Micropipette Aspiration‐Based Assessment of Single Channel Water Permeability

Measurements of the unitary hydraulic conductivity of membrane channels, p_f, may be hampered by difficulties in producing sufficient quantities of purified and reconstituted proteins. Low yield expression, the purely empiric choice of detergents, as well as protein aggregation and misfolding during reconstitution may result in an average of less than one reconstituted channel per large unilamellar vesicle. This limits their applicability for p_f measurements, independent of whether light scattering or fluorescence quenching of encapsulated dyes is monitored. Here the micropipette aspiration technique is adopted because its superb sensitivity allows resolving p_f values for one order of magnitude smaller protein densities in sphingomyelin and cholesterol rich giant unilamellar vesicles (GUVs). Protein density is derived from intensity fluctuations that fluorescently labeled channels in the aspirated GUV induce by diffusing through the diffraction limited spot. A perfusion system minimizes unstirred layers in the immediate membrane vicinity as demonstrated by the distribution of both encapsulated and extravesicular aqueous dyes. p_f amounted to 2.4 ± 0.1 × 10^?13 cm³ s^?1 for aquaporin‐1 that served as a test case. The new assay paves the way for directly monitoring the effect that interaction of aquaporins with other proteins or inhibitors may have on p_f on a single sample.     

Epoxy-Slide Embedment of Cytochemically Stained Tissues and Cultured Cells for Light and Electron Microscopy

A new method is described for embedding stained tissue sections, cells, cultured cells or organ cultures in a special polyethylene mold to form epoxy microscope slides (cost-a-slides). Cast-a-slides in which biological specimens are embedded may be examined by light microscopy and individual optimally stained cells or tissue areas selected for examination by various modes of electron microscopy or X-ray microanalysis. Cultured cells or organs can be grown, fixed, stained and embedded in epoxy in the same cast-a-slide mold. The cast-a-slides can be stored conveniently in the same manner as glass microscopy slides.     

Examination of Drosophila Larval Tracheal Terminal Cells by Light Microscopy

Cell shape is critical for cell function. However, despite the importance of cell morphology, little is known about how individual cells generate specific shapes. Drosophila tracheal terminal cells have become a powerful genetic model to identify and elucidate the roles of genes required for generating cellular morphologies. Terminal cells are a component of a branched tubular network, the tracheal system that functions to supply oxygen to internal tissues. Terminal cells are an excellent model for investigating questions of cell shape as they possess two distinct cellular architectures. First, terminal cells have an elaborate branched morphology, similar to complex neurons; second, terminal cell branches are formed as thin tubes and contain a membrane-bound intracellular lumen. Quantitative analysis of terminal cell branch number, branch organization and individual branch shape, can be used to provide information about the role of specific genetic mechanisms in the making of a branched cell. Analysis of tube formation in these cells can reveal conserved mechanisms of tubulogenesis common to other tubular networks, such as the vertebrate vasculature. Here we describe techniques that can be used to rapidly fix, image, and analyze both branching patterns and tube formation in terminal cells within Drosophila larvae. These techniques can be used to analyze terminal cells in wild-type and mutant animals, or genetic mosaics. Because of the high efficiency of this protocol, it is also well suited for genetic, RNAi-based, or drug screens in the Drosophila tracheal system.     

蚕豆保卫细胞质膜水通道蛋白的鉴定及其在气孔运动中的作用

水通道或水通道蛋白是水分运动的主要通道.以RD28 cDNA和RD28抗体为探针证明了蚕豆(Vicia fabaL.)保卫细胞中存在水通道蛋白,并以气孔运动为指标,结合抗体和抑制剂处理证明水通道蛋白是水分运动的主要通道.研究表明编码质膜水通道蛋白的RD28转录体在叶片保卫细胞、叶肉细胞和维管束中高表达,尤以保卫细胞中最多;荧光免疫染色和Confocal显微镜观察表明,RD28抗体反应主要位于保卫细胞质膜.进一步采用RD28抗体和水通道蛋白抑制剂--HgCl2 (25μmol/L)处理可抑制壳梭孢素(FC)、光照诱导的气孔开放和原生质体体积膨胀以及ABA诱导的气孔关闭,但这种抑制作用可以被水通道抑制剂的逆转剂β-巯基乙醇(ME)逆转.表明蚕豆保卫细胞中存在水通道蛋白并参与蚕豆保卫细胞的运动过程.     

