Location of glycerol phosphate acyltransferase in the transverse plane of mitochondrial outer membrane of guinea pig lung

Incubation of guinea pig lung mitochondrial suspension in an isotonic low ionic strength buffer containing various proteolytic enzymes caused significant stimulation of the glycerophosphate acyltransferase activity. The maximal stimulation range between 20 and 105%, and the order was as follows: bromelain greater than chymotrypsin greater than pronase greater than trypsin greater than papain greater than nagarse. Under hypotonic conditions, over 85% of GAT was destroyed by all the proteolytic enzymes. Microsomal enzyme activity was consistently inhibited (greater than 95%) by exposure to any of these proteases even under isotonic conditions. These results suggest that GAT is located on the inner aspect of the mitochondrial outer membrane. Also, it is likely that a portion of this enzyme or that of a modulator is present in the outer side of the outer membrane and proteolysis of this component causes stimulation.     

Subcellular localization and partial characterization of bovine corpus luteum adenylate cyclase.

The subcellular localization of adenylate cyclase (ATP pyrophosphatelyase (cyclizing), EC 4.6.1.1) in bovine corpus luteum was studied using isotonic and hypotonic homogenization and fractionation conditions. All fractions prepared were assayed for adenylate cyclase, marker enzymes and DNA. Only plasma membrane marker enzyme, 5'-nucleotidase paralleled the distribution of adenylate cyclase under both isotonic and hypotonic conditions (conditionsoth isotonic and hypotonic conditions (coefficient of correlation = 0.95). Two main fractions prepared under hypotonic conditions were subfractionated by discontinuous sucrose gradient centrifugation. The highest amount of adenylate cyclase was found in a fraction having a density approximately equal to 1.13 g/cm3. The specific activity of this fraction was 4--6 times higher than that of the homogenate. The electron microscopic study of this fraction revealed the presence of a single type of particulate material consisting of small vesicles exhibiting a typical unit membrane structure. It is concluded that this adenylate cyclase is primarily localized in the plasma membranes. Basal adenylate cyclase activity of plasma membranes was stimulated 2--3 times by luteinizing hormone (10 mug/ml), 3--4 times by prostaglandin E2 (10 mug/ml), 4--6 times by NaF (0.01 M) and two times by methanol (0.2%).     

Role of potassium channels, the sodium-potassium pump and the cytoskeleton in the control of dog sperm volume

Response to osmotic shock is an important aspect of mammalian sperm physiology. In this study we recorded volume changes of dog spermatozoa at 39, 33, and 25 degrees C under isotonic conditions and following hypotonic shock. Cell volume measurements were performed electronically in saline solutions of 300 and 150 mOsmol kg(-1), and Percoll-washed preparations were compared with unwashed samples. The involvement of potassium channels in volume control was tested by treatment with quinine, while the involvement of the plasma membrane Na(+)-K+ pump was tested by treatment with ouabain. The role of the cytoskeleton was investigated by treatment with colchicine and cytochalasin D. The number of cell populations observed varied with temperature and tonicity. In both types of sperm preparations, between two and three populations were present under isotonic conditions at 25 degrees C whereas at 39 and 33 degrees C only one population was detected. Hypotonic stress at the higher temperatures caused the single population to swell, whereas at 25 degrees C it resulted in a population of cells whose modal volume was similar to that of the middle isotonic sub-population. Both quinine and the cytoskeletal inhibitors markedly increased swelling both under hypotonic conditions at 39 degrees C and under isotonic conditions at 25 degrees C. However, little or no effect of ouabain was observed. We conclude that in dog spermatozoa swelling in response to hypotonic conditions is minimised through the activity of potassium channels and the presence of an intact cytoskeletal network. Under isotonic conditions at 25 degrees C, a considerable proportion of the sperm population is already swollen; this swelling varies between individual males and appears to be due to lowered cytoskeletal and potassium channel activity.     

