Porphyrins and porphyrinogen carboxy-lase in hexachlorobenzene-induced porphyria.

1. Qualitative and quantitative studies of the porphyrins and the porphyrinogen carboxylyase of the liver, spleen, kidney, harderian gland and erythrocytes from normal rats and from those hexachlorobenzene-induced porphyria were carried out. 2. Hexachlorobenzene has no effect on erythrocyte porphyrin content, but produces a decrease in that of Harderian gland and an increase in the porphyrin content of the kidney and spleen, and a marked increase in the liver (1 mumol/g of tissue). Octacarboxylic (isomer III) and heptacarboxylic porphyrins accumulated in kidney, spleen and liver, the former porphyrin being predominant. 3. Hexachlorobenzene has no effect on the activity of porphyrinogen carboxy-lase in erythrocytes; there is a slight decrease in enzyme activity in the Harderian gland, and a marked decrease in the liver and kidney enzyme activities. In the liver the removal of each carboxyl group from uroporphyrinogen III appears to be affected by this treatment. 4. The liver is the principal site of action of hexachlorobenzene, with the kidney next in decreasing order of effect, and erythropoietic tissue is unaffected. The marked decrease in porphyrinogen carboxy-lyase activities observed in liver and kidney could explain the high accumulation of octacarboxylic and heptacarboxylic porphyrins found in these tissues. 5. The results are discussed in relation to changes promoted by hexachlorobenzene in other enzymes of the haem pathway.     

Caffeine inhibition of calcium accumulation by the sarcoplasmic reticulum in mammalian skinned fibers

Summary Oxalate-supported Ca accumulation by the sarcoplasmic reticulum (SR) of chemically skinned mammalian skeletal muscle fibers is activated by MgATP and Ca²⁺ and partially inhibited by caffeine. Inhibition by caffeine is greatest when Ca²⁺ exceeds 0.3 to 0.4 m, when free ATP exceeds 0.8 to 1mm, and when the inhibitor is present from the beginning of the loading period rather than when it is added after Ca oxalate has already begun to precipitate within the SR. Under the most favorable combination of these conditions, this effect of caffeine is maximal at 2.5 to 5mm and is half-maximal at approximately 0.5mm. For a given concentration of caffeine, inhibition decreases to one-half of its maximum value when free ATP is reduced to 0.2 to 0.3mm. Varying free Mg²⁺ (0.1 to 2mm) or MgATP (0.03 to 10mm) has no effect on inhibition. Average residual uptake rates in the presence of 5mm caffeine atpCa 6.4 range from 32 to 70% of the control rates in fibers from different animals. The extent of inhibition in whole-muscle homogenates is similar to that observed in skinned fibers, but further purification of SR membranes by differential centrifugation reduces their ability to respond to caffeine. In skinned fibers, caffeine does not alter the Ca²⁺ concentration dependence of Ca uptake (K _0.5, 0.5 to 0.8 m; Hilln, 1.5 to 2.1). Reductions in rate due to caffeine are accompanied by proportional reductions in maximum capacity of the fibers, and this configuration can be mimicked by treating fibers with the ionophore A23187. Caffeine induces a sustained release of Ca from fibers loaded with Ca oxalate. However, caffeine-induced Ca release is transient when fibers are loaded without oxalate. The effects of caffeine on rate and capacity of Ca uptake as well as the sustained and transient effects on uptake and release observed under different conditions can be accounted for by a single mode of action of caffeine: it increases Ca permeability in a limited population of SR membranes, and these membranes coexist with a population of caffeine-insensitive membranes within the same fiber.     

Apical and basolateral Na+/H+ exchange in the rabbit outer medullary thin descending limb of henle: Role in intracellular pH regulation

