RFP134对UMR106细胞膜脂流动性的影响(英文)

癌细胞具有与正常细胞不同的膜脂流动性,导致细胞对生长因子和癌基因产物反应敏感;引起细胞增殖失控。本实验室从植物中发现一种二萜类活性物质──RFP134,在细胞周期和信号传递等多方面表现出有抑制癌细胞增殖,促进细胞分化的作用。本文以大鼠成骨肉瘤细胞（UMR106）和正常大鼠成骨细胞为模型,研究其对癌细胞膜脂流动性的影响。细胞系UMR106由美国麻省总医院内分泌室赠送。成骨细胞由本实验室分离培养。以不同浓度（20、40、60、80、100μM／L）的RFP134,在同一时间处理细胞,或以最适浓度（50μM／L）在不同时间作用于细胞。DPH为荧光标记物,测得的荧光偏振值和微粘度值为膜膜流动性指标。结果显示,无论在恒定的时间、以不同浓度的RFP134作用于UMR106细胞（Fig.1B）,或以恒定的浓度、在不同时间处理UMR106细胞（Fig．1D）,结果均表现为显著降低膜脂流动性。前者,RFP134作用于细胞时,细胞荧光偏振值与微粘度值逐步升高,其变化呈量效关系;而后者,呈时效关系。但在最适浓度与最佳作用时间,荧光偏振值和微粘度值达饱和状态。在同样条件下,RFP134对正常成骨细胞的膜脂流动性影响极小。即：荧光偏振值和微粘度值均在正常范围内保持恒定（Fig．1A;Fig．1C）。RFP134降低癌细胞的膜脂流动性     

脂质过氧化对人红细胞膜脂流动性的影响

研究枯稀过氧化氢/高铁血红素体系所产生的烷基过氧自由基对红细胞的损伤。测定了脂质过氧化的产物——丙二脂的生成,并证明阿魏酸钠对脂质过氧化的抑制。荧光偏振的结果指出,膜脂过氧化以后降低了膜脂的流动性。人红细胞用5DSA和16DSA标记并用ESR检测膜脂流动性,结果表明,序参数S几乎没有发生变化,旋转相关时间τ值的增加证明膜脂过氧化以后,疏水尾部的物理状态发生了改变。经脂质过氧化以后,红细胞膜中的不饱和脂防酸的减少,可能是降低膜脂流动性的原因之一。     

RFP134对UMR106细胞膜脂流动性的影响

癌细胞具有与正常细胞不同的膜脂流动性,导致细胞对生长因子和癌基因产物反应敏感,引起细胞增殖失控。本实验室从植物中发现一种二萜类活性物质－RFP134,在细胞周期和信号传递等多方面表现出有抑制癌细胞增殖,促进细胞分化的作用。本文以大鼠成骨肉瘤细胞（UMR106）和下鼠成骨细胞为模型,研究其对癌细胞膜脂流动性的影响。细胞系UMR106由美国麻省总医院内分泌室赠送。成骨细胞由本实验室分离培养。以不同浓度（20、40、60、80、100μM／L）的RFP134,在同一时间处理细胞,或以最适浓度（50μM／L）在不同时间作用于细胞。DH为荧光标记物,测得的荧光偏值和微粘度值为膜膜流动性指标。结果显示,无论在恒定的时间、以不同浓度的RFP134作用于UMR106细胞(Fig.1B）,或以恒定的浓度、在不同时间处理UMR106细胞（Fig.1D）,结果均表现为显著降低膜脂流动性。前者,RFP134作用于细胞时,细胞荧光偏振瑟微粘度值逐步升高,其变化呈量效关系;而后者,呈时效关系。但在最适浓度与最佳作用时间,荧光偏振值和微粘度值达饱和状态。在同样条件下,RFP134对正常成骨细胞的膜脂流动性影响小。即：荧光偏振值和微粘度值均在正常范围内保持恒定（Fig.1A;Fig.1C）RFP134降低癌细胞的膜脂流动性,从而改善了它的细胞膜功能,降低了它对生长因子的反应性,恢复了细胞对调节因子的正常反应。这可能是RFP134能够抑制癌细胞增殖,促进细胞分化的机制之一。     

外源脂肪酸对莱氏衣原体膜流动性的影响——电子自旋共振与荧光偏振研究

生物膜类脂的物理性质直接影响膜的生理功能,膜的流动动性是反映膜脂物理状态的一个重要特征.本文采用电子自旋共振波谱及荧光偏振技术研究油酸,硬脂酸以及油酸和棕榈酸的混合物渗入莱氏衣原体膜后对膜流动性的影响.结果表明,上述外源脂肪酸均能增加膜的流动性,其中以油酸渗入膜后最为显著.油酸中双键的作用不仅仅局限于双键所在碳原子附近,而且能使整个膜脂双层各个层次上流动性都有增加.对于用荧光偏振和自旋标记顺磁共振二种技术所获得结果的异同也进行了初步讨论.     

