The non-esterified fatty acid (NEFA) content and phospholipid composition of mitochondria isolate... more The non-esterified fatty acid (NEFA) content and phospholipid composition of mitochondria isolated from the livers of Wistar rats infected with Fasciola hepatica were examined in relation to the aberrant mitochondrial respiration previously reported [Rule, Behm, and Bygrave (1989) Biochem. J. 260, 517-523]. At 2 weeks post-infection, elevated NEFA levels were associated with uncoupling of mitochondrial respiration that was reversible in vitro by the addition of BSA. State IV respiration rates showed a strong correlation with NEFA content. At 3 weeks post-infection, NEFA content had increased further and uncoupled mitochondria no longer showed any response to BSA. 31P-NMR analyses of cholate extracts of mitochondria from infected livers at 3 weeks post-infection revealed a marked loss of several major phospholipid species with a concomitant increase in catabolic products, particularly glycerophosphocholine and glycerophosphoethanolamine. Similar changes were observed in microsomal extracts. The NEFA content and phospholipid composition of mitochondria isolated from infected, athymic nude rats were not significantly different from uninfected, athymic rats. These findings suggest that uncoupling of liver mitochondria during infection with F. hepatica is the result of phospholipase activation mediated by the immune system of the host.
1. The mechanism of adenine nucleotide translocation in mitochondria isolated from rat liver was ... more 1. The mechanism of adenine nucleotide translocation in mitochondria isolated from rat liver was further examined by using the local anaesthetics procaine, butacaine, nupercaine and tetracaine as perturbators of lipid-protein interactions. Each of these compounds inhibited translocation of ADP and of ATP; butacaine was the most effective with 50% inhibition occurring at 30mum for 200mum-ATP and at 10mum for 200mum-ADP. The degree of inhibition by butacaine of both adenine nucleotides was dependent on the concentration of adenine nucleotide present; with low concentrations of adenine nucleotide, low concentrations of butacaine-stimulated translocation, but at high concentrations (greater than 50mum) low concentrations of butacaine inhibited translocation. Butacaine increased the affinity of the translocase for ATP to a value which approached that of ADP. 2. Higher concentrations of nupercaine and of tetracaine were required to inhibit translocation of both nucleotides; 50% inhibition of ATP translocation occurred at concentrations of 0.5mm and 0.8mm of these compounds respectively. The pattern of inhibition of ADP translocation by nupercaine and tetracaine was more complex than that of ATP; at very low concentrations (less than 250mum) inhibition ensued, followed by a return to almost original rates at 1mm. At higher concentrations inhibition of ADP translocation resulted. 3. That portion of ATP translocation stimulated by Ca(2+) was preferentially inhibited by each of the local anaesthetics tested. In contrast, inhibition by the anaesthetics of ADP translocation was prevented by low concentrations of Ca(2+). 4. The data provide further support for our hypothesis that lipid-protein interactions are important determinants in the activity of the adenine nucleotide translocase in mitochondria.
A perfused liver system incorporating a Ca2+-sensitive electrode was used to study the long-term ... more A perfused liver system incorporating a Ca2+-sensitive electrode was used to study the long-term effects of glucagon and cyclic AMP on the mobilization of Ca2+ induced by phenylephrine, vasopressin and angiotensin. At 1.3 mM extracellular Ca2+ the co-administration of glucagon (10 nM) or cyclic AMP (0.2 mM) and a Ca2+-mobilizing hormone led to a synergistic potentiation of Ca2+ uptake by the liver, to a degree which was dependent on the order of hormone administration. A maximum net amount of Ca2+ influx, corresponding to approx. 3800 nmol/g of liver (the maximum rate of influx was 400 nmol/min per g of liver), was induced when cyclic AMP or glucagon was administered about 4 min before vasopressin and angiotensin. These changes are over an order of magnitude greater than those induced by Ca2+-mobilizing hormones alone [Altin & Bygrave (1985) Biochem. J. 232, 911-917]. For a maximal response the influx of Ca2+ was transient and was essentially complete after about 20 min. Removal of the hormones was followed by a gradual efflux of Ca2+ from the liver over a period of 30-50 min; thereafter, a similar response could be obtained by a second administration of hormones. Dose-response measurements indicate that the potentiation of Ca2+ influx by glucagon occurs even at low (physiological) concentrations of the hormone. By comparison with phenylephrine, the stimulation of Ca2+ influx by vasopressin and angiotensin is more sensitive to low concentrations of glucagon and cyclic AMP, and can be correlated with a 20-50-fold increase in the calcium content of mitochondria. The reversible uptake of such large quantities of Ca2+ implicates the mitochondria in long-term cellular Ca2+ regulation.
