外源性GM3／GD3对人肝癌培养细胞原癌基因表达的研究

应用原位分子杂交技术及细胞图像分析证实了人肝癌细胞株ＳＭＭＣ７７２１细胞经１０μｇ／ｍｌ的ＧＭ３／ＧＤ３处理后,ＧＤ３处理组织内Ｎ－ｒａｓ基因ｍＲＮＡ的阳性信号弥漫分布于整个细胞,而经ＧＭ３处理组和对照组阳性信号集中于核模,ＧＭ３／ＧＤ３处理组及对照组ｃ－ｆｏｓ基因ｍＲＮＡ的阳性信号均集中核膜,但ＧＭ３处理组信号强度最大,上述结果提示,ＧＤ３可使某些肿瘤细胞向更加恶性的方向发展,而ＧＭ３则可使某些     

外源性神经节苷脂GM3影响人肝癌细胞生长的可能机制的初步研究

通过苔酚蓝染色细胞发现,外源性ＧＭ３能明显抑制人肝癌细胞株ＳＭＭＣ－７７２１细胞生长,在ＧＭ３处理３ｄ时,出现明显差异,通过ＮｏｒｔｈｅｒｎＢｌｏｔ分析发现,外源性ＧＭ３可明显影响人肝癌细胞株ＳＭＭＣ－７７２１细胞中ｃ－ｆｏｓ、ｃ－ｊｕｎ、ｃ－ｍｙｃ和Ｎ－ｒａｓ四种癌基因的ｍＲＮＡ表达,未经ＧＭ３处理的细胞中没有检测到ｃ－ｆｏｓｍＲＮＡ,但ｃ－ｊｕｎ微量表达,并有ｃ－ｍｙｃ和Ｎ－ｒａｓｍＲＮＡ的高     

外源性GM_3／GD_3对人肝癌培养细胞蛋白激酶活性的影响

ＧＭ_３／ＧＤ_３在体外对部分纯化的酪氨酸蛋白激酶（ＴＰＫ）和蛋白激酶Ｃ（ＰＫＣ）都有激活作用。ＧＭ_３处理细胞４ｄ后,完整细胞ＴＰＫ活性未出现大改变,而ＰＫＣ的活性则大幅度上升,为对照组的８８倍;同样条件下经ＧＤ_３处理后,ＴＰＫ的活性下降,为对照组的０．６６倍,而ＰＫＣ活性则上升,为对照组的４３倍。上述结果表明,ＧＭ_３／ＧＤ_３对不同蛋白激酶活性的影响互不相同,对同一蛋白激酶在不同条件下的影响也互不相同。     

GM_3、GD_3作用下SMMC－7721肝癌细胞内磷脂酰肌醇（1，4，5）三

外源性ＧＭ３（１０ｎｍｏｌ／ｍＬ）、ＧＤ３（１ｎｍｏｌ／ｍＬ）可使ＳＭＭＣ－７７２１人肝癌培养细胞内钙浓度呈快速的短暂升高,其到达峰值时间为４５秒,一次作用后,内钙水平于２－３ｍｉｎ内恢复至对照水平。在一定时间间隔中连续几次加入ＧＭ３或ＧＤ３后内钙水平的变化表明,ＧＭ３所引起的［Ｃａ２＋］ｉ的增加依赖于内质网钙贮的释放和细胞外钙的流入;而ＧＤ３增加［Ｃａ２＋］ｉ与此二系统无关。进一步研究表明,在细胞内钙达峰值时,１０ｎｍｏｌ／ｍＬＧＭ３可使ＩＰ３（１,４,５）浓度增加９．３倍,ｃＡＭＰ浓度增加８２％;１ｎｍｏｌ／ｍＬＧＤ３反使Ｉｐ３浓度增加１．２倍,提示ＧＭ３、ＧＤ３升高内钙的不同机制。     

