Effect of hypertonic solutions on electrical activity of the isolated frog muscle spindle

Changes in electrical activity of the isolated frog muscle spindle were investigated in hypertonic solutions obtained by adding 400 mM sucrose, glucose, or glycerol to Ringer's solution. The spontaneous firing rate in hypertonic sucrose and glucose solutions increased at first (for 3–5 min) and then fell rapidly to zero; the receptor potential and evoked spike activity diminished under these conditions and disappeared. In the hypertonic solution with glycerol a similar effect was observed but, unlike in the first two media, in this case spike activity returned after its initial increase to the normal level; a second rise in the firing rate was then observed up to a steady value which was higher than normal. After rinsing out the hypertonic sucrose and glucose solutions with ordinary Ringer's solution the spontaneous and evoked activity gradually returned to normal with a small overshoot. During the rinsing out of the hypertonic glycerol solution a sharp and considerable rise in spontaneous activity was first observed, while the changes in frequency of the evoked activity were negligible. The spike activity then returned to normal. The observed changes in electrical activity of the muscle spindle in hypertonic media are attributed to deformation of the sensory terminals and intrafusal muscle fibers (in the glycerol medium), leading to depolarization of the receptor membrane.P. K. Anokhin Institute of Normal Physiology, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 8, No. 3, pp. 291–299, May–June, 1976.     

Removal of salt from a salt-induced protein crystal without cross-linking. Preliminary examination of "desalted" crystals of phosphoglucomutase by X-ray crystallography at low temperature.

A model procedure for removing salt from relatively fragile salt-induced protein crystals is proposed. The procedure is based on physical principles and is validated by using millimeter-size crystals of rabbit muscle phosphoglucomutase grown from a 2.1 M solution of ammonium sulfate. Three types of operations are included in the procedure: initial transfer to salt solutions of reduced concentration; transfer to the organic-rich phase of an equilibrium biphasic mixture obtained with aqueous solutions of polyoxyethylene and the salt; and addition of various replacement cosolutes in aqueous solutions of polyoxyethylene to reduce osmotic stress on the crystal as the remaining salt is removed. A critical feature of the overall procedure is maintenance of near equilibrium throughout by using a large number of steps involving small changes in solute concentration. The conditions used in the actual transfer were adjusted to eliminate the fracturing of crystals by visually distinguishing between two opposing types of fracture patterns: those produced by osmotic crushing as opposed to osmotic expansion. Basic requirements for a successful procedure with other protein crystals are a high permeability toward small solutes and a relatively slow dissolution rate at salt concentrations for which biphasic mixtures can be obtained. Desalted crystals of phosphoglucomutase have no visible fractures, are stable in the final solution for at least a week, and exhibit no noticeable change in the resolution of their X-ray diffraction pattern. In fact, desalted crystals can be rapidly cooled to 160 K, whereas untreated crystals are almost completely disordered by the same cooling procedure. The component of the desalting mixture whose presence is crucial to the success of the cooling process is polyoxyethylene, which apparently impedes the formation of ice within the protein crystal. Diffraction data obtained with an area-detector diffractometer did not differ significantly, either in terms of quality or resolution range, between crystals in 2.3 M ammonium sulfate at room temperature and crystals at 160 K in which ammonium sulfate had been replaced by glycine. The successful use of the following replacement solutes, instead of glycine, also is documented: sucrose, glycerol, and a low molecular weight poly(ethylene glycol) (PEG-400).     

Surface changes induced by osmotic stress and its influence on the glycerol permeability in lipid bilayers

The penetration rate of glycerol across lipid bilayers can be assayed dispersing liposomes filled with a 0.1 M glucose solution in an isotonic or a hypertonic solution of glycerol. The kinetic of glycerol permeation is found to be different in each of those cases. Liposomes dispersed above the phase transition temperature in hypertonic solutions show an increase in the surface polarization as measured by means of merocyanine 540. Under this condition, the permeation of glycerol shows a two-step kinetic which is indicative of a non-fickean diffusion process. In contrast, liposomes dispersed in isotonic solutions of the permeant show a fickean behavior. The changes in polarization of the membrane interface are ascribed to variations in the surface potential due to the osmotic collapse and the glycerol concentration in contact with the outer surface. The permeability of polar molecules can, in consequence, be considered as a function of the surface potential of the liposome which is congruent with previous data in literature reporting that water permeability increases as a function of the zeta potential of liposomes shrunken in hypertonic solutions.     