1. Added Ca(2+) stimulates the translocation of ATP by isolated rat liver mitochondria. 2. The ap... more 1. Added Ca(2+) stimulates the translocation of ATP by isolated rat liver mitochondria. 2. The apparent K(m) for added Ca(2+) in stimulating the translocation of 200mum-ATP is approx. 160mum (75mum ;free' Ca(2+)). 3. The greatest stimulation of ATP translocation by Ca(2+) occurs at the lower concentrations of ATP. 4. Sr(2+) (and to a lesser extent Ba(2+)) can replace Ca(2+) whereas Mg(2+) and Mn(2+) have only little ability to stimulate ATP translocation. 5. Translocation of dATP is also stimulated by Ca(2+) whereas that of ADP is stimulated to only a relatively small degree. 6. Studies with metabolic inhibitors and uncouplers provide evidence that stimulation by Ca(2+) and by uncouplers is additive and that the mechanism of Ca(2+) stimulation does not seem to involve the high-energy intermediate of oxidative phosphorylation. 7. In the presence of Ca(2+), ATP is able to effectively compete with ADP for translocation. 8. Added K(+) further enhances the ability of Ca(2+) to stimulate ATP translocation. 9. These findings are discussed in relation to the potential involvement of Ca(2+) in modifying enzymic reactions involved in the regulation of cell metabolism.
Various external stimuli regulate cellu- lar Ca2+ fluxes. Information from these stimuli is trans... more Various external stimuli regulate cellu- lar Ca2+ fluxes. Information from these stimuli is transmitted to the cell interior by signal transducing systems that involve interactions between receptors, C-proteins, and enzymes that generate second mes- sengers. The possible mechanisms by which "cross- talk" within and between these second messenger- generating systems provides an intricate molecular avenue for fine modulation of intracellular
1. The subcellular distribution and maturation of Ruthenium Red-insensitive Ca(2+) transport acti... more 1. The subcellular distribution and maturation of Ruthenium Red-insensitive Ca(2+) transport activity were determined in livers of rats ranging in age from 3 days pre-term to 10 weeks of adult life and compared with those of glucose 6-phosphatase, 5'-nucleotidase and Ruthenium Red-sensitive Ca(2+) transport. Initial rates of Ruthenium Red-insensitive Ca(2+) transport were highest in those fractions enriched in glucose 6-phosphatase, i.e. the microsomal fraction; this fraction was devoid of Ruthenium Red-sensitive Ca(2+) transport activity. Although the heaviest fraction (nuclear) contained significant amounts of 5'-nucleotidase activity it was devoid of Ruthenium Red-insensitive Ca(2+) transport activity. 2. Foetal rat liver contain minimal amounts of Ruthenium Red-insensitive Ca(2+) transport activity, glucose 6-phosphatase and 5'-nucleotidase activities. These begin to be expressed concomitantly soon after birth; Ruthenium Red-insensitive Ca(2+) transport is maximal by...
Glucagon induces a slight Ca2+ efflux when administered to the perfused rat liver. However, the h... more Glucagon induces a slight Ca2+ efflux when administered to the perfused rat liver. However, the hormone promotes rapid and significant Ca2+ influx after the prior administration of 2, 5-di(t-butyl)-1,4-hydroquinone (BHQ), an agent that promotes Ca2+ release from the endoplasmic reticulum (ER). The concentrations of glucagon that promote Ca2+ influx are similar to those that promote glycogenolysis and gluconeogenesis in isolated hepatocytes. The permeable analogue of cAMP, but not that of cGMP, is able to duplicate the Ca2+-mobilizing effects of glucagon. The influx of Ca2+ into liver is blocked by Ni2+. Administration of sodium azide, an inhibitor of mitochondrial electron transport, also blocks the BHQ plus glucagon-induced Ca2+ influx and this is reversed when azide administration is terminated. The actions of azide are evident within 60 s after administration or withdrawal, and also occur when either oligomycin or fructose is co-administered; this provides evidence for an effect ...
To test whether high-density lipoproteins (HDL) could aid in the removal in vivo of potentially a... more To test whether high-density lipoproteins (HDL) could aid in the removal in vivo of potentially atherogenic oxidized lipids, we perfused rat liver in situ with buffer supplemented with isolated human HDL containing small amounts of cholesteryl linoleate hydro(pero)xides [CH18:2-O(O)H]. Perfusion resulted in the rapid removal of Ch18:2-O(O)H from HDL with a half-life (t1/2)of 11.4 min., faster than that of unoxidized cholesteryl linoleate, and dependent of the presence of the liver. In addition, the liver enhanced the reduction of Ch18:2-OOH associated with HDL remaining in the perfusate buffer. Perfusion resulted in the release of a hepatic activity that enhanced the reduction of HDL-associated CH18:2-OOH and was resistant to heat treatment. In contrast with the situation with HDL, low-density lipoprotein (LDL)-associated CH18:2-O(O)H were neither removed nor reduced by perfused rat liver within the time course studied, in support of a possible role for HDL in the detoxification of ...
