IL-3和羟基脲协同诱导的K562细胞,出现典型的凋亡细胞形态,细胞核内染色质浓缩、凝聚,紧靠在核膜边沿,形成新月形或环状的染色质结构,产生凋亡小体.提示IL-3和羟基脲具有协同效应,IL-3可提高K562细胞对羟基脲的敏感性,并可协同羟基脲诱导K562细胞凋亡.     

Neoplastic cells obtained from Hodgkin's disease are potent stimulators of human primary mixed lymphocyte cultures

Neoplastic cells obtained from the pleural effusion of a patient with Hodgkin's disease have been maintained in culture since 1978. These tumor cells have been shown to have the cytologic features, cytochemical staining, and cell surface markers of Reed-Sternberg cells. In this study we demonstrate that the cell line termed L428 is a potent stimulator of the primary human mixed lymphocyte reaction. Significant proliferation occurred when mononuclear leukocytes obtained from normal donors were stimulated with radiated L428 cells at responder:stimulator ratios varying from 200:1 to 20:1. Proliferative responses occurred between days 3 and 6 of the cultures with maximal proliferation on day 5. Under optimal culture conditions, mean net proliferative response of 14 normal donors was 51,000 +/- 10,600 dpm. The mixed lymphocyte response was totally blocked by concentrations of monoclonal anti-Ia antibody that had no effect on concanavalin A-induced proliferation. However, the mixed lymphocyte response was not blocked by an anti-K562 cell monoclonal antibody of the same immunoglobulin subclass that binds to the L428 cells. Antigen processing by responder monocytes or Ia-positive cells was not required for the MLC. When responder T cells from two normals were depleted of Ia-bearing cells and monocytes, the mixed lymphocyte reaction between the two normals was eliminated, yet the stimulation of each normal by the L428 cells was not reduced. The cells that proliferated in response to stimulation by the L428 cells were T cells, primarily of the helper subset. No IL 1 activity could be detected in concentrated supernatants of L428 cultures after stimulation of L428 cells by mitogens, phorbol esters, or muramyl dipeptide, or in the MLC. All of these cultures contain fetal calf serum. However, the L428 cells are capable of producing IL 1, because IL 1 was detected when the L428 cells were stimulated with LPS in the absence of fetal calf serum. These neoplastic cells, obtained from Hodgkin's disease, have many similarities to the murine as well as human dendritic cells.     

Different requirements for Ia-bearing accessory cells in mitogen versus antigen induction of human B-cell responses

The accessory cell requirements for the induction of proliferative and specific antibody responses of human lymphocytes stimulated with either antigen or mitogen were examined. An Ia-negative human myeloid tumor cell line, K562, could substitute for monocytes in the proliferation of monocyte-depleted lymphocytes in response to pokeweed mitogen (PWM) stimulation. K562 cells could also act as accessory cells in the PWM-induced anti-keyhole limpet hemocyanin (KLH) antibody synthesis of cells from a KLH-immunized donor. In contrast, only monocytes and not K562 cells could function as accessory cells in antigen-induced lymphocyte proliferation as well as in antigen-induced, antigen-specific antibody production. However, K562 cells, like monocytes, were able to positively and negatively regulate polyclonal immunoglobulin responses. Thus, Ia-bearing accessory cells can function in antigen-induced proliferation and antibody responses while non-Ia-bearing cells can function in mitogen-induced, but not anti-geninduced responses. These studies indicate a dichotomy in the nature of required accessory cells in antigen-induced versus mitogen-induced human lymphocyte responses and strongly suggest an obligatory role of Ia or an Ia-related molecule on accessory cells in antigen-induced responses of human lymphocytes.     

