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     

DPH标记细胞膜的动力学与膜脂流动性的荧光偏振校正测量

用稳态荧光技术测得经过校正的荧光成分,由此算出用DPH标记的细胞膜的偏振度。方法是作荧光偏振值在随时间变化的曲线,将其外推至零标记时间求出该时间的荧光偏振值。用此法测定了艾氏腹水癌细胞的膜流动性。结果表明流动性比用整个细胞测得之值小,说明膜脂的有序程度和包装密度比胞浆中的脂大。实验结果和用三房空模型分析所得的理论值符合较好,提示荧光探剂的标记过程主要受分子扩散所控制。     

Alteration of membrane lipid biophysical properties and resistance of human lung adenocarcinoma A549 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 Merocyanine 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 cells were mainly located on the surface and middle of the lipid bilayer. In addition, the packing density of phospholipid molecules in the membrane of the two cell lines detected by MC540 probe indicated that lipid packing of A₅₄₉ cell membranes was looser than that of the A₅₄₉/DDP cells. And unsaturation degree of plasma membrane fatty acids of the A₅₄₉/DDP cells was also lower than that of A₅₄₉ cells. Taken together, it was proposed that the alteration of membrane lipid biophysical state may be involved in the resistance of A₅₄₉/DDP cells to cisplatin.     

Alteration of membrane lipid biophysical properties and resistance of human lung adenocarcinoma A549 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 Merocyanine 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 cells were mainly located on the surface and middle of the lipid bilayer. In addition, the packing density of phospholipid molecules in the membrane of the two cell lines detected by MC540 probe indicated that lipid packing of A₅₄₉ cell membranes was looser than that of the A₅₄₉/DDP cells. And unsaturation degree of plasma membrane fatty acids of the A₅₄₉/DDP cells was also lower than that of A₅₄₉ cells. Taken together, it was proposed that the alteration of membrane lipid biophysical state may be involved in the resistance of A₅₄₉/DDP cells to cisplatin.     

Ethinylestradiol administration selectively alters liver sinusoidal membrane lipid fluidity and protein composition

Administration of high-dose ethinylestradiol to rats decreases bile flow, Na,K-ATPase specific activity, and liver plasma membrane fluidity. By use of highly purified sinusoidal and bile canalicular membrane fractions, the effect of ethinylestradiol administration on the protein and lipid composition and fluidity of plasma membrane fractions was examined. In sinusoidal fractions, ethinylestradiol (EE) administration decreased Na,K-ATPase activity (32%) and increased activities of alkaline phosphatase (254%), Mg2+-ATPase (155%), and a 160-kDa polypeptide (10-fold). Steady-state and dynamic fluorescence polarization was used to study membrane lipid structure. Steady-state polarization of diphenylhexatriene (DPH) was significantly higher in canalicular compared to sinusoidal membrane fractions. Ethinylestradiol (5 mg/kg per day for 5 days) selectively increased sinusoidal polarization values. Similar changes were demonstrated with the probes 2- and 12-anthroyloxystearate. Time-resolved fluorescence polarization measurements indicated that EE administration for 5 days did not change DPH lifetime but increased the order component (r infinity) and decreased the rotation rate (R). However, 1 and 3 days after EE administration and with low doses (10-100 micrograms/kg per day for 5 days) the Na,K-ATPase, bile flow, and order component were altered, but the rotation rate was unchanged. Vesicles prepared from total sinusoidal membrane lipids of EE-treated rats, as well as phospholipid vesicles, demonstrated increased DPH polarization, as did intact plasma membrane fractions. Liver plasma membrane fractions showed no change in free cholesterol or cholesterol/phospholipid molar ratio, while esterified cholesterol content was increased with high-dose but not low-dose ethinylestradiol.(ABSTRACT TRUNCATED AT 250 WORDS)     