Stimulation of uterine ornithine decarboxylase in organ culture by decreasing osmolality: Possible relation to in vivo mechanisms

Ornithine decarboxylase (ODC) activity increases during many growth responses. Some cells and tissues in culture also exhibit elevated enzyme activity with decreasing osmolality of the culture medium. We have found that this also occurs with uterine tissue from ovariectomized rats. Organ culture incubation under hypotonic conditions caused maximal stimulation of uterine ODC activity at 4 hr. This stimulation was observed when either NaCl or sucrose was used to adjust the osmolality. Incubation under isotonic conditions also increased ODC activity relative to hypertonic conditions. This increase was similar in magnitude to that seen with unincubated uterine tissue from animals receiving systemic estradiol or intrauterine cholera toxin. Both estradiol and cholera toxin increase vascular permeability, and the resultant edema changes the extracellular microenvironment of the uterine cells. We suggest that this change somehow is mimicked by organ culture under hypotonic or isotonic conditions and is responsible for the stimulation of uterine ODC activity.     

H+ translocation in lysozyme-treated cells of the blue-green alga Plectonema boryanum. Difference between isotonically and hypotonically treated preparations and effects of divalent cations.

Lysozyme-treated cells of a blue-green alga, Plectonema boryanum, had an internal pH of 7.3+/-0.2 under isotonic and hypotonic conditions. This value was similar to that of untreated cells. The CCCP-induced biphasic H+ change seen in the isotonic cells was not observed in the hypotonically treated cells. The biphasic time course remained in the hypotonic preparation if CaCl2 or MgCl2 was added prior to the osmotic shock. It is suggested that the cells have two compartments of H+ concentration. The outer region may be more acidic than the inner region. A light-induced H+ efflux was observed under isotonic conditions and an influx of H+ under hypotonic conditions. The H+ influx was not observed when lysozyme-treated cells were incubated with CaCl2 or MgCl2 prior to the hypotonic treatment. Two types of effects of divalent cations, one on the rigidity of the outer membrane and another on the permeability characteristics of the inner photosynthetic membrane, are indicated. Rearrangement of the photosynthetic membranes and an apparent inversion of the H+ pump by hypotonic shock are also suggested.     

Viral and non-viral induced fusion of pronase-digested human erythrocyte ghosts.

Human erythrocyte ghosts but was able to fuse only iso-human erythrocyte ghosts. Iso- and hypo-human erythrocyte ghosts were incubated with the proteolytic enzyme pronase under isotonic (iso-human erythrocyte ghosts) or hypotonic (hypo-human erythrocyte ghosts) conditions. Gel electrophoresis and electron microscope (freeze-etching) studies revealed that most of the erythrocyte membrane polypeptides were hydrolyzed by pronase under hypotonic conditions. Sendai virus readily agglutinated both pronase-digested iso-human erythrocyte ghosts and hypo-human erythrocyte ghosts were fused by the non-viral fusogenic agent glyceromonooleate. Freeze-etching studies revealed that during fusion the membranes of pronase-digested human erythrocyte ghosts are intermixed.     

Utilization of membranous lipid substrates by membranous enzymes: activation of the latent sphingomyelinase of hen erythrocyte membrane

Previous studies demonstrated that hen erythrocytes have an inoperative, latent sphingomyelinase which is activated when the cells are hemolyzed in a hypotonic medium. Within minutes after hemolysis about 60-80% of the sphingomyelin (SPM) of the RBC "ghost" membrane was hydrolyzed. In this paper, expression of sphingomyelinase activity was further investigated. The percentage of total SPM hydrolyzed depended on the volume of the hypotonic hemolyzing buffer. Thus, suspending the erythrocytes in 4 vol of the buffer resulted in clumping of the hemolyzed "ghosts" and no hydrolysis of SPM. In comparison, suspension in 19 vol of the hypotonic buffer showed no clumping and sphingomyelinase activity was fully expressed. But centrifugation of the latter or, alternatively, addition of concanavalin A induced clumping and elimination of sphingomyelinase activity. Hen RBC could also be hemolyzed in an isotonic medium in the presence of Triton X-100, mellitin, halothane, and phospholipase C. Activation of the latent sphingomyelinase occurred at concentrations of these reagents which caused cell lysis. Hen RBC were dispersed in an isotonic medium containing glutaraldehyde (0.1%) or formaldehyde (10%). This rendered the cells resistant to hemolysis, even when subsequently dispersed in a hypotonic medium or water. But incubation of the "fixed" cells in a hypotonic or isotonic medium activated the enzyme, resulting in hydrolysis of 60% of the cellular SPM. In contrast, when glutaraldehyde was included in the hypotonic buffer, hemolysis occurred but sphingomyelinase activity was eliminated.     