Summary The present study was designed to investigate the apical and basolateral transport processes responsible for intracellular pH regulation in the thin descending limb of Henle. Rabbit thin descending limbs of long-loop nephrons were perfused in vitro and intracellular pH (pH _i ) was measured using BCECF. Steady-state pH _i in HEPES buffered solutions (pH 7.4) was 7.18±0.03. Following the removal of luminal Na⁺, pH _i decreased at a rate of 1.96±0.37 pH/min. In the presence of luminal amiloride (1mm), the rate of decrease of pH _i was significantly less, 0.73±0.18 pH/min. Steady-state pH _i decreased 0.18 pH units following the addition of amiloride (1mm) to the lumen (Na⁺ 140mm lumen and bath). When Na⁺ was removed from the basolateral side of the tubule, pH _i decreased at a rate of 0.49±0.05 pH/min. The rate of decrease of pH _i was significantly less in the presence of 1mm basolateral amiloride, 0.29±0.04 pH/min. Addition of 1mm amiloride to the basolateral side (Na⁺ 140mm lumen and bath) caused steady-state pH _i to decrease significantly by 0.06 pH units. When pH _i was acutely decreased to 5.87±0.02 following NH₄Cl removal (lumen, bath), pH _i failed to recover in the absence of Na⁺ (lumen, bath). Addition of 140mm Na⁺ to the lumen caused pH _i to recover at a rate of 2.17±0.59 pH/min. The rate of pH _i recovery was inhibited 93% by 1mm luminal amiloride. When 140mm Na⁺ was added to the basolateral side, pH _i recovered only partially at 0.38±0.07 pH/min. Addition of 1mm basolateral amiloride inhibited the recovery of pH _i , by 97%. The results demonstrate that the rabbit thin descending limb of long-loop nephrons possesses apical and basolateral Na⁺/N⁺ antiporters. In the steady state, the rate of Na⁺-dependent H⁺ flux across the apical antiporter exceeds the rate of Na⁺-dependent H⁺ flux via the basolateral antiporter. Recovery of pH _i following acute intracellular acidification is Na⁺ dependent and mediated primarily by the luminal antiporter.     

H+/Ca2+ exchange in rabbit renal cortical endosomes

Summary We have examined the effect of second messengers on ATP-driven H⁺ transport in an H⁺ ATPase-bearing endosomal fraction isolated from rabbit renal cortex. cAMP (0.1mm) had no effect on H⁺ transport. Acridine orange fluorescence in the presence of 0.5mm Ca²⁺ (+1mm EGTA) was 19±6% of control. Inhibition of ATP-driven H⁺ transport by Ca²⁺ was concentration dependent; 0.25 and 0.5mm Ca²⁺ (+1mm EGTA) inhibited acridine orange fluorescence by 50 and 80%, respectively. Ca²⁺ also produced a concentration-dependent increase in the rate of pH-gradient dissipation. Ca²⁺ did not affect ATP hydrolysis. ATP-dependent Br^– uptake was virtually unchanged in the presence of 0.5mm Ca²⁺ (+1mm EGTA). These vesicles were also shown to transport Ca²⁺ in an ATP-dependent mode. Inositol 1, 4, 5-trisphosphate had no effect on ATP-dependent Ca²⁺ uptake. These results are consistent with the co-existence of an H⁺ ATPase and an H⁺/Ca²⁺ exchanger on these endosomes, the latter transport system using the H⁺ gradient to energize Ca²⁺ uptake. Attempts to demonstrate an H⁺/Ca²⁺ antiporter in the absence of ATP have been unsuccessful. Yet, when a pH gradient was established by preincubation with ATP and residual ATP was subsequently removed by hexokinase + glucose, stimulation of Ca²⁺ uptake could be demonstrated. A Ca²⁺-dependent increase in H⁺ permeability and an ATP-dependent Ca²⁺ uptake might have important implications for the regulation of vacuolar H⁺ ATPase activity as well as the homeostasis of cytosolic Ca²⁺ concentration.     

Protein phosphatase from rat liver nuclei

Summary Protein phosphatase, active on non-histone phosphoprotein substrate, was partially purified from rat liver cell nuclei by means of salt extraction, ammoniumsulfate precipitation, DEAE cellulose chromatography, gel filtration and preparative isoelectrofocusing.Rat liver nuclei contain a heterogenous population of different protein phosphatases. All the enzyme fractions eluted from DEAE cellulose are of low molecular weight between 12,000–31,000. The pH 5.5 peak fraction of preparative isoelectrofocusing was characterized in detail. It has a pH optimum of 6.8 using nuclear phosphoprotein substrate. It is inhibited by Na⁺ at 80mm, and to a lesser extent by K⁺, activated by Mg²⁺(5mm) and Mn²⁺ (1mm). However, the latter is inhibitory at 6mm.The nuclear protein phosphatase is also active on labelled F1 and F2b histones and casein, however, its V is lower on histones and it contains component(s) active specifically on nuclear phosphoprotein substrate but not on casein.Abbreviations PP-ase protein phosphat Part of this work was presented at the XI^th FEBS Meeting, Copenhagen 1977.     

