A calcium-stat method for the measurement of calcium transport rates in isolated sarcoplasmic reticulum vesicles

Calcium transport by isolated sarcoplasmic reticulum vesicles has been measured by means of a calcium-stat method, utilizing a calcium-specific electrode as sensor. Free calcium ion levels were maintained between 10^?7 and 10^?4m during assay, without the use of calcium buffering agents. The method may be used at temperatures between 5 and 40°C and in the pH range 5.0 to 8.5. Measured initial rates of ATP-dependent calcium transport at 10^?5m free calcium, 20°C, pH 7.2, and 100 μg sarcoplasmic reticulum protein per milliliter were between 1.5 and 2.3 μmol min^?1 mg^?1, with a coefficient of variation of 2%.     

Ca2+-ATPase from sarcoplasmic reticulum: acylphosphatase activity

Fractionation of sarcoplasmic reticulum vesicles from rabbit skeletal muscle was performed by solubilization of the vesicles in the presence of deoxycholate, followed by sucrose density gradient centrifugation and gel filtration chromatography. This procedure permitted the isolation of essentially pure Ca²⁺-ATPase; this enzyme showed ATPase as well as acylphosphatase activity, both activities being clearly enhanced by deoxycholate. The acylphosphatase activity of the purified Ca²⁺-ATPase was characterized with regard to some kinetic properties, such as pH, Mg²⁺, Ca²⁺, and deoxycholate dependence, and substrate affinity, determined in the presence of acetylphosphate, succinylphosphate, carbamylphosphate, and benzoylphosphate; in addition, the stability of both activities was checked in time-course experiments. The main similarities between the two activities, such as the Mg²⁺ requirement, the deoxycholate activation, and the pH dependence, together with the competitive inhibition of the benzoylphosphatase activity by ATP, the inhibition of both activities by tris(bathophenanthroline)-Fe²⁺, and the relief of this inhibitory effect by carbonylcyanide-4-trifluoromethoxyphenyl hydrazone support the hypothesis that acylphosphatase and ATPase activities of sarcoplasmic reticulum vesicles reside in the same active site of the enzyme. With regard to possible relationships between acylphosphatase activity of the purified Ca²⁺-ATPase and “soluble” acylphosphatase present in the 100,000g supernatant fraction, comparison of some kinetic and structural parameters indicate that these two activities are supported by quite different enzymes.     

Ethanol increases calcium permeability of heavy sarcoplasmic reticulum of skeletal muscle

The effects of ethanol on both Ca2+ pump activity and Ca2+-induced Ca2+ release in sarcoplasmic reticulum (SR) of rabbit skeletal muscle were studied. In concentrations of 0.1-1.0%, ethanol conspicuously enhanced Ca2+ release from the heavy fraction of SR, whereas a much smaller effect was noted in the light fraction. When Ca2+-induced Ca2+ release was inhibited by 10 mM Mg2+, the Ca2+ pump activities of both the heavy and light SR were the same; the activities were not significantly influenced by 1% ethanol. Ethanol itself did not release Ca2+ from the heavy SR. However, it appeared to render the heavy SR more permeable to Ca2+, thereby decreasing the amount of storable Ca2+. This action of ethanol may be related to the mechanism of its negative inotropic effect.     

Characterization of calmodulin-mediated phosphorylation of cardiac muscle sarcoplasmic reticulum