GM3对重建Gs与AC偶联功能的影响

将神经节苷脂ＧＭ３（Ｍｏｎｏｓｉａｌｏｇａｎｇｌｉｏｓｉｄｅ－ＧＭ３）通过保温法掺入到含激活型Ｇ蛋白（ＳｔｉｍｕｌａｔｏｒｙＧＴＰ－ｂｉｎｄｉｎｇｐｒｏｔｅｉｎ,Ｇｓ）与腺苷酸环化酶（ＡｄｅｎｙｌｙｌＣｙｃｌａｓｅ,ＡＣ）的脂酶体中,研究了ＧＭ３对Ｇｓ和ＡＣ偶联功能的影响。实验结果表明,在４－１０μｍｏｌ／Ｌ浓度范围的ＧＭ３增加ＡＣ的基础活力;在高于４μｍｏｌ／Ｌ时,ＧＭ３可显著抑制Ｇｓ激活ＡＣ的能力;而在ＧＭ３浓度高于１００μｍｏｌ／Ｌ的条件下,Ｇｓ结合ＧＴＰγＳ（Ｇｕａｎｏｓｉｎｅ５＇－Ｏ－（３－ｔｈｉｏｔｒｉｐｈｏｓｐｈａｔｅ））的活力受到明显抑制。随外源ＧＭ３浓度的增加,ＧＭ３对Ｇｓ激活ＡＣ的能力与对ＡＣ基础活力的影响似乎并不完全一致。这些结果提示,Ｇｓ与ＡＣ的解偶联对较低浓度的ＧＭ３的影响更加敏感。用荧光探剂ＭＣ５４０标记脂酶体,测量其荧光光谱的结果显示,随着ＧＭ３浓度增加,ＭＣ５４０的荧光强度增强,这说明外源性的ＧＭ３的掺入使膜脂质分子头部的堆积变得更加疏松。这可能提示,ＧＭ３介导的膜脂物理状态的变化是调节Ｇｓ与ＡＣ偶联功能的重要因素之一。     

神经节苷脂GM_3对人白血病J6－2细胞磷脂酰胆碱代谢的影响

神经节苷脂ＧＭ３诱导人单核样白血病Ｊ６－２细胞沿单核／巨噬细胞途径分化．在ＧＭ３诱导分化同时,Ｊ６－２细胞磷脂代谢发生了显著变化．采用（（３２）Ｐ）Ｐｉ、［ＧＨ３－３Ｈ］胆碱和［ＣＨ３－３Ｈ］ＳＡＭ参入实验对ＧＭ３影响Ｊ６－２细胞ＰＣ代谢的机制进行了初步的探讨．ＧＭ３促进［（３２）Ｐ］Ｐｉ参入Ｊ６－２细胞ＰＣ;抑制［ＣＨ３－３Ｈ］胆碱参入ＰＣ及ＰＣ合成的前体磷酸胆碱及ＣＤＰ－胆碱;ＧＭ３促进［ＣＨ３－３Ｈ］ＳＡＭ参入ＰＣ,但抑制［ＣＨ３－３Ｈ］ＳＡＭ参入ＰＣ合成的前体胆碱、磷酸胆碱和ＣＤＰ－胆碱．上述结果提示,ＧＭ３抑制Ｊ６－２细胞ＰＣ合成的ＣＤＰ－胆碱途径,促进ＰＣ合成的ＰＥ甲基化途径．     

SMAD3与细胞周期蛋折CyclinB的相互作用

ＳＡＭＤｓ是ＴＧＦβ家族的细胞内信号介导。为了研究ＳＭＡＤ３的信号传递过程,我们以ＳＡＭＤ３为诱饵蛋白用酵母双杂交系统筛选与ＳＡＭＤ３相互作用的蛋白,发现Ｃｙｃｌｉｎ Ｂ可以与ＳＭＡＤ３发生相互作用,并在ＣＯＳ７细胞中证实了该相互作用。提示ＴＧＦβ可能通过ＳＭＡＤｓ与细胞周期素的相互作用来调节细胞周期的变化。     

EGFR反义脱氧寡核苷酸及其硫代修饰片段抑制人肝癌细胞系BEL…

本文旨在研究针对ＥＧＦＲ ｍＲＮＡ的反义寡核苷酸片段对ＢＥＬ－７４０４细胞ＥＧＦＲ基因表达及其对细胞生长的影响。合成了互补于ＥＧＦＲ基因５’起始编码区的２１聚脱氧寡核苷酸（ＯＤＮｓ）。实验结果显示,３．２ｕｍｏｌ／Ｌ ＯＤＮｓ明显抑制ＢＥＬ－７４０４细胞生长,「３Ｈ」Ｔｄｒ掺入抑制试验显示其对细胞ＤＮＡ合成的抑制作用表现剂量依赖性;密度扫描分析显示ＯＤＮｓ处理６、２４ｈ后,肝癌细胞ＥＧＦＲ ｍＲＮ     