Effects of recombinant human tumor necrosis factor (rhTNF) on normal human and mouse hemopoietic progenitor cells

We examined the effects of recombinant human tumor necrosis factor (rhTNF) on normal human and murine granulocyte-macrophage (CFU-gm) and erythroid (CFU-e, BFU-e) progenitor cells. We suppressed in vitro colony formation by human marrow CFU-gm, CFU-e and BFU-e or peripheral blood BFU-e by adding rhTNF to the culture in a dose-related manner. A half-maximal inhibition was observed with 1-10 ng/ml. Leukemic cell line K562 cells were found to be sensitive to rhTNF in the clonogenic colony assay. However, the clonal growth of murine marrow CFU-e and BFU-e colonies was less than 50% inhibited and CFU-gm growth was unaffected even at a concentration of 1,000 ng/ml. We observed slight to moderate inhibition after 24 h pulse exposure of both human and murine-committed progenitors to rhTNF prior to the culture. Intravenous injection of 1 mg/kg of rhTNF caused a marked decrease in marrow erythroid progenitors and consequently caused anemia in the mice. Our data indicate that rhTNF has a suppressive effect on normal human and murine hemopoietic colony formation in vitro and murine erythropoiesis in vivo.     

Suppression of natural killer activity in human blood and bone marrow cultures by bone marrow-adherent OKM1-positive cells

Maintenance and regulation of natural killer (NK) cell activity in human bone marrow cultures were studied using K562 leukemia cells as targets. Culture of bone marrow cells in medium supporting long-term generation of myeloid cells resulted in a rapid loss of NK activity in 1-3 days. In contrast, antibody-dependent cytotoxicity to an NK-resistant tumor was maintained for more than 7 weeks. Horse serum, a component of the myelopoietic culture medium, was found to diminish NK cytotoxicity of blood and bone marrow cultures whereas hydrocortisone supplement did not. In addition, an adherent cell is present in bone marrow which greatly inhibits NK activity. Nonadherent bone marrow cells exhibited higher cytotoxicity than unfractionated cells at all days of culture; adherent cells were not cytotoxic to K562. Purified adherent marrow cells inhibited the cytotoxic capacity of nonadherent blood or marrow mononuclear cells during coculture. Indomethacin, an inhibitor of protaglandin synthesis, augmented levels of NK activity in cultures of bone marrow cells, indicating that macrophages may be suppressing this effector function via prostaglandins. Further identification of the adherent suppressor cells came from experiments in which suppression was prevented by treatment of the adherent cells with monoclonal OKM1 antibody plus complement. This study shows that bone marrow-adherent OKM1-positive cells, presumably macrophages, negatively regulate NK activity, and it defines conditions for analysis of the generation and/or positive regulation of NK cells in human bone marrow.     

针对bcr／abl的锤头状核酶的骨髓净化作用

为了探讨锤头状核酶对原代慢性粒细胞白血病 (chronicmyelogenousleukemia ,CML)细胞的作用及其在体外骨髓净化的效果 ,应用逆转录病毒介导的基因转移法将针对bcr abl融合基因的核酶转染原代CML和正常人骨髓单个核细胞 ,通过造血祖细胞集落培养、流式细胞术、免疫细胞化学法检测核酶对原代CML细胞的作用 ;进一步将此核酶转染CML缓解模型 ,通过白血病细胞集落培养、巢式RT PCR检测其在体外骨髓净化的效果。结果表明 ,原代CML细胞生长增殖和p2 10的表达显著受抑 ,但正常造血祖细胞受影响较小 ;核酶完全抑制模拟缓解骨髓中残留K5 6 2细胞的增殖及bcr ablmRNA表达 ,但并不影响ablmRNA表达 ,因此有望用于CML的体外骨髓净化。     

Effects of anesthesia-induced modest hypothermia on cellular radiation sensitivity

To assess the mechanisms of modest hypothermia (MH) and its effects on cellular radiation response, a model of anesthesia-induced modest hypothermia (AIMH) in the adult mice and a model of pure MH in the newborn mice were established. The survival rate of lethally irradiated mice was increased to 72% through AIMH before irradiation. Both apoptosis and necrosis of human fetal bone marrow CD34+ hematopoietic stem cells cultured under MH were significantly decreased as detected by MTT and flow cytometry, with three-color labeled by PE-CD34+/ FITC-AnnexinV /7AAD. The survival and proliferation of mouse bone marrow MNC treated with MH after irradiation were also increased. The MH exerted similar protective effects on the leukemia cell lines A20, HL60, K562 to the normal bone marrow cells, but it enhanced the radiation sensitivity of leukemia cell line FBL3 and mouse melanoma B16F10. No effects have been found on the radiation sensitivity of those cells treated with MH before irradiation. The results also show     