Effect of sugars-addition on the survival of vitrified bovine blastocysts produced in vitro

We investigated the effect of addition of sugars to a vitrification solution on the survival rate of bovine blastocysts produced in vitro. In vitro-matured (IVM) and in vitro-fertilized (IVF) bovine Day-6 to Day-8 bovine blastocysts were classified into 3 developmental stages: early blastocysts, blastocysts and expanded blastocysts. The blastocysts were cryopreserved in 1 of 3 vitrification solutions: 1) 25% glycerol25% ethylene glycol (GE); 2) 20% glycerol20% ethylene glycol3/4 M sucrose (GES); and 3) 20% glycerol20% ethylene glycol3/8 M sucrose3/8 M dextrose (GESD). The basic solution was Dulbecco's PBS supplemented with 20% of fetal calf serum. Embryos were exposed to each vitrification solution in 3 steps, and after loading into 0.25-ml straws, were plunged into liquid nitrogen. After warming in water bath at 20 degrees C, cryoprotectants were diluted in 1/2 M and 1/4 M sucrose each for 5 min. Equilibration and dilution procedure except warming were conducted at room temperature (23 to 27 degrees C). After dilution, the embryos were cultured in Ham's F10 medium0.1 mM beta-mercaptoethanol20% fetal calf serum. Survival rates of embryos at 48 h of incubation of each of the 3 developmental stages (early blastocysts, blastocysts and expanded blastocysts) exposed to the 3 types of the vitrification solutions (GE, GES and GESD) were 23.5, 33.3, 65.8% (early blastocysts, blastocysts and expanded blastocysts respectively) in GE, 55.6, 71.9, 90.5% in GES and 84.6, 83.3, 95.8% in GESD respectively. These results indicate that a mixture of 25% glycerol25% ethylene glycol is not suitable for vitrification of early bovine blastocysts; however, addition of sugars to the solution significantly (P<0.01) improved the survival rate of the vitrified blastocysts, independently of their stage of development.     

Bile salt micelle can sustain more cholesterol in the intermicellar aqueous phase than the maximal aqueous solubility

The intermicellar aqueous phase in equilibrium with micelle plays an important role in the uptake of sterol. To test the hypothesis whether cholesterol concentration in the intermicellar aqueous phase of a micellar solution is similar to its maximal aqueous solubility, cholesterol concentration in the intermicellar aqueous phase of a bile salt-cholesterol solution and maximal aqueous cholesterol solubility were quantitatively determined by capillary gas-liquid chromatography after filtration. Cholesterol concentration in the intermicellar aqueous phase increased linearly with cholesterol concentration in the micellar solution and reached 1.3 microM at its micellar solubility limit, while the maximal aqueous solubility of cholesterol was (1.2-1.4) x 10(-8) M. The intermicellar monomer concentration of taurocholate was 5.8 mM in which 26 x 10(-8) M cholesterol was solubilized. The results indicate the presence of a cholesterol concentration in the intermicellar aqueous phase that is significantly higher than its maximal aqueous solubility, which can be ascribed primarily to the presence of an intermicellar concentration of bile salt.     

Introduction and removal of cryoprotective agents with rabbit kidneys: assessment by transplantation

Rabbit kidneys were perfused with up to 4 M glycerol or propane-1,2-diol (propylene glycol, PG) in three vehicle solutions: one normokalemic and made hypertonic with mannitol (HP5), one hyperkalemic but without mannitol (HP6), and one hyperkalemic and with mannitol (HP7). Subsequent function was assessed by autotransplantation. Up to 3 M glycerol in HP5 was well tolerated but not in HP6 or HP7. Conversely, up to 3 M PG in HP7 was compatible with excellent post-transplant function, but the same concentration in HP5 was severely damaging. PG (4 M) in either solution was severely injurious and no kidneys survived perfusion with this concentration. Vascular resistance was well controlled by the vehicle solutions with mannitol, but it was generally higher during perfusion with the hyperkalemic HP7 compared with the normokalemic HP5. No kidneys perfused with 3 M solutions of either of the cryoprotective agents and cooled briefly to -6 degrees C without freezing had any post-transplant function, and neither did kidneys perfused with 3 M PG or 4 M glycerol tolerate slow cooling to -80 degrees C and warming. The need to optimize perfusate composition for the CPA being used is clear, and the dramatic increase in toxicity of PG when the concentration exceeds 3 M supports the suggestion that mixtures of PG and glycerol should be considered. The observation of damage at high subzero temperatures, before freezing has occurred, requires further detailed study.     