The maturation of Ca(2+) transport in mitochondria isolated from rat liver was examined, from 5 d... more The maturation of Ca(2+) transport in mitochondria isolated from rat liver was examined, from 5 days before birth. The mitochondria used were isolated from liver homogenates by centrifugation at 22000g-min. Ca(2+) transport by mitochondria isolated from foetal liver is energy-dependent and Ruthenium Red-sensitive. The transmembrane pH gradient in these mitochondria is higher by about 7mV and the membrane potential lower by about 20mV than in adult mitochondria. The inclusion of 2mm-P(i) in the incubation medium enhances the protonmotive force by approx. 30mV. The rate of Ca(2+) influx in foetal mitochondria measured in buffered KCl plus succinate is low until about 2-3h after birth, when it increases to about 60% of adult values; approx. 24h later it has reached near-adult values. Higher rates of Ca(2+) influx are observed in the presence of 2mm-P(i); 3-5 days before birth the rates are about one-third of adult values and decline slightly as birth approaches. By 2-3h post partum the...
Repeated washing of rat liver mitochondria with sucrose medium removes all of the cytochrome P-45... more Repeated washing of rat liver mitochondria with sucrose medium removes all of the cytochrome P-450 while low but significant amounts of glucose 6-phosphatase and NADPH cytochrome c reductase are still retained. A t the same time monoamine oxidase and succinate cytochrome c reductase activities increase slightly. Cytochrome P-450 and glucose 6-phosphatase are completely retained by the microsomes even after five waahings with sucrose medium.
Tributyltin in the concentration range 1-4mum failed to stimulate Ca(2+) transport by Lucilia fli... more Tributyltin in the concentration range 1-4mum failed to stimulate Ca(2+) transport by Lucilia flight-muscle mitochondria in a medium containing KCl and respiratory substrate but devoid of P(i), despite its promotion of a rapid Cl(-)/OH(-) exchange. When 2mm-P(i) was present, concentrations of tributyltin greater than 1mum inhibited the initial rate of Ca(2+) transport and induced efflux of the ion from the mitochondria in Cl(-)- or NO(3) (-)-containing media. Lower concentrations had little effect. Oligomycin added at up to 10mug/mg of mitochondrial protein had no effect on Ca(2+) transport. By contrast, approx. 0.3mum-tributyltin completely inhibited respiration supported by alpha-glycerophosphate in either the presence or absence of added ADP. The data suggest that tributyltin can inhibit Ca(2+) transport in Lucilia flight-muscle mitochondria other than by facilitating a Cl(-)/OH(-) exchange or producing an oligomycin-like effect.
1. Seven fractions sedimenting at between 3000 and 120000g-min were prepared from a rat liver hom... more 1. Seven fractions sedimenting at between 3000 and 120000g-min were prepared from a rat liver homogenate by differential centrifugation in buffered iso-osmotic sucrose. The following measurements were carried out on each of these fractions: Ruthenium Red-sensitive Ca(2+) transport in the absence and in the presence of P(i) as well as in the presence of N-ethylmaleimide to prevent P(i) cycling, succinate-supported respiration in the absence and in the presence of ADP, the DeltaE and -59 DeltapH components of the protonmotive force, cytochrome oxidase, uncoupler-stimulated adenosine triphosphatase, alpha-glycerophosphate dehydrogenase, P(i) content and the effect on the ;resting' rate of respiration of repeated additions of a fixed Ca(2+) concentration. 2. Ca(2+) transport either in the presence or in the absence of added P(i) and in the presence of N-ethylmaleimide exhibits significantly higher rates in the fraction sedimenting at 8000g-min. By contrast, respiration in the presen...
1. The affinity of ATP-supported Ca 2+ accumulation for both Ca 2+ and ATP was determined from in... more 1. The affinity of ATP-supported Ca 2+ accumulation for both Ca 2+ and ATP was determined from initial rate studies employing isolated rat liver mitochondria. The K m values for "free" Ca 2+ and ATP were calculated to be of the order of 2/./M and 100//M, respectively. The K m for ATP decreased as the Ca 2 § concentration was increased.