氧化脂质及对大鼠心肌肌质网Ca~（2＋）－ATPase磷酸化微区运动状态的影响

用ＴＢＡ法测定了三尖杉酯碱的膜脂氧化效应;用纳秒荧光偏振技术研究了氧化膜脂对ＤＰＨ标记大鼠心肌肌质网膜脂、ＡＮＭ标记心肌肌质网Ｃａ２＋－ＡＴＰａ功能及磷酸化微区运动状态的影响。随膜脂中氧化磷脂的增加,肌质网膜脂双层的微粘度增加,磷脂分子摆动角减小：ＤＰＨ的荧光强度减弱,荧光寿命缩短。Ｃａ２＋－ＡＴＰａｓｅ的ＡＴＰ水解活性降低。ＡＮＭ标记Ｃａ２＋－ＡＴＰａｓｅ磷酸化微区的ｒ（ｔ）曲线半衰期减至６８±４ｎｓｅｃ。结果提示,膜脂中氧化磷脂的含量影响膜脂双层的流动性及Ｃａ２＋－ＡＴＰａｓｅ的ＡＴＰ水解活性和磷酸化微区的微细结构。     

脂肪族类两亲物对肌浆网膜脂区结构的影响

C18饱和脂肪酸和胺可增加DPH标记肌浆网(SR)的荧光偏振度,而C18单不饱和脂肪酸。胺和醇则使其偏振度下降。加入MgATP,可除去单不饱和脂肪胺引起的DPH标记的荧光偏振度下降,并使之高于未加脂肪胺的对照水平。饱和酸及相应胺可使标记于膜脂中层和深层的TAS和12AS的荧光偏振度上升,不饱和酸及相应胺和醇仅使12AS荧光偏振下降。说明脂肪族类两亲物对SR膜流动性的影响与脂肪链饱和程度有关。饱和者主要使膜中、深层流动性下降.不饱和者主要使膜深层流动性升高。     

双歧杆菌的完整肽聚糖对小鼠腹腔巨噬细胞膜脂流动性的影响

目的探讨分叉双歧杆菌的完整肽聚糖（WPG）对巨噬细胞膜脂流动性的影响。方法首先分离培养昆明小鼠腹腔巨噬细胞,然后以WPG刺激巨噬细胞,再用细胞膜磷脂荧光探针标记细胞,最后采用激光共聚焦显微镜结合激光漂白后荧光恢复技术检测巨噬细胞的膜脂流动性。结果WPG刺激组反映小鼠腹腔巨噬细胞膜脂流动性的平均荧光恢复率明显高于对照组（P〈0.01）。结论分叉双歧杆菌的完整肽聚糖可提高巨噬细胞膜脂流动性。     

用荧光偏振法研究人胚肺二倍体成纤维细胞膜脂流动性

细胞膜的正常功能有赖于膜结构的完整和膜脂的恒定流动,细胞膜脂流动性是细胞膜的主要动力学特性。许多资料说明,膜的这种特性与细胞发育、分化增殖、免疫反应和信息传递等生物学基本功能密切相关。可以用差示扫描量热法(DSC)、X射线衍射、电子自旋共振(ESR)、核磁共振(NMR)及荧光偏振法等从不同角度对膜流动性进行研究。其中荧光偏振法比较简便,理论解释比较容易,荧光偏振度参数     

二价金属离子对嵌有线粒体H~+-ATP酶的脂酶体不同层次脂质流动性的影响

本文报道用荧光偏振及顺磁共振两种方法研究Mg~(2+)及其它二价金属离子对嵌有H~+-ATP酶的脂酶体不同层次脂质流动性的影响。 (1)顺磁标记探剂5-、12-、16-氮氧基硬脂酸测定结果表明Mg~(2+)和其它二价金属离子都能降低膜脂双分子层表层的流动性。降低流动性的顺序为Mg~(2+)=Ca~(2+)>Sr~(2+)>Cd~(2+)。较深层脂则无明显变化。 (2)荧光探剂7-、12-(9-蒽酰)硬脂酸及16-(9-蒽酰)棕榈酸的测定结果也表明Mg~(2+)和其它二价金属离子降低了膜脂表层的流动性,尤以Mn~(2+)、Ca~(2+)降低流动性最显著,流动性降低的顺序为;Mn~(2+) Ca>Sr~(2+) Mg~(2+) Cd~(2+)。除Mn~(2+)、Ca~(2+)还能影响膜脂深层的流动性外,其它与对照无明显差异。     