Isolation and composition of thick filaments from rabbit skeletal muscle

A method has been developed for the isolation of thick filaments from rabbit skeletal muscle. We found that the thick filaments of this muscle are readily dispersed in the presence of a relaxing medium if the M and Z-line structures are first extracted in a low-salt solvent system. Thick filaments were separated from thin filaments by zone sedimentation in a 10% to 30% glycerol density gradient. The isolated filaments are homogeneous in length (1.5 to 1.6 μm) and retain the physical characteristics of these structures observed in sectioned muscle. Gel electrophoresis of thick filaments in the presence of sodium dodecyl sulfate showed a band of C-protein as well as bands with mobilities characteristic of the heavy and light chains of myosin. No other protein species was detected in these experiments. Thus our results provide evidence against the presence of a special protein component which would serve as the core of the skeletal thick filament structure. From the relative stain density of bands, the molar ratio of C-protein to myosin was estimated to be 1 to 5.8.     

Comparative study of the effects of amphotericin B on the glucose metabolism in Saccharomyces cerevisiae in K(+)- and Na(+)-rich media.

In order to elucidate the effects of amphotericin B (AMB) on the glycolytic pathway, the metabolism of [1-13C]glucose in glucose-grown repressed Saccharomyces cerevisiae was studied. The cells were aerobically suspended in pyrophosphate solutions of high potassium concentration with or without 10(-6) M amphotericin B and measurements were made using 1H-, 13C-NMR spectroscopy and biochemical methods. The results were compared with those obtained under the same experimental conditions but in a medium rich in sodium salts containing the same antibiotic concentration. In general the presence of 10(-6) M AMB reduces the glucose consumption and the ethanol production while favouring the glycerol and trehalose formation. These effects are greatly reduced when a high K+ concentration was used. The AMB effects on the glucose consumption and the production of ethanol, glycerol and trehalose, observed in a suspension rich in Na+, can be fairly well explained by the leakage of K+ through AMB membrane channels. This outflux induces a substantial decrease in the activity of some K(+)-dependent enzymes, such as aldolase, phosphofructokinase and pyruvate kinase. The intensities of the glutamate C2 and C4 signals are higher with a suspension rich in Na+ than with a suspension rich in K+, suggesting that the Krebs cycle operates more effectively in a solution rich in Na+. In the absence of AMB, the passive diffusion of glycerol through the cell membrane is relatively slow and apparently depends on the ionic external medium: it is more efficient in solutions with a high K+ than with a high Na+ concentration. In the presence of 10(-6) M AMB, the glycerol C1,3 resonance drastically decreases at 20 min and then disappears in the noise. This rapid disappearance suggests that glycerol can easily pass through the pores arising from the interaction of AMB with the membrane sterols. However, the rate of pore formation is slow, independent of the external medium (Na+ or K+) and this process is not completed within 20 min.     

The cryoprotectant trehalose destabilises the bilayer organisation of Escherichia coli-derived membrane systems at elevated temperatures as determined by H and P-NMR