Exposure of perfused rat livers to zymosan, arachidonic acid and phenylephrine, but not to latex ... more Exposure of perfused rat livers to zymosan, arachidonic acid and phenylephrine, but not to latex particles, induces pronounced oxygen uptake, glycogenolysis and Ca2+ mobilization. The oxygen uptake induced by arachidonic acid and by zymosan remains elevated even after the agents have been removed. NaN3 was found to be much more effective in inhibiting the oxygen uptake induced by phenylephrine than that induced by zymosan or arachidonic acid. Glucose release induced by zymosan and by arachidonic acid reaches a maximum after about 2 min and then declines very rapidly even while the agents are still being infused. In contrast, glucose release induced by phenylephrine remains elevated for the duration of the infusion. Ca2+ fluxes induced by arachidonic acid are similar to those induced by phenylephrine in that efflux occurs when the agent is administered and influx occurs only when the agent is removed. This contrasts to the Ca2+ flux changes induced by zymosan where both Ca2+ efflux and Ca2+ influx occur even while zymosan is still being infused. Glucose release induced by zymosan is inhibited by bromophenacylbromide and nordihydroguaiaretic acid, but not by indomethacin. Indomethacin, however inhibits the arachidonic-acid-induced glucose release which is also inhibited by nordihydroguaiaretic acid but not by bromophenacylbromide. Indomethacin inhibits also the arachidonic-acid-induced Ca2+ flux changes whereas the zymosan- and the phenylephrine-induced Ca2+ flux changes are not inhibited by the cyclooxygenase inhibitor. The data presented in this paper suggest that in the perfused rat liver the zymosan-induced glycogenolysis, as well as the Ca2+ flux changes and glycogenolysis induced by arachidonic acid, are mediated by eicosanoids.
Interactions between phenylephrine-induced oxygen consumption, lactate and pyruvate output, and u... more Interactions between phenylephrine-induced oxygen consumption, lactate and pyruvate output, and urea and glucose production were examined in perfused livers from fed or 48-h-fasted rats. Within 2 min of phenylephrine infusion, oxygen consumption in perfused livers was increased by approximately 40%. Increases in oxygen consumption induced by phenylephrine were essentially abolished in the presence of carboxyatractyloside, whereas those induced by dinitrophenol were still evident. Phenylephrine-induced increases in oxygen consumption were accompanied by enhanced rates of gluconeogenesis and ureogenesis in livers from fed or 48-h-fasted animals. These data indicate that phenylephrine-induced increases in respiration in perfused rat liver may result from an enhanced rate of mitochondrial oxidative phosphorylation in response to an increased cellular energy requirement.
1. A magnesium-dependent, adenosine triphosphate-stimulated incorporation of L-[U~~CC]serine into... more 1. A magnesium-dependent, adenosine triphosphate-stimulated incorporation of L-[U~~CC]serine into the phospholipids of mitochondria isolated from the developing flight muscle of Locusta migratoria was studied.
A Mg++-requiring, energy-dependent incorporation of labelled serine by isolated rat liver mitocho... more A Mg++-requiring, energy-dependent incorporation of labelled serine by isolated rat liver mitochondria has been studied. Possible contributions to the incorporation by bacteria and microsomes are negligible. The serine is incorporated mostly into phosphatidylserine (85O/,) with small amounts into phosphatidylethanolamine ( 7 0 / 0 ) . The energy requirement is satisfied by ATP which can be generated via oxidative phosphorylation or provided exogenously. Hypothetical high energy intermediates of oxidative phosphorylation are not obligatory. Subfractionation of the mitochondria following the incorporation of serine shows that the radioactivity is associated mostly with the outer membrane. The isolated inner and outer membranes also incorporate serine but not as efficiently as intact mitochondria. The data is discussed in relation to the biosynthesis of the mitochondrial membranes.
Parenchymal cells (hepatocytes) are the sites at which the principal metabolic functions of the l... more Parenchymal cells (hepatocytes) are the sites at which the principal metabolic functions of the liver are located. In the perfused liver, responses (e.g. vasoconstriction and glycogenolysis) to stimulating agents such as zymosan, platelet-activating factor and arachidonic acid, are inhibited by indomethacin and bromophenacyl bromide, inhibitors of cyclo-oxygenase and phospholipase A2, respectively. Since cultured Kupffer and endothelial cells but not hepatocytes, produce eicosanoids, and since eicosanoids and especially prostaglandins induce similar patterns of responses when added directly to the perfused liver, an involvement of these non-parenchymal cells in mediating the above responses is considered likely. We propose that in most situations the responses induced by these stimulating agents are mediated through a combination of pathways that include interaction of the agents directly with hepatocytes or with vasoactive cells (endothelial and/or smooth muscle cells), or interaction of agents initially with non-parenchymal cells to produce and release eicosanoids, which then subsequently interact with hepatocytes or with vasoactive cells.