Volume-Sensitive Chloride Channels are Involved in Maintenance of Basal Cell Volume in Human Acute Lymphoblastic Leukemia Cells

Chloride channels are expressed ubiquitously in different cells. However, the activation and roles of volume-activated chloride channels under normal isotonic conditions are not clarified, especially in lymphatic cells. In this study, the activation of basal and volume-activated chloride currents and their roles in maintenance of basal cell volume under isotonic conditions were investigated in human acute lymphoblastic leukemia Molt4 cells. The patch-clamp technique and time-lapse image analysis were employed to record whole-cell currents and cell volume changes. Under isotonic conditions, a basal chloride current was recorded. The current was weakly outward-rectified and volume-sensitive and was not inactivated obviously in the observation period. A 47% hypertonic bath solution and the chloride channel blockers NPPB and tamoxifen suppressed the current. Exposure of cells to 47% hypotonic bath solution activated further the basal current. The hypotonicity-activated current possessed properties similar to those of the basal current and was inhibited by NPPB, tamoxifen, ATP and hypertonic bath solution. Furthermore, extracellular hypotonic challenges swelled the cells and induced a regulatory volume decrease (RVD). Extracellular applications of NPPB, tamoxifen and ATP swelled the cells under isotonic conditions and inhibited the RVD induced by hypotonic cell swelling. The results suggest that some volume-activated chloride channels are activated under isotonic conditions, resulting in the appearance of the basal chloride current, which plays an important role in the maintenance of basal cell volume in lymphoblastic leukemia cells. Chloride channels can be activated further to induce a regulatory volume recovery when cells are swollen.     

Solubilization of porcine zonae pellucidae by trypsin and pronase

The porcine zona pellucida was dissolved with difficulty by trypsin in isotonic solution, whereas it was efficiently dissolved by pronase. A structural change of the zona was induced in hypotonic solution, resulting in acceleration of dissolution by these proteases. The solubilization rate of three families (PZP1-3) of zona protein by both enzymes was analyzed by HPLC. In hypotonic solution, PZP1 was solubilized first, followed by PZP2; and PZP3 was then finally released. In isotonic solution, PZP1 and PZP2 were also solubilized faster than PZP3, which was almost completely resistant to trypsin, showing that the solubilization of the zona depended on that of PZP3. Noticeably, high molecular weight products were produced as the proteolytic hydrolysis proceeded in PBS. Circular dichroic spectra and electrophoretograms of the tryptic hydrolysates showed that the zona may have a regular supramolecular structure.     

Protective effect of magnesium and potassium ions on the permeability of the external mitochondrial membrane

The data reported are fully consistent with the well-known observation that exogenous cytochrome c (cyto-c) molecules do not permeate through the outer membrane of mitochondria (MOM) incubated in isotonic medium (250 mM sucrose). Cyto-c is unable to accept electrons from the sulfite/cyto-c oxido-reductase (Sox) present in the intermembrane space, unless mitochondria are solubilized. Mitochondria incubated in a very high hypotonic medium (25 mM sucrose), in contrast to any expectation, continue to be not permeable to added cyto-c even if Sox and adenylate kinase are released into the medium. The succinate/exogenous cyto-c reductase activity, very low in isotonic medium, is greatly increased decreasing the osmolarity of the medium but in both cases remains insensitive to proteolysis by added trypsin. In hypotonic medium, magnesium and potassium ions have a protective effect on the release of enzymes and on the reactivity of cyto-c as electron acceptor from both sulfite and succinate; results which are consistent with the view that MOM preserves its identity and remains not permeable to exogenous cyto-c. This report strengthens the proposal, supported by previously published data that in isotonic medium the exogenous NADH/cyto-c electron transport system is catalyzed by intact mitochondria, not permeable to added cyto-c.     