Sarcoplasmic reticulum, isolated from canine cardiac muscle, was phosphorylated in the presence of exogenous cAMP-dependent protein kinase or calmodulin. This phosphorylation has been shown previously to activate sarcoplasmic reticulum calcium uptake (LePeuch et al. (1979) Biochemistry18, 5150–5157). Calmodulin appeared to activate an endogenous protein kinase present in sarcoplasmic reticulum membranes. The incorporation of phosphate increased with time. However, once all the ATP was consumed, the level of phosphorylated protein started to decrease due to the action of an endogenous protein phosphatase. Dephosphorylation occurred even when the level of phosphorylated sarcoplasmic reticulum remained constant at high ATP concentrations. The phosphorylation of sarcoplasmic reticulum in the presence of calmodulin, increased as the pH was increased from pH 5.5 to 8.5. This phosphorylation was only inhibited by KCl concentrations greater than 100 mm. The apparent K_m of cAMP-dependent protein kinase for ATP was 5.2 ± 0.2 × 10^?5m, and of the calmodulin-dependent protein kinase for ATP was 3.67 ± 0.29 × 10^?5m. Phosphorylation was maximally activated by 5–10 mm MgCl₂; higher MgCl₂ concentrations inhibited this phosphorylation. Thus the calmodulin-dependent phosphorylation of cardiac sarcoplasmic reticulum could be maximally activated at sarcoplasmic concentrations of K⁺, Mg²⁺, and ATP. The calmodulindependent phosphorylation was half-maximally activated at Ca²⁺ concentrations that were significantly greater than those required to promote the formation of the sarcoplasmic reticulum Ca-activated ATPase phosphoprotein intermediate. Thus at sarcoplasmic Ca²⁺ concentrations that might be expected during systole, the sarcoplasmic reticulum calcium pump would be fully activated before any significant calmodul-independent sarcoplasmic reticulum phosphorylation occurred. However, under certain pathological conditions when the sarcoplasmic Ca²⁺ becomes elevated (e.g., in ischemia) the kinase could be activated so that the sarcoplasmic reticulum would be phosphorylated and calcium uptake augmented. Thus, the calmodulin-dependent protein kinase may only function when the heart needs to rescue itself from a possibly fatal calcium overload.     

The effect of phenothiazines on Ca2+ fluxes in skeletal muscle sarcoplasmic reticulum

The effect of phenothiazines (trifluoperazine, chlorpromazine, methochlorpromazine, and imipramine) on Ca2+ fluxes in light and heavy sarcoplasmic reticulum (SR) isolated from rabbit fast-twitch skeletal muscle was investigated. These drugs inhibited Ca2+ loading and (Ca2+,Mg2+)-ATPase activity, but had no effect on unidirectional Ca2+ efflux from vesicles loaded either actively or passively with Ca2+. Chlorpromazine, which is membrane permeable, and its quaternary analog, methochlorpromazine, which is membrane impermeable, gave identical results. It is concluded that (a) the enhancement of net Ca2+ release by phenothiazines is due to inhibition of Ca2+ influx mediated by the Ca2+ pump rather than to the opening of a Ca2+ channel; and (b) phenothiazines act at the outer (myoplasmic) face of the SR membrane.     

The binding of phloridzin to the isolated luminal membrane of the renal proximal tubule

The binding of [³H]ploridzin by isolated luminal membranes of the rabbit proximal tubule and by slices of rabbit kidney cortex was studied.Kinetic analyses of the relationship between the concentration of phloridizin in the incubation medium and the binding of phloridzin to the membrane indicated two distinct classes of receptors sites. One class, comprising high affinity sites, reached saturation at 20–25 μM phloridzin, had a K(phloridzin) of 8 μM, and 8·10⁺² nmoles interacted with 1 mg of brush border protein. The other class, comprising low affinity sites, had a K(phloridzin) of 2.5 mM, and the number of binding sites was 1.25 nmoles/mg Na⁺ was required for the binding of phloridzin at the high affinity sites. Na⁺ decreased the apparent K_i for phloridzin; the apparent V of binding was not altered. Binding at the low affinity sites was independent of Na⁺. Ca²⁺ was necessary for maximal binding at the high affinity sites. Binding of phloridzin at high affinity sites was more sensitive to N-ethylmalcimide and mersalyl than was binding at low affinity sites. Binding at high affinity sites, but not at low affinity sites, was temperature dependent.d-Glucose was a competitive inhibitor of the high affinity binding of phloridzin. The apparent K₁ was 1 mM. D-Glucoe inhibited non-competitively at the low affinity sites. l-Glucose had no influence on phloridzin binding. Phloretin was a competitive inhibitor of high affinity phloridzin binding with an apparent K_i of 16 μM. Phloretin inhibited low affinity bindings of phloridizin non-competitively. Binding of phloridzin at high affinity sites was completely reversible. Binding at low affinity sites was only partially reversed. Phloridzin bound at high affinity sites on the brush border was displaced by phloridzin and phloretin but not by d-glucose.The mechanism of the high affinity binding of phloridzin was distinguished from that of the initial interaction of d-glucose with the membrane. Binding of phloridzin required Na⁺, whereas the interaction of d-glucose with the membranes had a prominent Na⁺-independent component.Intact renal cells in cortical slices accumulated phloridzin. The uptake did not saturate, was Na⁺ independent, and was not competitively inhibited by sugars. These characteristics resemble those for the low affinity binding of phloridzin by isolated membranes. It is suggested that low affinity binding may represent an initial binding followed by uptake of the glycoside into membrane vesicles.     