The non-esterified fatty acid (NEFA) content and phospholipid composition of mitochondria isolate... more The non-esterified fatty acid (NEFA) content and phospholipid composition of mitochondria isolated from the livers of Wistar rats infected with Fasciola hepatica were examined in relation to the aberrant mitochondrial respiration previously reported [Rule, Behm, and Bygrave (1989) Biochem. J. 260, 517-523]. At 2 weeks post-infection, elevated NEFA levels were associated with uncoupling of mitochondrial respiration that was reversible in vitro by the addition of BSA. State IV respiration rates showed a strong correlation with NEFA content. At 3 weeks post-infection, NEFA content had increased further and uncoupled mitochondria no longer showed any response to BSA. 31P-NMR analyses of cholate extracts of mitochondria from infected livers at 3 weeks post-infection revealed a marked loss of several major phospholipid species with a concomitant increase in catabolic products, particularly glycerophosphocholine and glycerophosphoethanolamine. Similar changes were observed in microsomal extracts. The NEFA content and phospholipid composition of mitochondria isolated from infected, athymic nude rats were not significantly different from uninfected, athymic rats. These findings suggest that uncoupling of liver mitochondria during infection with F. hepatica is the result of phospholipase activation mediated by the immune system of the host.
1. The mechanism of adenine nucleotide translocation in mitochondria isolated from rat liver was ... more 1. The mechanism of adenine nucleotide translocation in mitochondria isolated from rat liver was further examined by using the local anaesthetics procaine, butacaine, nupercaine and tetracaine as perturbators of lipid-protein interactions. Each of these compounds inhibited translocation of ADP and of ATP; butacaine was the most effective with 50% inhibition occurring at 30mum for 200mum-ATP and at 10mum for 200mum-ADP. The degree of inhibition by butacaine of both adenine nucleotides was dependent on the concentration of adenine nucleotide present; with low concentrations of adenine nucleotide, low concentrations of butacaine-stimulated translocation, but at high concentrations (greater than 50mum) low concentrations of butacaine inhibited translocation. Butacaine increased the affinity of the translocase for ATP to a value which approached that of ADP. 2. Higher concentrations of nupercaine and of tetracaine were required to inhibit translocation of both nucleotides; 50% inhibition of ATP translocation occurred at concentrations of 0.5mm and 0.8mm of these compounds respectively. The pattern of inhibition of ADP translocation by nupercaine and tetracaine was more complex than that of ATP; at very low concentrations (less than 250mum) inhibition ensued, followed by a return to almost original rates at 1mm. At higher concentrations inhibition of ADP translocation resulted. 3. That portion of ATP translocation stimulated by Ca(2+) was preferentially inhibited by each of the local anaesthetics tested. In contrast, inhibition by the anaesthetics of ADP translocation was prevented by low concentrations of Ca(2+). 4. The data provide further support for our hypothesis that lipid-protein interactions are important determinants in the activity of the adenine nucleotide translocase in mitochondria.
A perfused liver system incorporating a Ca2+-sensitive electrode was used to study the long-term ... more A perfused liver system incorporating a Ca2+-sensitive electrode was used to study the long-term effects of glucagon and cyclic AMP on the mobilization of Ca2+ induced by phenylephrine, vasopressin and angiotensin. At 1.3 mM extracellular Ca2+ the co-administration of glucagon (10 nM) or cyclic AMP (0.2 mM) and a Ca2+-mobilizing hormone led to a synergistic potentiation of Ca2+ uptake by the liver, to a degree which was dependent on the order of hormone administration. A maximum net amount of Ca2+ influx, corresponding to approx. 3800 nmol/g of liver (the maximum rate of influx was 400 nmol/min per g of liver), was induced when cyclic AMP or glucagon was administered about 4 min before vasopressin and angiotensin. These changes are over an order of magnitude greater than those induced by Ca2+-mobilizing hormones alone [Altin & Bygrave (1985) Biochem. J. 232, 911-917]. For a maximal response the influx of Ca2+ was transient and was essentially complete after about 20 min. Removal of the hormones was followed by a gradual efflux of Ca2+ from the liver over a period of 30-50 min; thereafter, a similar response could be obtained by a second administration of hormones. Dose-response measurements indicate that the potentiation of Ca2+ influx by glucagon occurs even at low (physiological) concentrations of the hormone. By comparison with phenylephrine, the stimulation of Ca2+ influx by vasopressin and angiotensin is more sensitive to low concentrations of glucagon and cyclic AMP, and can be correlated with a 20-50-fold increase in the calcium content of mitochondria. The reversible uptake of such large quantities of Ca2+ implicates the mitochondria in long-term cellular Ca2+ regulation.