Interactions of pyrethroids with gramicidin-containing liposomal membranes

Fluorescence steady-state anisotropy and phase-modulation lifetime techniques have been utilized to study the interactions of pyrethroid compounds with fluid-phase phosphatidylcholine membranes containing the polypeptide gramicidin. This polypeptide is considered to be a model of hydrophobic regions of cellular integral membrane proteins. The pyrethroids disorder lipid packing in cellular membranes and gel-phase liposomes but do not disorder lipid packing in fluid-phase lipid (Stelzer, K.J. and Gordon, M.A. (1984) J. Immunopharmacol. 6, 381-410; (1985) Biochim. Biophys. Acta 812, 361-368) Irrespective of liposomal size, gramicidin incorporation resulted in a substantial increase in anisotropy of the fluorescent probe, 1,6-diphenyl-1,3,5-hexatriene (DPH), in fluid phase lipid. In the absence of gramicidin, permethrin and three other pyrethroids, allethrin, cypermethrin and fenpropathrin, increased DPH anisotropy. In these fluid phase systems, as the protein:lipid ratio was increased, the extent of the pyrethroid-mediated increase in fluorescence anisotropy diminished. Also, the pyrethroids shortened DPH fluorescence lifetimes. At high gramicidin:lipid ratios, permethrin substantially lowered anisotropy in the fluid phase lipid, relative to controls. The data suggest that pyrethroids disturb fluid-phase lipids which have been promoted to a relative state of order by proximity to an integral membrane protein. This type of order is one which is represented by DPH fluorescence anisotropy. A model based on these results is proposed to explain the effects of pyrethroids on lipid packing order in cellular membranes, as determined by DPH fluorescence anisotropy.     

Chronic ethanol increases liver plasma membrane fluidity

Purified plasma membrane fractions of cultured well-differentiated Reuber H35 hepatoma cells were studied after growth in the presence or absence of ethanol. Growth of cells in the presence of ethanol significantly increased plasma membrane 5'-nucleotidase activity but did not influence sodium-potassium adenosinetriphosphatase activity. Fluorescence polarization of lipophilic probes was used to study membrane lipid structure. Steady-state polarization of diphenylhexatriene (DPH), a probe of the hydrophobic core, was significantly lower in plasma membranes from cells grown in 80 mM ethanol for 3 weeks, compared to controls. Decreased polarization of DPH in plasma membranes was observed after 3-weeks growth of cells in as little as 1 mM ethanol. A 1-h exposure to 80 mM ethanol had no effect. Altered DPH polarization was due to a decrease in the order parameter of the probe. The rotational correlation time of the probe was virtually unchanged. Chronic ethanol treatment of cells did not alter the polarization of the membrane surface probe trimethylammoniodiphenylhexatriene. Plasma membranes from cells grown in 80 mM ethanol had decreased contents of both phospholipid and unesterified cholesterol, but the cholesterol to phospholipid ratio was unchanged. The percentages of sphingomyelin and phosphatidylserine in plasma membrane phospholipids were significantly decreased after ethanol treatment, while the phosphatidylcholine/sphingomyelin ratio was increased by 42%. Vesicles prepared from total plasma membrane lipids of ethanol-treated cells, as well as vesicles prepared from polar lipids alone, showed the same alterations in DPH polarization as did plasma membranes. The importance of ethanol metabolism in the observed plasma membrane changes was demonstrated in two ways.(ABSTRACT TRUNCATED AT 250 WORDS)     

Membrane effects of lysozyme amyloid fibrils

The influence of mature lysozyme fibrils on the structural and physical properties of model membranes composed of phosphatidylcholine (PC) and its mixtures with cardiolipin (CL) (10 mol%) and cholesterol (Chol) (30 mol%) was studied using fluorescent probes DPH, pyrene, Laurdan and MBA. Analysis of pyrene fluorescence spectra along with the measurements of DPH fluorescence anisotropy revealed that the structure of hydrocarbon chains region of lipid bilayer is not affected by the fibrillar aggregates of lysozyme. In contrast, probing the membrane effects by Laurdan and MBA showed the rise of both the generalized polarization of Laurdan and the MBA fluorescence anisotropy, suggesting that amyloid protein induces reduction of bilayer hydration and increase of lipid packing in the interfacial region of model membranes.     