Gangliosides are Transported from the Plasma Membrane to Intralysosomal Membranes as Revealed by Immuno-Electron Microscopy

A biotin-labeled derivative of the ganglioside GM1 (biotin-GM1) was used to study its transport along the endocytic pathway of cultured fibroblasts by immuno-electron microscopy. Using electron dense endocytic tracers we could demonstrate that late endosomes and lysosomes of these cells are long living organelles with a high content of internal membranes. Our studies show that during endocytosis the biotin-GM1 was transported to these intraendosomal and intralysosomal membranes. These observations support the hypothesis that glycosphingolipids (GSL) are preferentially degraded in intralysosomal vesicles.     

Freezing Behavior of Intra- and Extracellular Water of Cultured Green Cells of Lavender as Measured by NMR

Three new proteins which inhibit protein synthesis in rabbit reticulocyte lysates were isolated from an extract of sponge gourd (Luffa cylindricd) seeds by chromatography on a AF-Blue Toyopearl column followed by FPLC with a Mono S column. These three protein-synthesis inhibitory proteins (PSIs) have molecular masses of 19kDa, 15kDa, and 9kDa, and were designated 19K-PSI, 15K-PSI, and 9K-PSI, respectively. Although the 19K-PSI had no effect on protein synthesis in HeLa cells, its inhibitory activity on the cell-free protein synthesis was 340- and 83-fold stronger than those of ricin A-chain and luffin-a, respectively, probably due to hydrolyzing mRNA. The inhibitory activities of 15K-and 9K-PSIs on the cell-free protein synthesis were weaker than those of ricin A-chain and luffin-a. The 19K-PSI was a glycoprotein having an ordinary amino acid composition, three intramolecular disulfide bonds and a blocked N-terminal residue, while the 15K-PSI was extraordinarily rich in glycine and the 9K-PSI in arginine and glutamic acid (and/or glutamine). The amino acid composition of 19K-PSI was: Ser₂₇Glx₃Gly₁₆₄Tyr₇Lys₉His₆, and that of 9K-PSI was: Asx₃Glx₂₅Pro₂Gly₅Lys₂His₂Arg₂₅Trp₃.     

Adenosinetriphosphatase and 5-Nucleotidase Activities in the Plasma Membrane of Liver Cells as Revealed by Electron Microscopy

The sites of reaction product resulting from ATPase and 5-nucleotidase activities remaining in parenchymatous cells of osmium-fixed rat liver were studied by electron microscopy of thin sections. These indicate that both ATPase and 5-nucleotidase activities are localized in the plasma membrane where it folds to form the microvilli of the bile canaliculus, and that 5-nucleotidase activity is also present in the microvilli at the sinusoidal aspects of the cells. It is suggested that these enzymes, particularly ATPase, may play a role in molecular transport or in some kind of membrane activity at the cell surface. Of special interest is the apparent differential localization of these enzymes at the absorptive and secretory regions of the plasma membrane of the cell. It may be of interest to study changes in these enzyme localizations in pathologic states, as a sign of changed cell function. Some of the difficulties in the interpretation of enzyme reaction products seen in electron micrographs are discussed.     

Characteristics of Hg- and Zn-sensitive Water Channels in the Plasma Membrane of Chara Cells*