1. Added Ca(2+) stimulates the translocation of ATP by isolated rat liver mitochondria. 2. The ap... more 1. Added Ca(2+) stimulates the translocation of ATP by isolated rat liver mitochondria. 2. The apparent K(m) for added Ca(2+) in stimulating the translocation of 200mum-ATP is approx. 160mum (75mum ;free' Ca(2+)). 3. The greatest stimulation of ATP translocation by Ca(2+) occurs at the lower concentrations of ATP. 4. Sr(2+) (and to a lesser extent Ba(2+)) can replace Ca(2+) whereas Mg(2+) and Mn(2+) have only little ability to stimulate ATP translocation. 5. Translocation of dATP is also stimulated by Ca(2+) whereas that of ADP is stimulated to only a relatively small degree. 6. Studies with metabolic inhibitors and uncouplers provide evidence that stimulation by Ca(2+) and by uncouplers is additive and that the mechanism of Ca(2+) stimulation does not seem to involve the high-energy intermediate of oxidative phosphorylation. 7. In the presence of Ca(2+), ATP is able to effectively compete with ADP for translocation. 8. Added K(+) further enhances the ability of Ca(2+) to stimulate ATP translocation. 9. These findings are discussed in relation to the potential involvement of Ca(2+) in modifying enzymic reactions involved in the regulation of cell metabolism.
Various external stimuli regulate cellu- lar Ca2+ fluxes. Information from these stimuli is trans... more Various external stimuli regulate cellu- lar Ca2+ fluxes. Information from these stimuli is transmitted to the cell interior by signal transducing systems that involve interactions between receptors, C-proteins, and enzymes that generate second mes- sengers. The possible mechanisms by which "cross- talk" within and between these second messenger- generating systems provides an intricate molecular avenue for fine modulation of intracellular
1. The subcellular distribution and maturation of Ruthenium Red-insensitive Ca(2+) transport acti... more 1. The subcellular distribution and maturation of Ruthenium Red-insensitive Ca(2+) transport activity were determined in livers of rats ranging in age from 3 days pre-term to 10 weeks of adult life and compared with those of glucose 6-phosphatase, 5'-nucleotidase and Ruthenium Red-sensitive Ca(2+) transport. Initial rates of Ruthenium Red-insensitive Ca(2+) transport were highest in those fractions enriched in glucose 6-phosphatase, i.e. the microsomal fraction; this fraction was devoid of Ruthenium Red-sensitive Ca(2+) transport activity. Although the heaviest fraction (nuclear) contained significant amounts of 5'-nucleotidase activity it was devoid of Ruthenium Red-insensitive Ca(2+) transport activity. 2. Foetal rat liver contain minimal amounts of Ruthenium Red-insensitive Ca(2+) transport activity, glucose 6-phosphatase and 5'-nucleotidase activities. These begin to be expressed concomitantly soon after birth; Ruthenium Red-insensitive Ca(2+) transport is maximal by...
Glucagon induces a slight Ca2+ efflux when administered to the perfused rat liver. However, the h... more Glucagon induces a slight Ca2+ efflux when administered to the perfused rat liver. However, the hormone promotes rapid and significant Ca2+ influx after the prior administration of 2, 5-di(t-butyl)-1,4-hydroquinone (BHQ), an agent that promotes Ca2+ release from the endoplasmic reticulum (ER). The concentrations of glucagon that promote Ca2+ influx are similar to those that promote glycogenolysis and gluconeogenesis in isolated hepatocytes. The permeable analogue of cAMP, but not that of cGMP, is able to duplicate the Ca2+-mobilizing effects of glucagon. The influx of Ca2+ into liver is blocked by Ni2+. Administration of sodium azide, an inhibitor of mitochondrial electron transport, also blocks the BHQ plus glucagon-induced Ca2+ influx and this is reversed when azide administration is terminated. The actions of azide are evident within 60 s after administration or withdrawal, and also occur when either oligomycin or fructose is co-administered; this provides evidence for an effect ...
To test whether high-density lipoproteins (HDL) could aid in the removal in vivo of potentially a... more To test whether high-density lipoproteins (HDL) could aid in the removal in vivo of potentially atherogenic oxidized lipids, we perfused rat liver in situ with buffer supplemented with isolated human HDL containing small amounts of cholesteryl linoleate hydro(pero)xides [CH18:2-O(O)H]. Perfusion resulted in the rapid removal of Ch18:2-O(O)H from HDL with a half-life (t1/2)of 11.4 min., faster than that of unoxidized cholesteryl linoleate, and dependent of the presence of the liver. In addition, the liver enhanced the reduction of Ch18:2-OOH associated with HDL remaining in the perfusate buffer. Perfusion resulted in the release of a hepatic activity that enhanced the reduction of HDL-associated CH18:2-OOH and was resistant to heat treatment. In contrast with the situation with HDL, low-density lipoprotein (LDL)-associated CH18:2-O(O)H were neither removed nor reduced by perfused rat liver within the time course studied, in support of a possible role for HDL in the detoxification of ...