Influence of intracellular pH on mitochondrial calcium during ischaemia of the isolated rat heart

Summary Under physiological conditions cardiac mitochondria seem to play a minor role in maintaining intracellular Ca²⁺ homoeostasis. However, under conditions of cellular Ca²⁺ overload, mitochondria may accumulate large amounts of Ca²⁺. Using transmission and analytical electron microscopy we investigated, in globally ischaemic rat heart preparations, the influence of intracellular pH on the development of Ca²⁺-containing intramitochondrial inclusions. We confirmed that under these experimental conditions Ca²⁺ was a major element of mitochondrial inclusions. The size of these inclusions increased with external Ca²⁺ concentration. An intracellular alkalinization, produced by addition of 20mm NH₄Cl to the perfusate prior to ischaemia, inhibited the formation of such inclusions. On the other hand, a pre-ischaemic intracellular acidification, produced by the addition and subsequent withdrawal of the 20mm NH₄Cl, increased the number of inclusions present at the end of an ischaemic episode. The presence of amiloride (10^–3 m), prior to and during ischaemia, increased the number of inclusions. These data suggest that cytoplasmic pH may be an important factor in mitochondrial Ca²⁺ accumulation in pathological conditions.     

Coupled Na+/H+ exchange in rat parotid basolateral membrane vesicles

Summary pH gradient-dependent sodium transport in highly purified rat parotid basolateral membrane vesicles was studied under voltage-clamped conditions. In the presence of an outwardly directed H⁺ gradient (pH_in=6.0, pH_out=8.0)²²Na uptake was approximately ten times greater than uptake measured at pH equilibrium (pH_in=pH_out=6.0). More than 90% of this sodium flux was inhibited by the potassium-sparing diuretic drug amiloride (K ₁ =1.6 m) while the transport inhibitors furosemide (1mm), bumetanide (1mm) SITS (0.5mm) and DIDS (0.1mm) were without effect. This transport activity copurified with the basolateral membrane marker K⁺-stimulatedp-nitrophenyl phosphatase. In addition²²Na uptake into the vesicles could be driven against a concentration gradient by an outwardly directed H⁺ gradient. pH gradient-dependent sodium flux exhibited a simple Michaelis-Menten-type dependence on sodium concentration cosistent with the existence of a single transport system withK _M =8.0mm at 23°C. A component of pH gradient-dependent, amiloride-sensitive sodium flux was also observed in rabbit parotid basolateral membrane vesicles. These results provide strong evidence for the existence of a Na⁺/H⁺ antiport in rat and rabbit parotid acinar basolateral membranes and extend earlier less direct studies which suggested that such a transporter was present in salivary acinar cells and might play a significant role in salivary fluid secretion.     

Na+ and K+ fluxes stimulated by Na+-coupled glucose transport: Evidence for a Ba2+-insensitive K+ efflux pathway in rabbit proximal tubules

Summary Addition of glucose or the nonmetabolizable analogue -methyl-d-glucoside to rabbit proximal tubules suspended in a glucoseand alanine-free buffer caused a sustained increase in intracellular Na⁺ content (+43±7 nmol · (mg protein)^–1) and a concomitant but larger decrease in K⁺ content (–72±11 nmol· (mg protein)^–1). A component of the net K⁺ efflux was Ba²⁺ insensitive, and was inhibited by high (1mm) but not low (10 m) concentrations of the diuretics, furosemide and bumetanide. The increase in intracellular Na⁺ content is consistent with the view that the increased rates of Na⁺ and water transport seen in the proximal tubule in the presence of glucose can be attributed (at least in part) to a stimulation of basolateral pump activity by an increased [Na⁺] _i .     