In this study, ²H and ³¹P-NMR techniques were used to study the effects of trehalose and glycerol on phase transitions and lipid acyl chain order of membrane systems derived from cells of E. coli unsaturated fatty acid auxotroph strain K1059, which was grown in the presence of [11,11-²H₂]-oleic acid or [11,11-²H₂]-elaidic acid. From an analysis of the temperature dependence of the quadrupolar splitting it could be concluded that neither 1 M trehalose or glycerol generally had any significant effect on the temperature of the lamellar gel to liquid-crystalline phase transition. In the case of the oleate-containing hydrated total lipid extract, glycerol but not trehalose caused a 5°C increase of this transition temperature. In general, both cryoprotectants induced an ordering of the acyl chains in the liquid-crystalline state. Trehalose and glycerol both decrease the bilayer to non-bilayer transition temperature of the hydrated lipid extract of oleate-grown cells by about 5°C, but only trehalose in addition induces an isotropic to hexagonal (H_II) phase transition. In the biological membranes, trehalose and not glycerol destabilised the lipid bilayer, and in the case of the E. coli spheroplasts, part of the induced non-bilayer structures is ascribed to a hexagonal (H_II) phase in analogy with the total lipids. Interestingly, 1 mM Mg²⁺ was a prerequisite for the destabilisation of the lipid bilayer. In the hydrated total lipid extract of E. coli grown on the more ordered elaidic acid, both transition temperatures were shifted about 20°C upwards compared with the oleate-containing lipid, but the effect of trehalose on the lipid phase behaviour was similar. The bilayer destabilising ability of trehalose might have implications for the possible protection of biological systems by (cryo-)protectants during dehydration, in that protection is unlikely to be caused by preventing the occurrence of polymorphic phase transitions.     

Effect of lecithin on in vitro and in vivo survival of in vitro produced bovine blastocysts after cryopreservation

The use of soybean lecithin in an glycerol-based solution for slow freezing of in vitro matured, fertilized and cultured (IVMFC) bovine embryos was examined. Embryos were developed in vitro in INRA Menezo's B2 medium supplemented with 10% fetal calf serum (FCS) on Vero cells monolayers. Day 7 blastocysts were frozen in a two-step protocol consisting of exposure to 5% glycerol and 9% glycerol containing 0.2 M sucrose in F1 medium + 20% FCS. Soybean lecithin was either added or not to the freezing solutions at a final concentration of 0.1% (w/v). In Experiment 1, blastocysts were equilibrated in cryoprotectant solutions without cooling. Cryoprotectant was diluted from embryos with 0.5 M and 0.2 M sucrose. The percentages of fully expanded and hatched blastocysts treated with or without lecithin after 24 and 48 h in culture were not significantly different (100 versus 100% and 93.3 versus 100%, respectively). In Experiment 2, the in vitro survival of frozen-thawed IVMFC blastocysts was compared when cryoprotectant solutions were either supplemented or not with lecithin. No significant effect of lecithin was found on the ability of frozen-thawed blastocysts to re-expand after 48 h in culture (65.6 and 54.2%, respectively). However, the post-thaw hatching rate of embryos cryopreserved in the presence of 0.1% lecithin was significantly higher after 72 h in culture (52 and 31.8%, respectively). In Experiment 3, the ability of frozen-thawed IVMFC blastocysts to establish pregnancy following single embryo transfer was determined. Transfers of 58 and 66 frozen-thawed embryos cryopreserved with or without lecithin resulted in 6 and 10 (10.3 and 15.1%, respectively) confirmed pregnancies at Day 60. Addition of lecithin to cryoprotectants did not improve the in vivo development rate of cryopreserved IVMFC bovine blastocysts.     

Extracellular Cyclic AMP—Adenosine Pathway in Isolated Adipocytes and Adipose Tissue

Objective: Our goal was to evaluate the presence and lipolytic impact of the extracellular cyclic adenosine monophosphate (AMP)–adenosine pathway in adipose tissue. Research Methods and Procedures: Sixteen miniature Yucatan swine (Sus scrofa) were used for these in vitro and in situ experiments. Four microdialysis probes were implanted into subcutaneous adipose tissue and perfused at 2 μL/min with Ringer's solution containing no addition, varying levels of cyclic AMP, 10 μM isoproterenol, or 10 μM isoproterenol plus 1 mM α,β‐methylene adenosine 5′‐diphosphate (AMPCP), a 5′‐nucleotidase inhibitor. Dialysate was assayed for AMP, adenosine, inosine, hypoxanthine, and glycerol. Freshly isolated adipocytes were incubated with buffer, 1 μM isoproterenol, or 1 μM isoproterenol plus 0.1 mM AMPCP, and extracellular levels of AMP, adenosine, inosine, hypoxanthine, and glycerol were measured. Results: Perfusion of adipose tissue with exogenous cyclic AMP caused a significant increase in AMP and adenosine appearance. Perfusion with AMPCP, in the presence or absence of isoproterenol, significantly increased the levels of AMP and glycerol, whereas it significantly reduced the level of adenosine and its metabolites. However, the AMPCP‐provoked increase in lipolysis observed in situ and in vitro was not temporally associated with a decrease in adenosine. Discussion: These data suggest the existence of a cyclic AMP—adenosine pathway in adipocytes and adipose tissue. The role of this pathway in the regulation of lipolysis remains to be clarified.     