Evidence for functional interaction of plasma membrane electron transport, voltage-dependent anion channel and volume-regulated anion channel in frog aorta

Frog aortic tissue exhibits plasma membrane electron transport (PMET) owing to its ability to reduce ferricyanide even in the presence of mitochondrial poisons, such as cyanide and azide. Exposure to hypotonic solution (108 mOsmol/kg H2O) enhanced the reduction of ferricyanide in excised aortic tissue of frog. Increment in ferricyanide reductase activity was also brought about by the presence of homocysteine (100 microM dissolved in isotonic frog Ringer solution), a redox active compound and a potent modulator of PMET. Two plasma-membrane-bound channels, the volume-regulated anion channel (VRAC) and the voltage-dependent anion channel (VDAC), are involved in the response to hypotonic stress. The presence of VRAC and VDAC antagonists-tamoxifen, glibenclamide, fluoxetine and verapamil, and 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS), respectively-inhibited this enhanced activity brought about by either hypotonic stress or homocysteine. The blockers do not affect the ferricyanide reductase activity under isotonic conditions. Taken together, these findings indicate a functional interaction of the three plasma membrane proteins, namely, ferricyanide reductase (PMET), VDAC and VRAC.     

In vitro splicing of SV40 late mRNA in isolated nuclei from CV-1 cells.

An in vitro splicing system utilizing isolated nuclei of SV40 infected cells has been developed. Nuclei were isolated from CV-1 cells at a late stage of SV40 infection after a pulse-labeling with 3H-uridine. In nuclei prepared under mild isotonic conditions, 19S viral coded RNA synthesized in vivo was converted in vitro into 16S mRNA. In contrast, the nuclei prepared with RSB, a hypotonic medium, showed a very low splicing activity only. Addition of a "nuclear extract" to these nuclei restored the activity almost to the original level. These results indicate that 1) 19S RNA is indeed a precursor to 16S mRNA 2) the splicing of 19S RNA into 16S RNA takes place in the nucleus, and 3) at least a part of the enzyme system required for splicing could be extracted from the nucleus. This in vitro system may be useful for the assay of the splicing enzyme(s).     

Erythrocyte hemolysis and shape changes induced by new lysine-derivate surfactants

The effects of new synthetic lysine-derived anionic surfactants on human and rat erythrocytes were studied. The surfactants were salts of Nalpha,Nepsilon-dioctanoyl lysine with different counterions: lysine (77KK), tris (trishydroxymethyl amminomethane) (77KT), sodium (77KS), and lithium (77KL). 77KK and 77KT showed a biphasic hemolytic behavior in the erythrocytes. The surfactants 77KS and 77KL showed concentration-dependent hemolysis with a CH50 of about 3.4 and 2.6 mmol/l, respectively. 77KK and 77KT induced protection against hypotonic hemolysis in rat erythrocytes at the concentration which showed the least hemolytic activity under isotonic conditions. With human erythrocytes, 77KT did not show biphasic behavior in isotonic medium, but under hypotonic conditions biphasic behavior was present. Changes in shape of the erythrocyte, from discocytic to stomatocytic were observed after incubation with the anionic surfactants studied. Such shape changes occurred progressively over time, with total alteration in shape occuring after about 20 min of incubation.     

Morphological alterations and cytoskeletal reorganization in opossum kidney (OK) cells during osmotic swelling and volume regulation

Cells from a variety of tissues regulate their volume when exposed to anisotonic conditions. After exposure of cells to hypotonic conditions, the rapid phase of cell swelling is followed by a slower phase of cell shrinkage towards the initial volume. The present study investigates morphological alterations of adherent and fully spread cells after exposure to hypotonic conditions and the reorganization of cytoskeletal components such as F-actin, actin-binding proteins, microtubules and intermediate-sized filaments. We used cells of a continuous epithelial cell line from the opossum kidney (OK cells), which were exposed to hypotonic conditions for a period of 60 min at 25° C. The osmolarity was reduced by 40% from 320 mosmol/l (isotonic conditions) to 192 mosmol/l (hypotonic conditions). The initial swelling after exposure of OK cells to hypotonic conditions caused enhanced ruffling membrane activity, formation of lamellipodia and an extended space between adjacent cells which was caused by a more rounded cell shape. Moreover, the height of cells located in the centre of cell clusters increased by 32±8% (mean value±SEM) as checked by morphometric analysis of the vertical distance between the apical and basolateral F-actin domain. Although the fluorescence intensity and organization of F-actin in a horizontal direction remained unaltered during cell swelling, we observed a loss of periodicity and irregular distribution of myosin aggregates and a partial rear-rangement of vimentin filaments in the form of short fragments. In all experiments the organization of microtubules was observed to be unaltered. The alterations described above were reversible during cell shrinkage towards the initial volume, i.e. at 60 min after exposure to hypotonic conditions cell morphology and cytoskeletal organization no longer differed from the corresponding controls which were kept under isotonic conditions for the whole experimental period. The results demonstrate that only certain intracellular cytoskeletal components are actively involved in cell swelling and regulatory volume decrease.     