渗透胁迫对小麦根质膜膜脂物理状态的影响

以两相法纯化的小麦(Triticum sativum L.)根质膜微囊为材料,研究了渗透胁迫下质膜物理状态的变化。结果表明,随着介质蔗糖浓度增加,质膜光散射值降低,二苯己三烯(DPH)荧光偏振值升高,MC540荧光强度增强,并且DPH长寿命组分的荧光寿命和平均寿命都缩短,暗示渗透胁迫使质膜微囊收缩变小,降低了质膜流动性和表面电荷密度,并且表明质膜的疏水性减弱。进一步实验发现,质膜内源色氨酸长寿命组分的寿命缩短,质膜H     

Membrane Disordering by Anesthetic Drugs: Relationship to Synaptosomal Sodium and Calcium Fluxes

The effects of membrane perturbants (ethanol, pentobarbital, chloroform, diethylether, phenytoin, cis-vaccenic acid methylester, and cis-vaccenoyl alcohol) on the lipid order of mouse brain synaptic plasma membranes (SPM) were tested by fluorescence polarization using 1,6-diphenyl-1,3,5-hexatriene (DPH) as a probe of the membrane core and 1-[4-(trimethylammonium)phenyl]-6-phenyl-1,3,5-hexatriene (TMA-DPH) as a probe of the membrane surface. The compounds decreased the fluorescence polarization of both probes, indicating that they disordered the membrane lipids. The decrease in polarization was, however, greater for DPH than for TMA-DPH, suggesting a greater effect on the membrane core than on the membrane surface. The voltage-dependent uptake of 24Na and 45Ca was studied in isolated mouse brain synaptosomes as a measure of membrane function. All of the compounds inhibited sodium influx, and their potencies for decreasing sodium uptake and fluorescence polarization of DPH were linearly correlated (r = 0.91). The relationship between changes in sodium influx and TMA-DPH polarization was less consistent (r = 0.66). Synaptosomal calcium uptake was inhibited by most, but not all, of the perturbants, but this inhibition was poorly correlated with changes in fluorescence polarization of DPH (r = 0.36) or TMA-DPH (r = 0.26). These results indicate that the function of synaptic sodium channels is correlated with lipid order in the hydrophobic core of the membrane and that the inhibitory effects of intoxicant-anesthetic drugs on neuronal sodium fluxes may be the result of their capacity to disorder these lipids. In contrast, the effects of drugs on voltage-dependent calcium channels were not clearly related to the capacity of these agents to disorder membrane lipids.     

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.     

渗透胁迫对小麦根质膜膜脂物理状态的影响

以两相法纯化的小麦（TriticumsativumL．）根质膜微囊为材料,研究了渗透胁迫下质膜物理状态的变化。结果表明,随着介质蔗糖浓度增加,质膜光散射值降低,二苯己三烯（DPH）荧光偏振值升高,MC540荧光强度增强,并且DPH长寿命组分的荧光寿命和平均寿命都缩短,暗示渗透胁迫使质膜微囊收缩变小,降低了质膜流动性和表面电荷密度,并且表明质膜的疏水性减弱。进一步实验发现,质膜内源色氨酸长寿命组分的寿命缩短,质膜H －AT－Pase活力降低,暗示膜蛋白的构象和功能发生了改变。结果表明,质膜膜脂物理状态改变可能是植物感受渗透胁迫的原初响应。     

汞化合物对红细胞膜作用的研究

本文研究了汞化合物对红细胞膜作用的光谱变化,观察了膜蛋白的荧光和磷光,膜上DPH的荧光偏振和ANS与红细胞膜的结合,以及他们与汞产生红血球溶血的关系。 在5P7.5缓冲液中红细胞膜蛋白的荧光随HgCl_2 Hg(AC)_2和PCMB的浓度加大而降低,表现为快和慢双相变化的过程,其淬灭作用的大小为HgCl_2>Hg(AC)_2PCMB,这是由于膜上形成了不发荧光的R—Trp—Hg~ 络合物以及能量从Trp转移到R—S—Hg~ 络合物上。HgCl_2对膜蛋白磷光的作用也是随汞离子浓度加大而降低,但磷光/荧光比则是增加的。标记红细胞膜的DPH偏振度是随HgCl_2浓度增加,表明膜流动性是随汞离子浓度加大而降低。标记膜上的ANS的荧光强度随HgCl_2和Hg(AC)_2的浓度加大而增加,这是由于ANS与膜的结合数随汞离子浓度加大而增加的缘故。上述各种变化是与汞离子对红血球溶血的作用一致的。     