The maturation of Ca(2+) transport in mitochondria isolated from rat liver was examined, from 5 d... more The maturation of Ca(2+) transport in mitochondria isolated from rat liver was examined, from 5 days before birth. The mitochondria used were isolated from liver homogenates by centrifugation at 22000g-min. Ca(2+) transport by mitochondria isolated from foetal liver is energy-dependent and Ruthenium Red-sensitive. The transmembrane pH gradient in these mitochondria is higher by about 7mV and the membrane potential lower by about 20mV than in adult mitochondria. The inclusion of 2mm-P(i) in the incubation medium enhances the protonmotive force by approx. 30mV. The rate of Ca(2+) influx in foetal mitochondria measured in buffered KCl plus succinate is low until about 2-3h after birth, when it increases to about 60% of adult values; approx. 24h later it has reached near-adult values. Higher rates of Ca(2+) influx are observed in the presence of 2mm-P(i); 3-5 days before birth the rates are about one-third of adult values and decline slightly as birth approaches. By 2-3h post partum the...
Repeated washing of rat liver mitochondria with sucrose medium removes all of the cytochrome P-45... more Repeated washing of rat liver mitochondria with sucrose medium removes all of the cytochrome P-450 while low but significant amounts of glucose 6-phosphatase and NADPH cytochrome c reductase are still retained. A t the same time monoamine oxidase and succinate cytochrome c reductase activities increase slightly. Cytochrome P-450 and glucose 6-phosphatase are completely retained by the microsomes even after five waahings with sucrose medium.
Tributyltin in the concentration range 1-4mum failed to stimulate Ca(2+) transport by Lucilia fli... more Tributyltin in the concentration range 1-4mum failed to stimulate Ca(2+) transport by Lucilia flight-muscle mitochondria in a medium containing KCl and respiratory substrate but devoid of P(i), despite its promotion of a rapid Cl(-)/OH(-) exchange. When 2mm-P(i) was present, concentrations of tributyltin greater than 1mum inhibited the initial rate of Ca(2+) transport and induced efflux of the ion from the mitochondria in Cl(-)- or NO(3) (-)-containing media. Lower concentrations had little effect. Oligomycin added at up to 10mug/mg of mitochondrial protein had no effect on Ca(2+) transport. By contrast, approx. 0.3mum-tributyltin completely inhibited respiration supported by alpha-glycerophosphate in either the presence or absence of added ADP. The data suggest that tributyltin can inhibit Ca(2+) transport in Lucilia flight-muscle mitochondria other than by facilitating a Cl(-)/OH(-) exchange or producing an oligomycin-like effect.
1. Seven fractions sedimenting at between 3000 and 120000g-min were prepared from a rat liver hom... more 1. Seven fractions sedimenting at between 3000 and 120000g-min were prepared from a rat liver homogenate by differential centrifugation in buffered iso-osmotic sucrose. The following measurements were carried out on each of these fractions: Ruthenium Red-sensitive Ca(2+) transport in the absence and in the presence of P(i) as well as in the presence of N-ethylmaleimide to prevent P(i) cycling, succinate-supported respiration in the absence and in the presence of ADP, the DeltaE and -59 DeltapH components of the protonmotive force, cytochrome oxidase, uncoupler-stimulated adenosine triphosphatase, alpha-glycerophosphate dehydrogenase, P(i) content and the effect on the ;resting' rate of respiration of repeated additions of a fixed Ca(2+) concentration. 2. Ca(2+) transport either in the presence or in the absence of added P(i) and in the presence of N-ethylmaleimide exhibits significantly higher rates in the fraction sedimenting at 8000g-min. By contrast, respiration in the presen...
1. The affinity of ATP-supported Ca 2+ accumulation for both Ca 2+ and ATP was determined from in... more 1. The affinity of ATP-supported Ca 2+ accumulation for both Ca 2+ and ATP was determined from initial rate studies employing isolated rat liver mitochondria. The K m values for "free" Ca 2+ and ATP were calculated to be of the order of 2/./M and 100//M, respectively. The K m for ATP decreased as the Ca 2 § concentration was increased.