渗透压对血管内皮细胞中NO合成酶活性的影响及其机制研究

目的：研究非等渗压浓度对血管内皮细胞NO合成酶活性的影响,并探索其发生机制。方法：使血管内皮细胞暴露于低渗（205mOsm)或高渗透压（410mOsm)培养液,用Griess法测定NO合成酶（NOS）活性,以Northern blot ting观测细胞iNOS和eNOS基因表达的变化。结果： 非等渗压浓度可使血管内皮细胞中NOS活性显著升高。细胞NOS活性变化具有明显的时间效应规律,低渗透压浓度效应产生的效应早于高渗透压浓度,且低渗透压浓度的影响较高渗透压浓度更为明显。Dexamethasone对这种非等渗透压诱导的NOS活性没有明显作用,给予cycloheximide,不影响非等渗压诱导的这种差异。Nothern blot分析表明：非等渗压浓度不诱导iNOS基因表达,而使eNOSmRNA表达增加。结论：非等渗透压浓度诱导血管内皮细胞NOS活性升高,eNOS基因表达增强是其主要机制之一。     

Optimum conditions for the oxidation of palmityl-carnitine by the mitochondria of rat brown adipose tissue.

The optimum conditions for maximum oxidation of palmityl-carnitine by mitochondria isolated from the brown adipose tissue of 10-day-old rats was studied. The findings were as follows: 1. Reduction of the sucrose osmolar concentration to below 100 mM activates the rate of palmityl-carnitine oxidation, the maximum effect being achieved with 25 mM sucrose. These hypotonic conditions lead to enlargement of the matrix compartment, but not to swelling of the whole mitochondria. The maximum respiration rate in 25 mM sucrose can be measured only with fresh mitochondria isolated less than 1 hour previously, which must be preincubated 5 minutes in hypotonic sucrose before adding palmityl-carnitine. 2. When inducing the maximum palmityl-carnitine oxidation rate in 100 mM KC1 medium the preincubation time must be prolonged to at least 8 minutes. The length of time for which the mitochondria are stored in isotonic sucrose at 0 degrees C does not affect the respiration level in the presence of K+ ions. 3. The optimum palmityl-carnitine concentration is the same for oxidation measured in hypotonic sucrose and in KC1 medium and ranges from 15 to 50 muM. 4. If the above conditions are observed, the maximum palmityl-carnitine respiration values in hypotonic sucrose and medium with K+ ions are the same, whereas in isotonic sucrose respiration is inhibited. The same applies to the oxidation of endogenous fatty acids by the carnitine route and to alpha-ketoglutarate respiration, while the oxidation of alpha-glycerolphosphate is not affected by the osmotic conditions and its respiration is the same in both hypotonic and isotonic sucrose media.     

Effect of osmotic shock on the viability, optical density and permeability of heated Escherichia coli cells

The object of this work was to study the effect of a short incubation in 0.01 M tris buffer, pH 7.0, with a different NaCl content (0-10%) on the viability, optic density and permeability of intact and heated at 52 degrees C Escherichia coli B/r cells. In contrast to the intact cells, the viability of the heated cells depended on osmotic pressure in the medium into which they were transferred after heating. The survival rate was highest when the cells were transferred into an isotonic buffer. In the case of hypotonic and hypertonic media, the survival rate of the cells decreased owing to the death of cells which were responsible for the formation of small colonies under the isotonic conditions. This was accompanied with a more intensive drop in the optic density of bacterial suspensions while their permeability increased (when the cells were transferred into the hypotonic conditions). The role of membranes in the processes of bacterial heat inactivation is discussed on the basis of the results obtained.     