Fluorescence polarization of six membrane probes in embryonal carcinoma cells after differentiation as measured on a FACS II cell sorter

Fluorescence polarization measurements on a FACS II cell sorter were compared with static measurements on a spectrofluorimeter using calibration solutions and Hoechst 33258-labeled cells. For the flow cytometric measurements on the FACS we used a pseudodepolarizer for normalization of the output of the two photomultipliers. The results showed that fluorescein and fluoresceinated bovine serum albumin (BSA) solutions gave identical values on both instruments. The mean value for fluorescence polarization of Hoechst 33258-labeled cells as measured on the FACS was the same as the value obtained with the spectrofluorimeter. Subsequently the fluorescence polarization of six different membrane probes was determined using differentiating embryonal carcinoma cells as a model system. Differentiation was induced by treatment of the cells with retinoic acid together with cyclic AMP. With diphenylhexatriene (DPH) the fluorescence polarization increased from I/I = 1.55 to 1.74 upon differentiation. With a charged analog of DPH (TMA-DPH) fluorescence polarization increased from I/I = 1.87 to 2.02. No appreciable changes in fluorescence polarization were observed in this cell system when anthroyloxysterate probes (12-AS, 9-AS, 6-AS, 2-AS) were used.     

Change of synaptic membrane lipid composition and fluidity by chronic administration of lithium

The effect of chronic administration of lithium salts on the lipid composition and physical properties of the synaptosomal plasma membrane was examined in rat brain. The effect of lithium treatment has been studied on the fluorescence polarization of synaptosomal plasma membrane and artificial lipid vesicles and on the lipid composition of the membranes. Fluorescence polarization of lipophilic probes was used to study membrane lipid structure. Steady-state polarization of 1,6-diphenyl-1,3,5-hexatriene (DPH), a probe of the hydrophobic core, was significantly lower in plasma membranes from lithium-treated animals. Altered DPH polarization was due to a decrease in the order parameter of the probe. The lithium-treatment also changed the fluorescence of 1-anilino-8-naphthalene sulfonate (ANS), a probe that binds to the polar head group of the phospholipids and to proteins on the membrane surface. Synaptic plasma membranes from treated rats presented no significant changes on the cholesterol-to-phospholipid ratio, although the phospholipid class distribution was altered and the membrane phospholipid unsaturation increased. In summary, the neural plasma membranes became disorder after chronic lithium administration at therapeutic levels. This structural change may be due to changes in plasma membrane phospholipid distribution and to the degree of unsaturation of phospholipid fatty acids.     

The lack of relationship between fluorescence polarization and lateral diffusion in biological membranes

An investigation has been carried out of the relationship between changes in the fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene (DPH) and concomittant changes in the lateral diffusion of proteins and lipid probes in membranes. Plasma membranes from lymphocytes and a CH1 mouse lymphoma line were treated with up to 70 mol% (relative to the total membrane phospholipid) of oleic or linoleic fatty acids. Under these conditions the fluorescence polarization of DPH decreased by between 8 and 15% which, in the framework of the microviscosity approach, suggests a membrane fluidity change of between 20 and 50%. The lateral diffusion coefficients of surface immunoglobin and the lipid probes 3,3′-dioctadecylindocarbocyanine and pyrene were also measured in these membranes using the fluorescence photobleaching recovery technique and the rate of pyrene excimer formation. The diffusion rates were found to be unaffected by the presence of free fatty acids. Hence despite large ‘microviscosity’ changes as reported by depolarization of DPH fluorescence, lateral diffusion coefficients are essentially unchanged. This finding is consistent with the idea that perturbing agents such as free fatty acids do not cause a general fluidization of the membrane but act locally to alter, for example, protein function. It is also consistent with the suggestion that lateral mobility of membrane proteins is not modulated by the lipid viscosity.     