SAR studies of brasilicardin A for immunosuppressive and cytotoxic activities

Eleven derivatives (5-13, 15, and 16) of an immunosuppressive and cytotoxic tricyclic terpenoid, brasilicardin A (1), were prepared and assayed for inhibitory effects to the mouse mixed lymphocyte reaction (MLR) and seven human tumor cell lines. The 17N-methyl form (8) of 1 showed the most potent immunosuppressive activity in mouse MLR, while induction of more bulky group for N-17 resulted in significant decrease of the activity. Compound 8 also showed potent cytotoxic activity against DLD-1, Lu-65, A549, K562, and MOLT-4 cells, while the benzyl ester (13) of 1 exhibited potent cytotoxicity against K562, MOLT-4, and jarkat leukemia cell lines. The 17N-acetyl derivative (11) of 1 selectively inhibited the cell growth of DLD-1 cells. The methyl ester (5) of 1 showed potent cytotoxic activity against K562, MOLT-4, and Ball-1 cell lines, the last of which was resistant to 1, 8, and 13.     

Action of granulopoiesis-stimulating cytokines rhG-CSF, rhGM-CSF, and rmGM-CSF on murine haematopoietic progenitor cells for granulocytes and macrophages (GM-CFC)

The aim of this study was to provide new data to the knowledge of mechanisms by which recombinant human granulocyte colony-stimulating factor (rhG-CSF), recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) and recombinant murine granulocyte-macrophage colony-stimulating factor (rmGM-CSF) enhance the numbers of colonies growing from hematopoietic progenitor cells for granulocytes and macrophages (GM-CFC) in the murine bone marrow. The in vitro technique for cultivating GM-CFC from normal bone marrow cells was used. For evaluation of stimulatory actions of the drugs studied, the factors themselves or sera of mice given these factors were added to the cultures. The factors or the sera were present in the cultures either as the only potentially stimulatory agents or acted jointly with a suboptimum concentration of recombinant murine interleukin-3 (rmIL-3). It was found that both rhG-CSF and rmGM-CSF stimulate the proliferation of GM-CFC by a combination of direct mechanisms (direct actions on the target cells) and indirect effects (effects mediated through the induction of other cytokines and/or growth factors in the murine organism). The rhGM-CSF exhibited somewhat weaker in vitro effects in comparison with the other two factors and only indirect effects were noted. Additional in vivo experiments documented that, in spite of differences in mechanisms of action of the individual drugs studied on murine bone marrow cells in vitro, equal in vivo doses of the factors induce quantitatively similar effects on the production of GM-CFC in vivo.     

Specific inhibition of in vitro lymphocyte transformation by an anti-pan T cell (gp67) ricin A chain immunotoxin

The toxin A chain of ricin has been conjugated by a disulfide bond to a murine monoclonal antibody that recognizes the gp67kD antigen present on 95% of peripheral T lymphocytes. The immunotoxin retains both functions of its component parts: it binds to human peripheral blood lymphocytes, and it inhibits protein synthesis in a cellfree reticulocyte system. The immunotoxin has been evaluated for its ability to inhibit in vitro T lymphocyte transformation. In the presence of 20 mM NH4Cl, the immunotoxin decreases lymphocyte proliferation in response to phytohemagglutinin to less than 8% of untreated controls. The proliferative response in mixed lymphocyte culture and the development of allocytotoxic T cells is also dramatically inhibited by this immunotoxin. Monoclonal antibody alone does not inhibit these responses. Specificity of the immunotoxin has been established: the effect of the immunotoxin can be blocked by unconjugated monoclonal antibody, but not by a control monoclonal antibody that recognizes another T lymphocyte differentiation antigen or by a control monoclonal antibody that does not recognize human peripheral blood leukocytes. Treatment of human bone marrow cells with the immunotoxin preserves hematopoietic progenitor cells, as measured by granulocyte-macrophage, erythroid, and multipotential hematopoietic progenitor cell assays. These results indicate that an anti-pan T lymphocyte-ricin A chain immunotoxin is an effective agent against immunocompetent T lymphocytes in vitro, and may be an effective agent for use in clinical bone marrow transplantation.