Hydraulic conductivity (L_p) of the plasma membrane of Chara corallina was inhibited by HgCl₂ maximally by about 95%. The inhibition was reversed by 2-mercaptoethanol, reconfirming the observation obtained by Henzler and Steudle (1995). The results suggest that osmotic water transport through Chara cells occurs mostly via mercury-sensitive water channels containing thiol groups. ZnCl₂ dissolved in APW (pH 5.6) also inhibited L_p by about 80% within 1–2 h, while ZnCl₂ dissolved in Hepes-Tris buffer (pH 7.4) inhibited it by about 90% within several minutes. Inhibition of L_p by ZnCl₂ was also reversed by 2-mercaptoethanol, suggesting that zinc acts also on thiol groups of water channel proteins. Cells from which tonoplast had been removed by ECTA were as sensitive to both HgCl₂ and ZnCl₂ (pH 7.4) as normal cells. This demonstrates that water channels sensitive to thiol reagents really exist in the plasma membrane. On the other hand, ZnCl₂ (pH 5.6) did not inhibit L_p of tonoplast-free cells. This may be accounted for by assuming first that Hg- and Zn-sensitive thiol groups of water channels may exist on the cytoplasmic side, and second that ZnCl₂ in acidic medium may exist in ionized species which can be chelated by EGTA after permeation. The polar water permeability, or the endoosmotic L_p being larger than the exoosmotic one, was not affected by lowering the rate of osmosis by decreasing the osmotic gradient for transcellular osmosis down to 0.02 M sorbitol. The polarity disappeared when osmotic water flow through water channels was completely inhibited by HgCl₂. Thus the polarity is assumed to be intrinsic to water channels in the plasma membrane.     

蚕豆保卫细胞质膜水通道蛋白的鉴定及其在气孔运动中的作用

水通道或水通道蛋白是水分运动的主要通道。以RD2 8cDNA和RD2 8抗体为探针证明了蚕豆 (ViciafabaL .)保卫细胞中存在水通道蛋白 ,并以气孔运动为指标 ,结合抗体和抑制剂处理证明水通道蛋白是水分运动的主要通道。研究表明编码质膜水通道蛋白的RD2 8转录体在叶片保卫细胞、叶肉细胞和维管束中高表达 ,尤以保卫细胞中最多 ;荧光免疫染色和Confocal显微镜观察表明 ,RD2 8抗体反应主要位于保卫细胞质膜。进一步采用RD2 8抗体和水通道蛋白抑制剂———HgCl2 (2 5 μmol L) 处理可抑制壳梭孢素 (FC)、光照诱导的气孔开放和原生质体体积膨胀以及ABA诱导的气孔关闭 ,但这种抑制作用可以被水通道抑制剂的逆转剂 β_巯基乙醇 (ME)逆转。表明蚕豆保卫细胞中存在水通道蛋白并参与蚕豆保卫细胞的运动过程。     

Effect of Water Deficit and Membrane Destruction on Water Diffusion in the Tissues of Maize Seedlings

We investigated diffusion of water in maize seedlings (Zea mays L. cv. Dnepropetrovskaya) following addition of polyethylene glycol (PEG) 6000 (osmotic potential –0.1 and –0.3 MPa) to the root medium by NMR method with pulsed gradient of magnetic field. Diffusion coefficients of different water phases in plant tissues (water of apoplast and vacuoles, water transported through the membranes) have been estimated from multicomponent decays of echo amplitude. Different signs of changes of water diffusion coefficients of fast and slow components of diffusional echo decay in roots and leaves under the influence of PEG-induced water deficits were shown. It has been supposed that under water deficit a sharing of water flows takes places through the different pathways (apoplastic, symplastic and transmembrane). In roots, 1-h water deficit increased the rate of fast diffusing water (water of apoplasm, vacuoles and, perhaps, water contained in intercellular endoplasm system), and decreased the rate of slowly diffusing water (water passing across the membranes). A long-term water deficit increased to a small extent the rate of water transmembrane transfer in root tissue. Leaf response to water stress was in the intensification of rate of transmembrane water transport that could be connected with the expression of water channels, and in the decrease of apoplastic water flow and flow along endoplasm. The possibility of estimation of plant tissue (membrane) integrity on the basis of diffusional data has been demonstrated.     