粒细胞—巨噬细胞集落刺激因子／白细胞介素—3融合蛋白的表达研究

利用ＰＣＲ扩增得到粒细胞－巨噬细胞集落刺激因子（ＧＭ－ＣＳＦ）、白细胞介素－３（ＩＬ－３）完整基因片段,将其分别克隆ｐＧＥＭ－Ｔ构建成ＧＭ－ＣＳＦ／ＩＬ－３融合蛋白基因,ＤＮＡ序列与设计预期一致。将得到的融合蛋白基因克隆对７２ＲＮＡ聚合酶表达载体ｐＴ７ｚｚ,得到表达质粒ｐＦｕ,经转化至表达宿主Ｅ．ｃｏｌｉ ＢＬ２１（ＤＥ３）,在ＩＰＴＧ诱导下获得融合蛋白目的产物的直接表达。经ＳＤＳ－ＰＡＧＥ电泳鉴     

人白介素－3基因表达调节的研究

报导了ｈ－ＩＬ－３基因表达调节研究的结果：（１）人静止的外周血淋巴细胞几乎不表达ＩＬ－３ｍＲＮＡ,但受丝裂原ＰＨＡ的刺激后则诱导ＩＬ－３ｍＲＮＡ表达,ＴＰＡ与ＰＨＡ联合处理,使ＩＬ－３ｍＲＮＡ的蓄积进一步增加,但ＴＰＡ单独不足以诱导ＩＬ－３ｍＲＮＡ蓄积;（２）Ａ２３１８７／ＴＰＡ能代替ＰＨＡ／ＴＰＡ的刺激,并直接诱导ＩＬ－３ｍＲＮＡ表达;（３）ＴＲＥＯＤＮ处理则显著抑制ＰＨＡ／ＴＰＡ诱导的ＩＬ－３ｍＲＮＡ表达。这些结果揭示：ｈ－ＩＬ－３基因的表达在转录及转录后水平被调节,而且是可诱导的,诱导ｈ－ＩＬ－３基因表达、需要Ｃａ２＋依赖及ＰＫＣ依赖的两个信息转导系统,Ｆｏｓ蛋白是反式激活ＩＬ－３基因表达的转录因子,ＰＫＣ依赖的转导系统,可能与ＩＬ－３ｍＲＮＡ的稳定性有关。     

GM_3对小鼠腹腔巨噬细胞磷脂代谢转换率的影响

神经节苷脂ＧＭ_３对小鼠腹腔常驻巨噬细胞（Ｒ－Ｍ）和Ｇｅ－１３２体内激活的巨噬细胞（Ｇｅ－１３２－Ｍ）的磷脂代谢转换有显著的影响,当这两种Ｍ在体外用ＧＭ_３处理时,表现出［￣（３２）Ｐ］Ｐｉ和［￣３Ｈ］肌醇参入ＰＩ降低,参入ＰＩＰ、ＰＩＰ_２增加;但在［￣（３２）Ｐ］Ｐｉ和［￣３Ｈ］胆碱参入ＰＣ上,Ｒ－Ｍ与Ｇｅ－１３２－Ｍ不同,即ＧＭ_３促进同位素前体参入Ｒ－Ｍ的ＰＣ,抑制它们参入Ｇｅ－１３２－Ｍ的ＰＣ．以上结果表明ＧＭ３可能提高了ＰＩ或ＰＩＰ的磷酸激酶的活性,致使［￣（３２）Ｐ］ＰＩＰ和［￣（３２）Ｐ］ＰＩＰ_２增多,［￣（３２）Ｐ］ＰＩ减少．激活的Ｍ（Ｇｅ－１３２－Ｍ）本身ＰＣ代谢转换率较Ｒ－Ｍ高,当Ｇｅ－１３２－Ｍ再受ＧＭ_３刺激,ＰＣ代谢转换率降低,这提示ＧＭ_３对激活的Ｍ的ＰＣ代谢转换有调节作用．     

PI3K信号通路通过Skp2、p27调节肝癌细胞的增殖

探讨磷脂酰肌醇3-激酶(PI3K)信号通路调节肝癌细胞增殖的机制.用LY294002特异性阻断PI3K信号通路后,人肝癌细胞(SMMC-7721)的增殖明显被抑制.RT-PCR及蛋白质印迹结果显示,LY294002增加了p27蛋白的表达,但不影响p27的mRNA表达.在LY294002处理的细胞中转入p27的RNAi质粒以干扰p27蛋白的表达后,肝癌细胞的增殖能力可部分恢复.放线菌酮(Chx)处理实验表明,阻断PI3K信号通路使p27蛋白的半衰期延长,稳定性增加.进一步研究发现,LY294002可抑制介导p27蛋白降解的关键分子Skp2的mRNA表达,还可缩短Skp2蛋白的半衰期,降低Skp2蛋白的稳定性.但在SMMC-7721中分别转染PI3K下游重要靶分子Akt的持续激活和失活突变体,却并不影响p27蛋白的表达.这些结果表明,PI3K信号通路在转录及翻译后水平调节Skp2的表达而影响p27蛋白的降解,从而调节肝癌细胞的增殖,但Akt并没有参与这种调节.     