Characterization of the ATPase activities of myosins isolated from the membrane and the cytoplasmic fractions of human platelets

Myosin was purified from the membrane fraction and the cytoplasm of human platelets, and the K+(EDTA)- and Ca2+-dependent ATPase activities were studied under various experimental conditions. The ATPase activity of the myosin from the membrane fraction was slightly lower than that of its cytoplasmic counterpart, regardless of the different assay conditions (pH, ionic strength, and temperature). Both myosins showed the same pH optima and a similar ionic strength dependence for the two ATPase activities measured. In addition, they exhibited the same substrate specificity using ATP, CTP, and GTP as substrates. The activation energy of the Ca2+-dependent ATPase activity was essentially the same for the two myosins, while the activation energy of the K+(EDTA)-dependent ATPase activity of the membrane myosin was higher than that of the cytoplasmic myosin. The ATPase activity of the membrane myosin was found to be more sensitive to freezing and thawing than the cytoplasmic myosin. The alkylation of the thiol groups by N-ethylmaleimide or N-iodoacetyl-N-(5-sulfo-1-naphtyl)ethylenediamine, and the trinitrophenylation of the lysyl residues by 2,4,6-trinitrobenzenesulfonate caused a significant decrease in the K+(EDTA)-dependent ATPase activity of the two myosins. However, the membrane myosin was much less affected than the cytoplasmic myosin. Actin induced inhibition of the K+ (EDTA) ATPase of both myosins, and much smaller quantities of actin were needed to inhibit the cytoplasmic myosin ATPase compared to quantities needed to inhibit the myosin ATPase from the membrane fraction. This indicates that the membrane myosin has a lower affinity toward actin. The observed variations in the ATPase activity of the myosins isolated from the membrane and the cytoplasm fractions of human platelets may reflect differences in their respective physiological functions.     

Binding of S-adenosylhomocysteine to various domains of the plasma membrane and to the endoplasmic reticulum from rat liver: Relation between binding and phospholipid methyltransferase activity

S-Adenosylhomocysteine (AdoHcy) binding to various membrane fractions of rat liver was determined at pH 7.4, using an oil centrifugation technique. The highest binding activity was found in the heavy microsomal (M-H) fraction enriched in endoplasmic reticulum, but high binding activity was also observed in the light microsomal fractions enriched in blood sinusoidal membranes (M-L fraction), and the heavy nuclear fraction (N-H fraction) containing the contiguous area. A substantial portion of AdoHcy binding activity in the M-L fraction may be ascribed to contamination of this fraction with endoplasmic reticulum, as indicated by the distribution of NADPH cytochrome c reductase activity. Binding activity was low in the light nuclear (N-L) fraction corresponding to the bile canaliculi. Phospholipid methyltransferase activity was determined in the same membrane fractions under similar conditions (pH 7.4), and in the absence and presence of added phospholipids. The distribution of the enzyme activity was dependent on the presence of exogenous phospholipids, and grossly similar to AdoHcy binding, the highest activities being observed in the M-H and the M-L fractions. The N-H fraction, rich in AdoHcy-binding activity, demonstrated, however, a very low phospholipid methyltransferase activity. It is concluded that AdoHcy-binding activity is not confined to the plasma membranes, and a major fraction of the binding activity resides on membranes derived from the endoplasmic reticulum. Also, the present results add to previous data suggesting that phospholipid methyltransferase does not totally account for the AdoHcy-binding sites on rat liver membranes.     