Acute cholesterol depletion leads to net loss of the organic osmolyte taurine in Ehrlich Lettré tumor cells

In mammalian cells, the organic osmolyte taurine is accumulated by the Na-dependent taurine transporter TauT and released though the volume- and DIDS-sensitive organic anion channel. Incubating Ehrlich Lettré tumor cells with methyl-β-cyclodextrin (5 mM, 1 h) reduces the total cholesterol pool to 60 ± 5% of the control value. Electron spin resonance data indicate a concomitant disruption of cholesterol-rich micro-domains. Active taurine uptake, cellular taurine content, and cell volume are reduced by 50, 20 and 20% compared to control values, respectively, whereas the passive taurine release is increased 4.5-fold under isotonic conditions following cholesterol depletion. However, taurine release under isotonic conditions is insensitive to DIDS and inhibitors of the volume-regulated anion channel. Uptake and release of meAIB are similarly affected following cholesterol depletion. Kinetic analysis reveals that cholesterol depletion increases TauT’s affinity toward taurine but reduces its maximal transport capacity. Cholesterol depletion has no impact on TauT regulation by protein kinases A and C. Phospholipase A₂ activity, which is required for the activation of volume-sensitive organic anion channel (VSOAC), is increased under isotonic and hypotonic conditions following cholesterol depletion, whereas taurine release under hypotonic conditions is reduced following cholesterol depletion. Hence, acute cholesterol depletion of Ehrlich Lettré cells leads to reduced TauT and VSOAC activities and at the same time increases the release of organic osmolytes via a leak pathway different from the volume-sensitive pathways for amino acids and anions.     

Functional role of aquaglyceroporin 7 expression in the pancreatic beta-cell line BRIN-BD11

Both mouse and rat pancreatic islet β-cells were recently found to express aquaglyceroporin 7 (AQP7). In the present study, the expression and role of AQP7 in the function of BRIN-BD11 cells were investigated. AQP7 mRNA and protein were detected by RT-PCR and Western blot analysis, respectively. In an isoosmolar medium, the net uptake of [2-³H]glycerol displayed an exponential time course reaching an equilibrium plateau value close to its extracellular concentration. Within 2 min of incubation in a hypotonic medium (caused by a 50 mM decrease in NaCl concentration), the [2-³H]glycerol uptake averaged 143.2 ± 3.8% (n = 24; P < 0.001) of its control value in isotonic medium, declining thereafter consistently with previously demonstrated volume regulatory decrease. When isoosmolarity was restored by the addition of 100 mM urea to the hypotonic medium, [2-³H]glycerol uptake remained higher (112.1 ± 2.8%, n = 24; P < 0.001) than its matched control under isotonic conditions, indicating rapid entry of urea and water. Insulin release by BRIN-BD11 cells was 3 times higher in hypotonic than in isotonic medium. When glycerol (100 mM) or urea (100 mM) were incorporated in the hypotonic medium, the insulin release remained significantly higher than that found in the control isotonic medium, averaging respectively 120.2 ± 4.2 and 107.0 ± 3.8% of the paired value recorded in the hypotonic medium. These findings document the rapid entry of glycerol and urea in BRIN-BD11 cells, likely mediated by AQP7. J. Cell. Physiol. 221: 424–429, 2009. © 2009 Wiley-Liss, Inc.     

The Effect of Trypsin on the Pellicle of Euglena gracilis

SYNOPSIS. The effect of trypsin on the pellicle of Euglena gracilis has been studied. A simple apparatus which permits the incubation of a number of culture flasks under identical conditions of illumination is described. Cells of E. gracilis suspended in 0.01 M NH₄HCO₃ are rapidly lysed by trypsin. Lysis is prevented by 0.3 M sucrose, 0.3 M glucose, 0.3 M glycerol, 0.15 M KBr or 0.15 M NaCl. After treatment with trypsin in the presence of a protective solute the cells are still osmotically stable when resuspended in distilled water, indicating that free protoplasts are not liberated. These solutes do not protect isolated, empty pellicles against the action of trypsin. It is suggested that cells of E. gracilis are only susceptible to trypsin when they are swollen as a result of exposure to hypotonic media: that the resultant stretching of the pellicle permits lysis by allowing the enzyme to penetrate to sites which are normally hidden.