Optimization of a vehicle solution for the introduction and removal of glycerol with rabbit kidneys

Previous studies with rabbit kidneys in our laboratories have used a plasma-like solution as the vehicle for the introduction and removal of glycerol. Other workers have usually employed high-potassium solutions. In this study we have assayed the function of rabbit renal cortical slices after incubation in a range of solutions, each of which contained 1 M glycerol, for 4 hr, followed by stepwise removal of the cryoprotectant. The functions measured were endogenous oxygen consumption, p-aminohippurate uptake, and the ability of the slices to accumulate potassium. Exposure to glycerol produced a considerable reduction of slice function, but, in the presence of glycerol, elevation of the potassium concentration was beneficial, whereas high concentrations of magnesium were detrimental. The optimum potassium concentration was 70-100 mM. Replacement of chloride by a range of anions of higher molecular weight was either without benefit (glycerophosphate) or detrimental (sulfate, citrate, and gluconate). Elevation of total osmolality from 300 to 400 mosmolal with glucose, mannitol, glycerophosphate, or Pipes reduced slice function, but when the same osmolality was achieved by raising the concentration of all the components of the solution in the same ratio, there was no significant loss of function. There was a weak optimum pH at ca. 7.0. These experiments led to the formulation of a bicarbonate-buffered perfusate containing 80 mM potassium and 17.5 g Haemaccel per liter, having a pH of 7.0 with 5% CO2 at 10 degrees C, and an osmolality of 400 mosmol/kg. This solution was used to preserve rabbit kidneys for 20 hr at 10 degrees C, by continuous perfusion, and was compared with our previous Haemaccel perfusate, HP5, which contained 4 mM K+, 111 mM mannitol, and had a pH of 7.4. The two solutions were equally effective.     

Influence of high concentration monovalent cations on the protein partitioning in polyethyleneglycol 1500-phosphate aqueous two-phase systems

The influence of chloride salts of Na+, Rb+ and Cs+ at concentrations from 0.15 to 1.2M was studied with bovine albumin, trypsin, ovoalbumin and lysozyme partitioning in an aqueous two-phase system formed by polyethyleneglycol 1500 and potassium phosphate at pH 7.4. Monovalent cations favoured the protein transfer to the polyethyleneglycol rich phase in the following order: Rb+ > Na+ > Cs+. Structure making cations as Na+ induced a poor loss of structured water, producing little diminution of the molar partial specific volume of polyethyleneglycol, while Rb+ and Cs+, structure breaking cations, induced a significant decrease in the specific volume of the polyethylene glycol. The increase of available solution free volume in the top phase favours the protein transfer to the polyethyleneglycol rich phase. Na+ and Rb+ induced a slight decrease in the alpha helix content of the proteins, while Cs+ increased the secondary structure for all the proteins. All the cations induced a decrease in the hydrophobic surface of the proteins, this effect was more significant in the presence of Cs+.     

Reduction of ferrylmyoglobin by the spin trap N-tert-butyl-alpha-phenylnitrone (PBN) in aqueous solution and during freezing

The hypervalent muscle pigment ferrylmyoglobin, formed by activation of metmyoglobin by hydrogen peroxide, was found to be reduced in a second-order reaction by N-tert-butyl-alpha-phenylnitrone (PBN, often used as a spin trap). In acidic aqueous solution at ambient temperature, the reduction is relatively slow (deltaH++ = 65+/-2kJ x mol(-1) and deltaS++ = -54+/-7 J x mol(-1). K(-1) for pH = 5.6), but phase transitions during freezing of the buffered solutions accelerates the reaction between ferrylmyoglobin and PBN. In these heterogenous systems at low temperature (but not when ice-formation was inhibited by glycerol), a PBN-derived radical intermediate was detected by ESR-spectroscopy, identified as a nitroxyl radical by a parallel nitrogen hyperfine coupling constant of 31.8 G, and from microwave power saturation behavior concluded not to be located in the heme-cleft of the protein. The acceleration of the reaction is most likely caused by a lowering of the pH during the freezing of the buffered solutions whereby ferrylmyoglobin becomes more oxidizing.     