Attempts to induce asymmetrical reconstitution of the sarcoplasmic reticulum calcium transporting system

The main purpose of this work was to explore the conditions allowing the most efficient reconstitution of the sarcoplasmic reticulum calcium transporting system, displaying the same morphology as in the corresponding native membranes. The method used was based on the centrifugation of the solubilized-in-Triton X-100 Ca²⁺-stimulated adenosine triphosphatase through a sucrose gradient containing Tween 80 and preformed small lipid vesicles. The morphology of the reconstituted material was followed by freeze-fracture electron microscopy. The results presented in this paper show that, under appropriate experimental conditions, a large part of the reconstituted material appears to be very similar to the native sarcoplasmic reticulum.     

Purification of sarcoplasmic reticulum vesicles through their loading with calcium phosphate

A technique of purification of sarcoplasmic reticulum was devised through selective loading of the vesicular material with calcium phosphate. In presence of amount of disposable calcium lower than the maximum accumulation capacity of the total vesicular population, we have defined conditions of loading which allow the selection by centrifugation. The results described in this work show that about 30% of the starting material can be isolated as a vesicular population homogenous on the stand of the amount of accumulated cation. The purification is achieved by the removal of calcium by dissociation of the precipitate. Freeze-fracture electron microscopy studies show that the more active fraction when freed of calcium phosphate precipitate displays smooth convex (EF_s) and particulated concave (PF_p) fracture planes. It has been verified that the purification described in this work allows the removal of all the inactive material. The rate of calcium uptake of the selected preparation is about twice as large as that displayed by the starting material. The structural homogeneity of this material and the increase in the activity are good evidence for the purity of the selected sarcoplasmic reticulum vesicles.     

Dipeptide metabolism in the isolated perfused rat kidney

Renal handling of glycyl-proline was studied in the isolated perfused rat kidney. Glycyl-proline disappeared from the perfusate as a function of time. The dipeptide was freely filtered at the glomerulus but only 6% of the filtered load was excreted in the urine as the intact peptide. More than 90% of the filtered dipeptide was reabsorbed as the intact peptide and/or its hydrolytic products. Non-filtration mechanisms were also involved to a significant extent in the clearance of the peptide. Hydrolysis at intratubular, intracellular and peritubular sites all contribute to the disappearance of the dipeptide from the perfusate, though the relative contributions of each mechanism are not known. Significant metabolic conversions, especially the conversion of glycine to serine, were also observed during perfusion.     

Insulinotropic effect of the tumor promoter teleocidin in isolated pancreatic islets

A tumor promoter teleocidin induced insulin secretion from isolated pancreatic islets in a concentration-dependent manner. The teleocidin-induced secretion was inhibited by p-bromophenacyl bromide, nordihydroguaiaretic acid, 3-amino-1-(3-trifluoromethylphenyl)-2-pyrazoline and 2,3,5-trimethyl-6-(12-hydroxy-5,10-dodecadiynyl)-1,4-benzoquinone, but not by indomethacin. Insulinotropic concentrations of teleocidin stimulated 6-keto-prostaglandin F1 alpha release from pancreatic islets. These results suggest that phospholipase A2 activation and lipoxygenase product(s) are involved in the mechanism of teleocidin-induced insulin secretion.     

The onset of activation responsiveness during maturation coincides with the formation of the cortical endoplasmic reticulum in oocytes of Xenopus laevis

Immature, Stage VI oocytes of Xenopus laevis fail to activate (i.e., to propagate a cortical reaction and elevate a fertilization envelope) when pricked or exposed to A23187. We determined the times during maturation when immature oocytes treated with progesterone in vitro developed the capacity to respond to pricking and to ionophore. Responsiveness to ionophore first appears at about 3.5-4.5 hr after progesterone treatment; all oocytes are activated by 8-9 hr after progesterone. The capacity to respond to pricking appears about 1.0-1.5 hr after first signs of ionophore responsiveness. We examined the cortical endoplasmic reticulum (CER) by TEM to determine whether the morphology of this component could be correlated with the development of responsiveness during maturation. Fully mature oocytes exhibit an extensive CER that (1) forms a "shell" around most cortical granules, (2) appears to interconnect cortical granules, and (3) forms junctions with the plasma membrane. The CER-plasma membrane junctions are especially obvious in preparations of isolated cortex. The elaborate CER is not present in immature oocytes. It first appears during maturation of progesterone-treated oocytes at 4.5-5.0 hr, coincident with the time when maturing oocytes develop their responsiveness to ionophore and to pricking. This temporal correlation is consistent with the hypothesis that the CER is one of the components required for regulation of intracellular free calcium in oocytes.     