Alterations of Plasma Membrane Phospholipids in Cultured Lavandula vera Cells Different in Cryoprotection by a Cryoprotectant Treatment

In highly cryoprotectable Lavandula vera cells, selected bya repeated freeze-thaw procedure, the degree of fatty acid unsaturationof plasma membrane phospholipids increased after treatment withdimethylsulfoxide-glucose mixture at 0?C for 2 h. The degreeof fatty acid unsaturation, in particular in phosphatidylethanolamineand phosphatidic acid did not increase in the unselected originalcells which were less cryoprotected by such treatment. (Received May 12, 1989; Accepted November 13, 1989)     

Entry and Release of Poliovirus as Observed by Electron Microscopy of Cultured Cells

Cells of differing culture types were inoculated with poliovirus at 37 C, sampled at intervals during the replicative cycle, and examined in thin sections by electron microscopy. The earliest samples, taken at 2 and 5 min postinoculation, showed virus particles adjacent to the exterior of the plasma membrane and others that had apparently penetrated it directly; later samples showed fewer such particles or none. Particles lying in the peripheral cytoplasm frequently appeared swollen and distorted in shape. No sign of virus entry by a pinocytotic process was found at any time. At 3 hr, and subsequently during the replication cycle, particles of progeny virus appeared in the cytoplasm. They were found free in the cytoplasmic matrix, aligned along the elements of filamentous complexes, and enclosed within vesicles. Some of the vesicles were found to be open to the extracellular space, indicating a likely mechanism of virus release.     

Osmotic Water Permeability of Vacuolar and Plasma Membranes Isolated from Maize Roots

The method of stopped flow was used to follow the changes in light scattering by the vesicles of plasmalemma and tonoplast isolated from maize (Zea maysL.) roots and treated by osmotic pressure. In both membrane preparations, the rate of the process depended on the osmotic gradient and was described with the simple exponential function. The rate constants derived from these functions were the following: the coefficient of water permeability in the tonoplast (P= 165 ± 7 m/s) exceeded by an order of magnitude the corresponding index for plasmalemma (11 ± 2 m/s). The presence of HgCl₂(1.6 nmol/g membrane protein) decreased the tonoplast water permeability by 80%. Microviscosity studies of the hydrocarbon zone in the isolated membranes by using a fluorescent diphenylhexatriene probe demonstrated that the two membranes do not differ in the phase state of their lipid bilayer. The authors conclude that the observed difference in water permeability does not depend on the state of the lipid phase and probably reflects the dissimilar functional activity of plasmalemma and tonoplast aquaporins.     

水通道蛋白的生理功能 ——水通道基因敲除小鼠表型研究进展

水通道蛋白 (aquaporin, AQP) 是一族细胞膜上选择性高效转运水分子的特异孔道. 自从 Agre 等于 1992 年从红细胞膜发现第一个水通道蛋白 AQP1以来,有关水通道蛋白结构与功能的研究取得了迅速的、系列性的进展 . 已报道的哺乳动物 AQP 家族已有 11 个在蛋白质序列上有同源性成员 (AQP0~AQP10). AQP 在体内各系统组织中广泛表达,除了在与体液分泌和吸收密切相关的多种上皮和内皮细胞高表达外,在一些与体液转运无明显关系的组织细胞如红细胞、白细胞、脂肪细胞和骨骼肌细胞等处也有表达,提示 AQP 可能在多种器官生理和病理中发挥重要作用. 基因打靶技术是研究特定基因在体内生理功能的有力手段. 目前 AQP1、3、4、5 基因敲除和 AQP2 基因点突变的基因敲入小鼠模型 ( 模拟人类常染色体隐性遗传尿崩症 ) 已成功建立并广泛用于表型研究,在 AQP 水通道蛋白生理功能方面获得许多重要进展.     

On the Protection by Inorganic Phosphate of Calcium-Induced Membrane Permeability Transition

The role of inorganic phosphate as inhibitor of mitochondrial membrane permeability transition was studied. It is shown that in mitochondria containing a high phosphate concentration, i.e., 68 nmol/mg, Ca²⁺ did not activate the pore opening. Conversely, at lower levels of matrix phosphate, i.e., 38 nmol/mg, Ca²⁺ was able to induce subsequent pore opening. The inhibitory effect of phosphate was apparent in sucrose-based media, but it was not achieved in KCl media. The matrix free Ca²⁺ concentration and matrix pH were lowered by phosphate, but they were always higher in K⁺-media. In the absence of ADP, phosphate strengthened the inhibitory effect of cyclosporin A on carboxyatractyloside-induced Ca²⁺ efflux. Acetate was unable to replace phosphate in the induction of the aforementioned effects. It is concluded that phosphate preserves selective membrane permeability by diminishing the matrix free Ca²⁺ concentration.     