氧化脂质及对大鼠心肌肌质网Ca^2＋—ATPase磷酸化微…

用ＴＡＢ法测定了三尖杉酯碱的膜脂氧化效应;用纳秒荧光偏振技术研究了氧化膜脂对ＤＰＨ标记大鼠心肌肌质网膜脂、ＡＮＭ标记心肌肌质网Ｃａ＾２＋－ＡＴＰａ功能及磷酸化微区运动状态的影响。随膜脂中氧化磷脂的增加,肌质网膜脂双层的微粘度增加,磷脂分子摆动角减小;ＤＰＨ的荧光强度减弱,荧光寿命缩短。Ｃａ＾２＋－ＡＴＰａｓｅ的ＡＴＰ水解活性降低。ＡＮＭ标记Ｃａ＾２＋－ＡＴＰａｓｅ磷酸化微区的ｒ（ｔ）曲线半衰期减至     

外源胆固醇对水稻根端线粒体膜流动性的影响

应用荧光探剂 1,6-二苯基-1,3,5-己三烯(DPH)观察外源胆固醇对水稻极端线粒体膜流动性的影响。结果表明,无论外源胆固醇通过水培根系吸收或是直接添加给予水稻根端线粒体,都能使DPH与线粒体结合后的荧光强度减弱,使荧光偏振度和微粘度降低,增加水稻根端线粒体膜流动性。     

膜融合剂对脂质体及血影膜膜流动性的影响

本文用荧光探针ANS,DPH与A研究了几种膜融合剂对脂质体与血影膜流动性的影响.蔗糖使PS脂质体的脂双层流动性降低,探针越是在极性区流动性越小,说明蔗糖主要作用于脂双层的极性区;蔗糖也使血影膜流动性降低,此作用是可逆的.油酸甘油脂(GMO)使PS脂质体的流动性增加,且越是在疏水区内部,流动性增加得越大,说明GMO主要是作用于脂双层的非极性区:GMO也使血影膜流动性增加,此作用是不可逆的.二甲亚砜(DMSO)对血影膜的作用,两种不同荧光探针不一样,对DPH的作用出现双相让,低浓度与高浓度的作用结果分别与蔗糖和GMO的作用一致.     

Localization of the lipid probe 1,6-diphenyl-1,3,5 hexatriene (DPH) in intact cells by fluorescence microscopy

The lipophilic fluorescent probe DPH, generally used to determine the microviscosity of membrane lipids, has been visualized in intact cells by fluorescence microscopy. All lipid material of the cells, including cytoplasmic lipid droplets, was found to be labelled with DPH. The fluorescent signal from inside the cells contributes to a large extent to the total cell fluorescence. The results indicate that fluorescence polarization data obtained from intact cells, using DPH as probe, give information on the total lipid material of the cells rather than exclusive information on microviscosity and fluidity of plasma membranes of these cells, as has been repeatedly suggested.     

抗生素对莱氏衣原体膜流动性和Mg~(2+)-ATPase活性的影响

本文以莱氏衣原体AIH089为材料,用DPH荧光偏振等技术研究红霉素和土霉素对莱氏衣原体膜流动性和Mg~(2+)-ATPase活性的影响,并用聚丙烯酰胺梯度凝胶电泳技术进一步分析膜蛋白的组成,发现红霉素和土霉素能使莱氏衣原体膜的流动性显著增加,使Mg~(2+)-ATPase活性显著降低。红霉素和土霉素对莱氏衣原体膜流动性和膜上Mg~(2+)-ATPase活性的影响与它们的抑菌能力有很好的相关性。     

Use of a FACS III for fluorescence depolarization with DPH

We have previously demonstrated age-related differences in human lymphocyte membrane fluidity, by use of steady-state polarization measurements on bulk cell suspensions with the fluorescence probe DPH. However, for exact analysis of the possible functional importance of these changes, single-cell measurements were deemed of interest. We have now used an analog division device to measure fluorescence depolarization "p" of DPH in real time with a FACS III flow cytometer. The measurements are reliable, as we have been able to confirm the differences in DPH "p" between monocytes and lymphocytes previously shown in bulk suspension and to demonstrate the expected differences in fluidity of lipid-modulated cells. We also found significant differences in DPH "p" between lymphocytes of young and elderly blood donors. Lymphocyte subsets did not differ in polarization values but did differ in fluorescence intensity with Th less than Ts less than B = NK cells.     