Study of alcohol binding with serum albumin by NMR spectra of frozen aqueous solutions

Interaction of alcohols (methanol, glycerol, sorbitol) with human serum albumin (HSA) was studied by the use of NMR spectroscopy in frozen aqueous solutions. The amount of binding was shown to increase in the series methanol-glycerol-sorbitol, on this basis a suggestion is made that interaction of alcohols with HSA occurs due to the formation of hydrogen bonds in which the hydroxyl groups act as proton donors. It is found that the presence of albumin influences significantly the outcome of eutectics from a diluted methanol solution and glycerol solution, the temperature of eutectics decreases in case of methanol and increases in case of glycerol.     

Sucrose dilution of frozen mouse embryos: interaction of glycerol and sucrose concentrations

Several concentrations of glycerol for cryoprotection and several concentrations of sucrose for cryoprotectant dilution were examined with frozen, thawed and cultured mouse embryos. Four hundred and eighty late morulae to early blastocyst stage embryos were collected from 35 superovulated mice (B6D2 x Swiss Webster crosses back-crossed to Swiss Webster males) 3-1/2 days after breeding. The embryos were transferred through increasing concentrations of glycerol in modified Dulbecco(1)s phosphate buffered saline (MDPBS) to reach three final concentrations of 1.0 M, 1.4 M and 1.8 M. The embryos were loaded in 0.5-ml French straws appropriately filled with the cryoprotectant and sucrose solutions for each treatment. The straws were cooled with a standard fast-freezing program to -35 degrees C, then plunged into liquid nitrogen. After 58 days of storage at -196 degrees C the straws were thawed in a 37 degrees C water bath. Cryoprotectant dilution was accomplished with a standard step-wise procedure or in the straw with one of three concentrations of sucrose solution (0.25 M, 0.5 M, 1.0 M) in MDPBS. The embryos were then washed twice in MDPBS, twice in Whitten's media for embryo culture and then placed in microdrops of Whitten's media under paraffin oil in a water saturated 5% CO(2) in air atmosphere at 37 degrees C. Embryos were observed 24 hours later for development to the expanded blastocyst stage. The proportion of embryos developing in vitro from the three glycerol concentrations were not significantly different with standard step-wise dilution procedures for glycerol removal. After step-wise cryoprotectant removal, blastocyst expansion occurred in 49%, 44% and 52% of embryos frozen in 1.0 M, 1.4 M and 1.8 M glycerol, respectively. The 1.0 M sucrose dilution of 1.0 M glycerol showed the highest development (60.5%) in vitro but was not significantly different from any of these three step-wise diluted glycerol concentrations. The step-wise dilution of the three glycerol concentrations and dilution of the 1.0 M glycerol and 1.0 M sucrose were all superior (P < 0.01) to any other dilution procedure examined.     

Maximum in the stability of the amorphous state in the system water--glycerol--ethanol.

When the proportions of glycerol and ethanol vary for a given water concentration, the stability of the amorphous state of the whole solution in the system water-glycerol-ethanol passes through a maximum. This ternary system may then be much more interesting for cryoprotection than the system water-glycerol-DMSO. The phase transitions on rewarming at several rates after rapid or slow cooling, or after annealing, were observed by calorimetry and the various states between the transitions including the amorphous state were observed by X-ray diffraction. However, this system is much more complicated than the system water-glycerol-DMSO, due to the existence of two ethanol hydrates. Since, beyond a certain ethanol concentration, a first melting occurs before the devitrification, the stability of the amorphous state could no longer be defined by the critical warming rate. It was then defined by the amount of crystals formed on cooling, which was surprisingly reproducible in the present experiments for each cooling rate. The maximum in the stability occurs for rather low ethanol concentrations, which is of interest since ethanol is more toxic that glycerol. The concentration corresponding to the maximum depends on the cooling rate. It occurs at about 20% ($\text{w}\text{w}$) ethanol/(glycerol + ethanol) for the 50 and 55% ($\text{w}\text{w}$) water solutions. It is shifted to 40% ($\text{w}\text{w}$) ethanol/(glycerol + ethanol) for the 60% ($\text{w}\text{w}$) water solutions.     