Chemical structures in a lignin-carbohydrate complex isolated from the bovine rumen

The soluble, lignin-carbohydrate complex (LCC) from the rumen fluid of steers fed a diet of pure spear grass (Heteropogon contortus) has been purified by gel filtration. The purified LCC contained 7.4% of carbohydrate which, on hydrolysis, gave d-glucose, d-xylose, l-arabinose, l-rhamnose, and traces of d-galactose and d-mannose. The structure of the LCC was examined by methylation analysis, using g.l.c.-m.s. for the unequivocal classification of the sugar derivatives. d-Glucose, d-xylose, and l-rhamnose were shown to be glycosidically linked to lignin. Some of the d-glucosyl residues carry other (1→4)-linked d-glucose units, and some of the d-xylosyl residues bear other (1→4)-linked d-xylose units and (1→3)-linked l-arabinofuranosyl groups. The major carbohydrate component is a single d-glucopyranosyl group. The LCC was subjected to various chemical treatments in an investigation of the chemical nature of the bonding between lignin and the carbohydrates. d-Glucose could be enzymically hydrolyzed from the LCC, but only with a very high concentration of β-d-glucosidase. The presence of lignin in rumen LCC has been confirmed by nitrobenzene oxidation, vanillin and syringaldehyde being identified by g.l.c.-m.s. as oxidation products from both the original spear grass and the LCC.     

Improvement of the anoxia-induced mitochondrial dysfunction by membrane modulation

The mitochondrial dysfunction induced by anoxia in vitro was improved with chlorpromazine, cepharanthine, bromophenacyl bromide, and mepacrine without affecting phospholipid or adenine nucleotide metabolisms. The drugs inhibited lipid peroxidation by Fe²⁺, mitochondrial disruption by Ca²⁺, and membrane perturbation by lysolecithin, and retained the activity to control H⁺ permeability across mitochondrial membranes. The drugs appeared to preserve the functions by acting to suppress the development of membrane deterioration which may have resided in the deenergization of mitochondria in the absence of oxygen.     

Identification of vitelline membrane proteins in Drosophila melanogaster

In Drosophila melanogaster, proteins involved in vitelline membrane production are secreted by ovarian follicle cells during stages 9 and 10 of oogenesis. We have used SDS-PAGE and two-dimensional electrophoresis to identify six major size classes of radiolabeled components in purified vitelline membrane preparations. Analyses of in vivo labeled proteins from egg chambers of different developmental stages and stage 10 follicle cells show that components of five of these size classes are synthesized by follicle cells during the period of vitelline membrane deposition. Immunological analysis of eggshell antigens utilizing complex antisera raised to purified eggshell fragments has confirmed the identity of components of three size classes.     

On the disposition of phospholipids in freshly isolated myelin sheath preparations from bovine brain

The extent of availability of the four major classes of phospholipids in freshly isolated bovine brain myelin has been studied using phospholipase C (Clostridium perfringens), phospholipase A (bee venom), sphingomyelase (Staphalococcus aureus) and trinitrobenzenesulphonate. The results have been compared with those of a previous study (Gwarsha et al., 1984). Taken together, the data suggest that 47–67% of the phosphatidylcholine, 45–66% of the ethanolamine-containing phosphoglycerides, 52–55% of the spingomyelin and 10–32% of the phosphatidylserine + phosphatidylinositol in the fresh myelin is available to these probes and hence may be located at the external surface of the membrane bilayer.     