感染流行性出血热病毒的正常人骨髓细胞膜脂和酶生物活性的研究

采用疏水性荧光探针ＤＰＨ（１,６,－苯基－１,３;５－已三烯）标记感染了流行性出血热病毒的正常人骨髓细胞的细胞膜,根据荧光偏振值的变化推导出膜脂流动性,同时通过细胞组化染色定量方法,测定细胞内酸性磷酸酶（ＡＣＰ）和琥珀酸脱氢酶（ＳＤＨ）的活性。动态观察１、６、２４、７２ｈ培养后的淋巴细胞、单核细胞、中性粒细胞,发现感染后细胞膜脂的流动性明显降低,并随培养时间的延长而明显,和正常对照组比较有显著性差异（Ｐ＜０．０５～０．０１）。通过组化染色和显微分光光度计单细胞扫描定量认为：感染细胞在培养开始的７２ｈ内ＡＣＰ、ＳＤＨ升高,１２０ｈ后明显下降,和正常相比亦有显著差异（Ｐ＜０．０５）,这与病毒侵犯和细胞机能的受损程度有关。     

Activation of human lymphocytes by concanavalin A or purified protein derivative results in no alteration of fluorescence polarization of lipid probes although the electrophoretic mobility of the cells is changed

Upon stimulation with either concanavalin A or the tuberculin antigen, purified protein derivative, human peripheral blood lymphocytes, purified on Ficoll-Hypaque, did not exhibit a concomitant lipid fluidity alteration as measured by fluorescence polarization (P) of the lipid probe, 1,6-diphenyl-1,3,5-hexatriene (DPH). This result was independent of the incubation period, ranging from 10 min to 72 h. However, a general reduction in polarization value, from P = 0.287 (maintained for up to 2 h of incubation) to P = 0.225 after 20 h was observed for both experimental and control samples. Moreover, fluorescence polarization studies of the nonpenetrating modified DPH cationic lipid probe, 1-[4′-trimethylaminophenyl]-6-phenyl-1,3,5-hexatriene (TMA-DPH), also failed to show any change in lipid fluidity subsequent to a 1–3 h incubation of lymphocytes with concanavalin A. Cell electrophoretic mobility, however, was altered (mean cell mobility increased by 10–15%) in a fast response to stimulation and was observed within several hours of in vitro application of concanavalin A and purified protein derivative. This initial response disappeared with further incubation at 37°C (>3 h) and was followed by a decline of cellular mobility of the concanavalin A-exposed cells after 48 and 72 h of incubation. The unstimulated control cells did not change in mobility as a function of incubation time. The slow decline in mean cell mobility of the experimental cells is believed to be associated with blastogenesis. It is concluded that neither blastogenic transformation nor short term membrane alterations associated with human lymphocyte activation lead to lipid fluidity changes as measured in steady state by the fluorescence polarization of both DPH and TMA-DPH.     

Changes in plasma membrane fluidity of corn (Zea mays L.) roots after Brij 58 treatment

Summary The detergent Brij 58 has been introduced to reverse plasma membrane (PM) vesicles from the right-side-out to the inside-out form. The aim of the present work was to investigate the effect of Brij 58 on the formation of an ATP-dependent proton gradient and on the fluidity of the lipid phase of PM vesicles. PMs of corn (Zea mays L.) roots were isolated by phase-partitioning. The fluidity of PMs was estimated by measurement of fluorescence polarization with 1-(4-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene (TMA-DPH) and 1,6-diphenyl-1,3,5-hexatriene (DPH). The PMs of corn roots were relatively rigid. The hydrophobic part of the lipid bilayer was more fluid than the hydrophilic part. After intercalation of Brij 58 into the lipid bilayer the membrane fluidity changed in a concentration-dependent manner. Treatment with the detergent Brij 58 increased the degree of fluorescence polarization for TMA-DPH, while it decreased it for DPH. This effect was saturated at a detergent-to-protein ratio of 1 4 for both fluorescence probes. Although the biophysical characteristics of the membrane were changed after Brij 58 treatment, the formation of ATP-dependent proton gradients could still be measured with those vesicles. The generation of an ATP-dependent proton gradient with Brij 58-treated PM vesicles suggests that the detergent treatment indeed turned the originally right-side-out vesicles to sealed inside-out vesicles. The limits of the effect caused by Brij 58 in the context of PM enzyme activities are discussed.Abbreviations Brij 58 polyoxyethylene 20 cetyl ether - DPH 1,6-diphenyl-1,3,5-hexatriene - HCF III hexacyanoferrate (III) - ISO inside-out - PM plasma membrane - RSO right-side-out - TMA-DPH 1-(4-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene     

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.