The effects of the replacement of K+ by Tl+, Rb+, and NH+4 on the muscle membrane potential

The resting membrane potential (RMP) of mouse diaphragm muscle was measured in solutions containing several concentrations of K+ (0.4 to 5 mmol/l) or one of the following cations: Tl+ (0.4, 1 or 2 mmol/l), Rb+ (1, 2 or 5 mmol/l), or NH+4 (4, 8 or 16 mmol/l). In terms of controlling the RMP, the ratios of the efficacies were Tl+:K+:Rb+:NH+4 = 2.5:1.0:1.0:0.12. These ratios are similar to those of the selectivities of the voltage dependent K+ channel (delayed rectifier) in frog nerve and muscle, and this similarity suggests that the resting membrane potential may be controlled by this channel.     

Effects of low-molecular-weight fractions (LMWF) from milk, egg yolk, and seminal plasma on freezability of bovine spermatozoa

The effects of the dialyzable fractions from bovine seminal plasma, egg yolk, and milk and of two buffer systems (TEST and sodium citrate) on post-thaw sperm motility were studied. Each basic salt solution was used in the experimental design. These solutions were used as extender systems in combination with egg yolk and glycerol. After collection, semen samples were extended (1:20), cooled to 5 degrees C in 1.5 hr, and frozen in 0.5-cc French straws after 3 hr of equilibration. Post-thaw samples were assayed for percentage of motile cells immediately after thawing and after 4 hr of incubation at room temperature (22 degrees C). Egg yolk (25%) provided the same protection as did the combination of colloidal material present in the skim milk-yolk extenders. The use of TEST as a buffer provided significantly higher (P less than 0.01) sperm post-thaw motility than milk salts or Na citrate. Sperm survival in extenders containing high concentrations of seminal plasma and/or egg yolk salts was significantly lower (P less than 0.01). Spermatozoa frozen in the presence of 6% glycerol resulted in sperm motility significantly (P less than 0.05) higher than that of spermatozoa frozen with 3% glycerol. However, no difference was observed between these two concentrations when TEST solution was used.     

Ginsenoside Rb1 exerts antidiabetic action on C2C12 muscle cells by leptin receptor signaling pathway

Context: Ginsenoside Rb1 improves insulin sensitivity and glucose uptake in muscle cells via different signaling pathways; however, it is not clear that it has any effect on leptin signaling in skeletal muscle.

Objectives: The aim of this study was to investigate the effect of ginsenoside Rb1 on leptin receptors expression and main signaling pathways of leptin (STAT3, PI3 kinase and ERK kinase) in C2C12 skeletal muscle cells.

Materials and methods: C2C12 myotubes were incubated with various concentrations of Rb1 (0.1, 1 and 10?μM) for different incubation times (1–12?h). Leptin receptors expression and GLUT-4 translocation were analyzed using realtime PCR and western blot analyses, respectively. PI3 and ERK kinases were blocked using their specific inhibitors (wortmannin and PD98059) in the presence and absence of RB1 to determine the main signaling pathway related to leptin receptor activation in C2C12 cells.

Results: Rb1 could maximally stimulate both leptin receptors (OBRa and OBRb) mRNA and protein expression and phosphorylation of STAT3, PI3K and ERK2 in C2C12 myotubes at 10?μM for 3?h. Rb1 induced GLUT4 translocation was inhibited by the silencing of OBRb mRNA, demonstrated that glucose uptake was mediated via leptin receptor activation. GLUT4 recruitment to the cell surface induced by Rb1 was inhibited by wortmannin, an inhibitor of PI3K in combination with OBRb siRNA, but not by PD98059 an ERK2 kinase-1 inhibitor, indicating that GLUT4 translocation induced by Rb1 was associated with the leptin receptor upregulation and subsequent activation of PI3K.

Conclusions: Our results suggest that Rb1 promote translocation of GLUT4 by upregulation of leptin receptors and activation of PI3K.