Exposure of perfused rat livers to zymosan, arachidonic acid and phenylephrine, but not to latex ... more Exposure of perfused rat livers to zymosan, arachidonic acid and phenylephrine, but not to latex particles, induces pronounced oxygen uptake, glycogenolysis and Ca2+ mobilization. The oxygen uptake induced by arachidonic acid and by zymosan remains elevated even after the agents have been removed. NaN3 was found to be much more effective in inhibiting the oxygen uptake induced by phenylephrine than that induced by zymosan or arachidonic acid. Glucose release induced by zymosan and by arachidonic acid reaches a maximum after about 2 min and then declines very rapidly even while the agents are still being infused. In contrast, glucose release induced by phenylephrine remains elevated for the duration of the infusion. Ca2+ fluxes induced by arachidonic acid are similar to those induced by phenylephrine in that efflux occurs when the agent is administered and influx occurs only when the agent is removed. This contrasts to the Ca2+ flux changes induced by zymosan where both Ca2+ efflux and Ca2+ influx occur even while zymosan is still being infused. Glucose release induced by zymosan is inhibited by bromophenacylbromide and nordihydroguaiaretic acid, but not by indomethacin. Indomethacin, however inhibits the arachidonic-acid-induced glucose release which is also inhibited by nordihydroguaiaretic acid but not by bromophenacylbromide. Indomethacin inhibits also the arachidonic-acid-induced Ca2+ flux changes whereas the zymosan- and the phenylephrine-induced Ca2+ flux changes are not inhibited by the cyclooxygenase inhibitor. The data presented in this paper suggest that in the perfused rat liver the zymosan-induced glycogenolysis, as well as the Ca2+ flux changes and glycogenolysis induced by arachidonic acid, are mediated by eicosanoids.
Interactions between phenylephrine-induced oxygen consumption, lactate and pyruvate output, and u... more Interactions between phenylephrine-induced oxygen consumption, lactate and pyruvate output, and urea and glucose production were examined in perfused livers from fed or 48-h-fasted rats. Within 2 min of phenylephrine infusion, oxygen consumption in perfused livers was increased by approximately 40%. Increases in oxygen consumption induced by phenylephrine were essentially abolished in the presence of carboxyatractyloside, whereas those induced by dinitrophenol were still evident. Phenylephrine-induced increases in oxygen consumption were accompanied by enhanced rates of gluconeogenesis and ureogenesis in livers from fed or 48-h-fasted animals. These data indicate that phenylephrine-induced increases in respiration in perfused rat liver may result from an enhanced rate of mitochondrial oxidative phosphorylation in response to an increased cellular energy requirement.
1. A magnesium-dependent, adenosine triphosphate-stimulated incorporation of L-[U~~CC]serine into... more 1. A magnesium-dependent, adenosine triphosphate-stimulated incorporation of L-[U~~CC]serine into the phospholipids of mitochondria isolated from the developing flight muscle of Locusta migratoria was studied.
A Mg++-requiring, energy-dependent incorporation of labelled serine by isolated rat liver mitocho... more A Mg++-requiring, energy-dependent incorporation of labelled serine by isolated rat liver mitochondria has been studied. Possible contributions to the incorporation by bacteria and microsomes are negligible. The serine is incorporated mostly into phosphatidylserine (85O/,) with small amounts into phosphatidylethanolamine ( 7 0 / 0 ) . The energy requirement is satisfied by ATP which can be generated via oxidative phosphorylation or provided exogenously. Hypothetical high energy intermediates of oxidative phosphorylation are not obligatory. Subfractionation of the mitochondria following the incorporation of serine shows that the radioactivity is associated mostly with the outer membrane. The isolated inner and outer membranes also incorporate serine but not as efficiently as intact mitochondria. The data is discussed in relation to the biosynthesis of the mitochondrial membranes.
Parenchymal cells (hepatocytes) are the sites at which the principal metabolic functions of the l... more Parenchymal cells (hepatocytes) are the sites at which the principal metabolic functions of the liver are located. In the perfused liver, responses (e.g. vasoconstriction and glycogenolysis) to stimulating agents such as zymosan, platelet-activating factor and arachidonic acid, are inhibited by indomethacin and bromophenacyl bromide, inhibitors of cyclo-oxygenase and phospholipase A2, respectively. Since cultured Kupffer and endothelial cells but not hepatocytes, produce eicosanoids, and since eicosanoids and especially prostaglandins induce similar patterns of responses when added directly to the perfused liver, an involvement of these non-parenchymal cells in mediating the above responses is considered likely. We propose that in most situations the responses induced by these stimulating agents are mediated through a combination of pathways that include interaction of the agents directly with hepatocytes or with vasoactive cells (endothelial and/or smooth muscle cells), or interaction of agents initially with non-parenchymal cells to produce and release eicosanoids, which then subsequently interact with hepatocytes or with vasoactive cells.
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Papers by Fyfe Bygrave