Differences in Elasticity of Vinculin-Deficient F9 Cells Measured by Magnetometry and Atomic Force Microscopy

We have investigated a mouse F9 embryonic carcinoma cell line, in which both vinculin genes were inactivated by homologous recombination, that exhibits defective adhesion and spreading [Collet al.(1995)Proc. Natl. Acad. Sci. USA92, 9161–9165]. Using a magnetometer and RGD-coated magnetic microbeads, we measured the local effect of loss and replacement of vinculin on mechanical force transfer across integrins. Vinculin-deficient F9Vin(−/−) cells showed a 21% difference in relative stiffness compared to wild-type cells. This was restored to near wild-type levels after transfection and constitutive expression of increasing amounts of vinculin into F9Vin(−/−) cells. In contrast, the transfection of vinculin constructs deficient in amino acids 1–288 (containing the talin- and α-actinin-binding site) or substituting tyrosine for phenylalanine (phosphorylation site, amino acid 822) in F9Vin(−/−) cells resulted in partial restoration of stiffness. Using atomic force microscopy to map the relative elasticity of entire F9 cells by 128 × 128 (n= 16,384) force scans, we observed a correlation with magnetometer measurements. These findings suggest that vinculin may promote cell adhesion and spreading by stabilizing focal adhesions and transferring mechanical stresses that drive cytoskeletal remodeling, thereby affecting the elastic properties of the cell.     

D-Glucose Transport in Cultured Cells of Neural Origin: The Membrane as Possible Control Point of Glucose Utilization

Abstract: The function of plasma membrane as control point of glucose metabolism has been studied in confluent monolayer of C1300 neuroblastoma (N2A) and glioma (C6) cells. In neuroblastoma, steady state intracellular glucose concentration reached the extracellular levels, while intracellular contents in C6 glioma cells remained very low. In C6 glial cells the amount of glycogen as source of energy was much higher than that found in C1300 neuroblastoma cells. Influx rates of D-glucose in C6 glioma cells were only half those found in neuroblastoma cells. During the influx period (0-40 s) the transport of glucose in these cells did not exceed the phosphorylation rate, whereas a steady, time-dependent increase in glucose content was observed in neuroblastoma cells. While glucose uptake in neuroblastoma cells seems to be regulated at the level of phosphorylating enzymes, the control point in C6 glioma is believed to be membrane transport.     

Comparative Study of Cultured Burkitt Tumor Cells by Immunofluorescence, Autoradiography, and Electron Microscopy

Cultured Burkitt cells were examined by immunofluorescence, autoradiography, and electron microscopy in an effort to identify the stainable cells with those harboring herpes-type virus particles. Immediately after a 2-hr pulse of (3)H-thymidine, from 30 to 60% of the cells revealed heavy nuclear labeling. In most cases the grains were evenly dispersed, but in about 3 to 5% the grains showed a focal distribution and occasionally they extended into the cytoplasm. Such nuclear foci were rarely seen at 8 hr after the pulse. When the analysis was restricted to preselected immunofluorescent cells, up to 80% showed label at 8 hr and cytoplasmic grains were prominent. To reduce cellular deoxyribonucleic acid (DNA) synthesis, cells were X-irradiated with 3,000 to 6,000 R, and the isotope pulse was applied 1, 4, or 7 days later. Whereas the total number of labeled cells decreased in roughly twofold steps at the respective intervals (from 40 to 10%), the incorporation of (3)H-thymidine into fluorescent cells was not affected by X irradiation. In each series, about 70% of the fluorescent cells contained label when they were examined at 24 and 48 hr after the pulse, whereas at 8 and 72 hr fewer were positive. At the earlier intervals, unlabeled fluorescent cells most likely represented cells which had completed viral DNA synthesis prior to the pulse; at the later intervals, unlabeled fluorescent cells were probably cells which commenced viral replication after the pulse. These data support the conclusion that the immunofluorescent cells are the ones which harbor virus, and also confirm the expectation that the virus is a DNA virus from a member of the herpes group. This conclusion was firmly established by sectioning and electron microscopic examination of individual fluorescent cells, all of which contained numerous virus particles, whereas the nonstained cells prepared in a similar manner were free of them.