Binding of isolated 3T3 surface membranes to growing 3T3 cells and their effect on cell growth

We have quantitated by autoradiography the binding of [¹²⁵I]labeled 3T3 plasma membrane fragments to 3T3 cells growing on the surface of plastic dishes; ie, the same conditions in which these membranes specifically arrest the growth of 3T3 cells early in the G₁ phase of the cell cycle. We have been able to demonstrate that binding of membranes to cells is coincidental with the expression of the growth inhibitory activity of protein(s) present in the membrane fragments. Treatments that reduce binding (heat denaturation of the membranes or culture in the presence of high scrum) also reduce growth inhibitory activity. [¹²⁵I]labeled membranes bound to cells are located primarily on the cell surface (as determined by electron microscope autoradiography) and are exchangeable with unlabeled membranes. We conclude that binding of membranes to cells is necessary but may not be sufficient for the expression of the growth inhibitory activity of these membranes. This approach provides information not only on the average level of binding of membranes to cells, but also provides a quantitative assessment of the variation of the level of membrane to cell binding between different cells in the population.     

Inhibition of cell division but not nuclear division by 1-O- octadecyl-2-O-methyl-Sn-glycero-3-phosphocholine

1-O-Octadecyl-2-O-methyl-glycero-3-phosphocholine (ET-18-OCH(3)) selectively inhibits the growth of cancer cells. Here we show that in some cell types ET-18-OCH(3)and liposome-associated ET-18-OCH(3)inhibit cell division without concurrent inhibition of nuclear division, leading to multinucleate cell formation, and cell death through apoptosis. Cell cycle analysis revealed that ET-18-OCH(3)-treated U-937 cells continued to move through the cell cycle, but many cells were not able to divide and instead accumulated as tetraploid cells or octaploid cells in the G0/G1 phase of the cell cycle. Inhibition of cytokinesis has been shown to be paralleled by activation of U-937 cells, including upregulation of some cell-surface markers, acquisition of phagocytic activity, and secretion of tumor necrosis factor (TNF)-alpha (Pushkareva et al., 2000). Furthermore, treatment of cells with ET-18-OCH(3)results in the accumulation of apoptotic cells in time- and dose-dependent manner. It is possible that inhibition of cytokinesis may be related to cytoskeletal effects.     

CAMSAP3-dependent microtubule dynamics regulates Golgi assembly in epithelial cells

The Golgi assembly pattern varies among cell types. In fibroblast cells, the Golgi apparatus concentrates around the centrosome that radiates microtubules; whereas in epithelial cells, whose microtubules are mainly noncentrosomal, the Golgi apparatus accumulates around the nucleus independently of centrosome. Little is known about the mechanisms behind such cell type-specific Golgi and microtubule organization. Here, we show that the microtubule minus-end binding protein Nezha/CAMSAP3 (calmodulin-regulated spectrin-associated protein 3) plays a role in translocation of Golgi vesicles in epithelial cells. This function of CAMSAP3 is supported by CG-NAP (centrosome and Golgi localized PKN-associated protein) through their binding. Depletion of either one of these proteins similarly induces fragmentation of Golgi membranes. Furthermore, we find that stathmin-dependent microtubule dynamics is graded along the radial axis of cells with highest activity at the perinuclear region, and inhibition of this gradient disrupts perinuclear distribution of the Golgi apparatus. We propose that the assembly of the Golgi apparatus in epithelial cells is induced by a multi-step process, which includes CAMSAP3-dependent Golgi vesicle clustering and graded microtubule dynamics.     

具不同淋巴道转移潜能小鼠肝癌瘤株细胞膜鞘糖脂比较研究

采用高效薄层层析（ＨＰＴＬＣ）对两株具有不同淋巴道转移潜能的小鼠腹水型肝癌瘤株细胞膜鞘糖脂组分进行了比较分析．低转移的ＣＬ－Ａ_２瘤株神经节苷脂以ＧＭ_３为主,高转移的ＣＬ－１６Ａ_３瘤株则以ＧＭ_２为主．两细胞株中性鞘糖脂各组分相对百分含量无较显著差异．脂结合唾液酸含量测定表明,ＣＬ－１６Ａ_３瘤株脂结合唾液酸含量约为ＣＬ－Ａ_２瘤株的三倍．提示,具有不同淋巴道转移潜能的瘤细胞,其质膜鞘糖脂的组成也不同．