Membrane fluidity measured by fluorescence polarization using an EPICS V cell sorter

We have characterized the measurement of fluorescence polarization on single cells using an EPICS V cell sorter. A critical analysis is made of the balancing and calibration of the system. The system is highly linear for polarization measurements. Cellular membranes were labeled with 1,6-diphenyl-1,3,5-hexatriene (DPH) to measure membrane fluidity. Fluorescence polarization histograms had coefficients of variation as low as 7%. Cells labeled with DPH after 24 hr incubation in medium lacking serum showed a significantly higher fluorescence polarization than cells in medium containing serum. The fluorescence polarization measured at 15 degrees C was 0.311 compared to 0.270 at 25 degrees C for cells labeled with DPH, verifying that temperature affects the membrane fluidity as measured by flow cytometry.     

呼吸链底物和抑制剂对线粒体内膜流动性的影响

用DPH和ANS标记大鼠肝线粒体内膜,以稳态荧光偏振法,研究了呼吸链底物和抑制剂对内膜流动性的影响。1.苹果酸+谷氨酸、琥珀酸分别为底物,均能引起内膜流动性增加。2.琥珀酸对含心磷脂的脂质体的膜流动性无影响。3.在鱼藤酮存在的条件下,苹果酸+谷氨酸对内膜流动性的增加作用消失,但琥珀酸的作用仍然存在。有氰化钾时则琥珀酸的作用消失。4.不论外加底物存在与否,鱼藤酮使内膜的流动性下降,而氰化钾则使之增加。抗霉素A亦可使内膜的流动性增加。上述结果表明:线粒体内膜流动性与其功能密切相关。电子沿呼吸链传递使线粒体内膜流动性增加,这种变化可能与呼吸链成分的氧化还原态有关。     

Alteration of membrane lipid biophysical properties and resistance of human lung adenocarcinoma A_(549) cells to cisplatin

Alterations of membrane lipid biophysical properties of sensitive A549 and resistant A549/DDP cells to the Cis-dichlorodiammine platinum (Cisplatin) were performed by measurements of fluorescence and flow cytometry approaches using fluorescence dyes of DPH, N-AS and Mero-cyanine 540 (MC 540) respectively. Fatty acids of membrane lipid of the two cell lines were analyzed by gas chromatography. The results indicated clearly that fluorescence polarization (P) of the DPH probe is 0.169 for the sensitive A549 cell and 0.194 for the resistant A549/DDP cells. Statistical analysis showed significant difference between the two cell lines. The polarizations of 2-AS and 7-AS which reflect the fluidity of surface and middle of lipid bilayer are 0.134 and 0.144 for the sensitive A549 cells as well as 0.171 and 0.178 for the resistant A549/DDP cells respectively, but there is no significant difference of the polarization of 12-AS between the two cell lines. This shows that alterations of the membrane fluidity of both     

Comparative study on fluorescent probes distributed in human erythrocytes and platelets

Important cellular functions, such as rheological properties of cells are presumably related to the membrane lipid fluidity which may be approached by the use of fluorescence polarization method. However, biological membranes represent very heterogeneous media and the knowledge of the fluidity of membrane compartments requires the use of different probes. Two fluorescent probes, DPH and its cationic derivative, TMA-DPH, have been employed to probe the lipid fluidity of human platelets and red cell membranes. The results show that the informations given by DPH and TMA-DPH can present important differences, suggesting that DPH and TMA-DPH are localized in different regions of cell membranes. In an attempt to investigate relations between lipid fluidity and rheological properties of red cells, the behavior of probes was studied in a "Couette" viscometer with a device for studying the emissive properties of probes when red cell membranes are under shear conditions.     

Resolution of plasma membrane lipid fluidity in intact cells labelled with diphenylhexatriene

The partitioning of fluorescence probes into intracellular organelles poses a major problem when fluorescence methods are applied to evaluate the fluidity properties of cell plasma membranes with intact cells. This work describes a method for resolution of fluidity parameters of the plasma membrane in intact cells labelled with the fluorescence polarization probe 1,6-diphenyl-1,3,5-hexatriene (DPH). The method is based on selective quenching, by nonradiative energy transfer, of the fluorescence emitted from the plasma membrane after tagging the cell with a suitable membrane impermeable electron acceptor. Such selective quenching is obtained by chemical binding of 2,4,6-trinitrobenzene sulfonate (TNBS), or by incorporation of $\text{N-}\text{bixinoyl}$ glucosamine (BGA) to DPH-labelled cells. The procedures for determination of lipid fluidity in plasma membranes of intact cells by this method are simple and straightforward.