A fast block to polyspermy in frogs mediated by changes in the membrane potential

The role of the egg membrane potential in the prevention of polyspermy in Rana pipiens was studied with intracellular microelectrodes and ion-substituted media. At fertilization, the egg membrane potential shifts from a resting value of ?28 to +8 mV in a single step of less than 1 sec. A second, slower shift reaches a maximum amplitude of +17 mV; the membrane potential is positive for a total of 21 min. When the membrane potential of unfertilized eggs exposed to sperm was held at +1 to +22 mV for 30 min by injecting current through a second intracellular electrode, the initiation of the first cleavage furrow was delayed about 20 min, suggesting that the eggs were not fertilized while the membrane potential was positive. Injection of a similar amount of current after fertilization did not delay cleavage. Furthermore, fertilization in ion-substituted media suggests a correlation between the maximum amplitude of the positive-going shift and the incidence of polyspermy. Up to 25% of eggs were polyspermic when inseminated in the presence of NaI, and the maximum amplitude was reduced to ?20 mV when eggs were fertilized in 40 mM NaI. In contrast, fertilization in 40 mM NaCl reduced the maximum amplitude only to +6 mV, and produced no polyspermy. In solutions of NaBr, intermediate effects on the membrane potential and polyspermy were seen. Comparable results were obtained with the toad, Bufo americanus. We conclude that the membrane potential shift prevents polyspermy.     

Acute effects of ethanol in the control of protein synthesis in isolated rat liver cells

The acute effect of ethanol on hepatic protein synthesis is a rather controversial issue. In view of the conflicting reports on this subject, the effect of ethanol on protein labeling from l-[³H]valine in isolated liver cells was studied under a variety of experimental conditions. When tracer doses of the isotope were utilized, ethanol consistently decreased the rate of protein labeling, regardless of the metabolic conditions of the cells. This inhibition was not prevented by doses of 4-methylpyrazole large enough to abolish all the characteristic metabolic effects of ethanol, and it was not related to perturbations on the rates of l-valine transport and/or proteolysis. When ethanol was tested in the presence of saturating doses of l-[³H]valine no effect on protein labeling was observed. These observations suggest that the ethanol effect in decreasing protein labelling from tracer doses of the radioactive precursor does not reflect variations in the rate of protein synthesis but reflects changes in the specific activity of the precursor. These changes probably are secondary to variations in the dimensions of the amino acid pool utilized for protein synthesis. Even though it showed a lack of effect when tested alone, in the presence of saturating doses of the radioactive precursor ethanol inhibited the stimulatory effects on protein synthesis mediated by glucose and several gluconeogenic substrates. This effect of ethanol was not prevented by inhibitors of alcohol dehydrogenase, indicating that a shift of the NAD system to a more reduced state is not the mediator of its action. It is suggested that ethanol probably acted by changing the steady-state levels of some common effector(s) generated from the metabolism of all these fuels or else by preventing the inactivation of a translational repressor.     

Structural variations and optional introns in the mitochondrial DNAs of Neurospora strains isolated from nature

Mitochondrial DNAs from ten wild-type Neurospora crassa, Neurospora intermedia, and Neurospora sitophila strains collected from different geographical areas were screened for structural variations by restriction enzyme analysis. The different mtDNAs show much greater structural diversity, both within and among species, than had been apparent from previous studies of mtDNA from laboratory N. crassa strains. The mtDNAs range in size from 60 to 73 kb, and both the smallest and largest mtDNAs are found in N. crassa strains. In addition, four strains contain intramitochondrial plasmid DNAs that do not hybridize with the standard mtDNA. All of the mtDNA species have a basically similar organization. A 25-kb region that includes the rRNA genes and most tRNA genes shows very strong conservation of restriction sites in all strains. The 2.3-kb intron found in the large rRNA gene in standard N. crassa mtDNAs is present in all strains examined, including N. intermedia and N. sitophila strains. The size differences between the different mtDNAs are due to insertions or deletions that occur outside of the rRNA-tRNA region. Restriction enzyme and heteroduplex mapping suggest that four of these insertions are optional introns in the gene encoding cytochrome oxidase subunit I. Mitochondrial DNAs from different wild-type strains contain zero, one, three, or four of these introns.