Electrogenic Cl− absorption byAmphiuma small intestine: Dependence on serosal Na+ from tracer and Cl− microelectrode studies

Summary The Na⁺ requirement for active, electrogenic Cl^– absorption byAmphiuma small intestine was studied by tracer techniques and double-barreled Cl^–-sensitive microelectrodes. Addition of Cl^– to a Cl^–-free medium bathingin vitro intestinal segments produced a saturable (K _m =5.4mm) increase in shortcircuit current (I _sc) which was inhibitable by 1mm SITS. The selectivity sequence for the anion-evoked current was Cl^–=Br^–>SCN^–>NO ₃ ^– >F^–=I^–. Current evoked by Cl^– reached a maximum with increasing medium Na concentration (K _m =12.4mm). Addition of Na⁺, as Na gluconate (10mm), to mucosal and serosal Na⁺-free media stimulated the Cl^– current and simultaneously increased the absorptive Cl^– flux (J _ms ^Cl ) and net flux (J _net ^Cl ) without changing the secretory Cl^– flux (J _sm ^Cl ). Addition of Na⁺ only to the serosal fluid stimulatedJ _ms ^Cl much more than Na⁺ addition only to the mucosal fluid in paired tissues. Serosal DIDS (1mm) blocked the stimulation. Serosal 10mm Tris gluconate or choline gluconate failed to stimulateJ _ms ^Cl . Intracellular Cl^– activity (a _Cl ⁱ ) in villus epithelial cells was above electrochemical equilibrium indicating active Cl^– uptake. Ouabain (1mm) eliminated Cl^– accumulation and reduced the mucosal membrane potential _m over 2 to 3 hr. In contrast, SITS had no effect on Cl^– accumulation and hyperpolarized the mucosal membrane. Replacement of serosal Na⁺ with choline eliminated Cl^– accumulation while replacement of mucosal Na⁺ had no effect. In conclusion by two independent methods active electrogenic Cl^– absorption depends on serosal rather than mucosal Na⁺. It is concluded that Cl^– enters the cell via a primary (rheogenic) transport mechanism. At the serosal membrane the Na⁺ gradient most likely energizes H⁺ export and regulates mucosal Cl^– accumulation perhaps by influencing cell pH or HCO ₃ ^– concentration.     

Reversible inhibition by lanthanum of the hydrosmotic response to serosal hypertonicity in toad urinary bladder

Summary In the urinary bladder of amphibia, hypertonicity of the serosal bath (SH) evokes an increase in transepithelial water permeability, the characteristics of which resemble the response to antidiuretic hormone (ADH). The ionic dependency, in particular for Ca²⁺, appears very similar forSH- and ADH-induced water fluxes. In the present experiments La³⁺ was used as a probe to study the Ca²⁺-dependency of the hydrosmotic response toSH in isolated urinary bladder of the toadBufo marinus.Addition of La³⁺ (5mm) on the serosal side of the membrane produced a significant and reversible increase in basal transepithelial water flux. The hydrosmotic response elicited by adding 250mm mannitol to the serosal Ringer's solution was inhibited by 30% in the absence of serosal Ca²⁺. Similarly, the hydrosmotic response toSH was inhibited by 37%, 30% and 40% when 5mm La³⁺ was added to the serosal medium 30 min before, concommitantly with, or 60 min after induction ofSH. The inhibition of transepithelial water flux observed in the absence of serosal Ca²⁺ or in the presence of serosal La³⁺ was reversible.The results support a critical role for Ca²⁺ in the modulation of transepithelial water permeability in the urinary bladder of amphibia. Ca²⁺ presumably exerts its effects at a post-cyclic AMP step.     

Action of diphtheria toxin does not depend on the induction of large,stable pores across biological membranes

Summary Vero cells exposed to diphtheria toxin at pH 4.5 leak monovalent cations but not amino acids or phosphorylated metabolites; affected cells do not take up trypan blue. Monovalent cation leakage is inhibited by 1mmCd²⁺, but not by 1mmZn²⁺ or Ca²⁺. Cd²⁺ blocks calcein leakage from liposomes and closes diphtheria toxin-induced channels in lipid bilayers. It is concluded that translocation of the A fragment of diphtheria toxin across biological membranes does not depend on the formation of large stable pores, but that small Cd²⁺-sensitive pores may play a role.     

Mitochondrial alpha-glycerol phosphate dehydrogenase activity in IIA fibres of the rat lateral gastrocnemius muscle; the effect of Ca2+ and ATP

Summary Mitochondrial -glycerol phosphate dehydrogenase is an important enzyme, but it is difficult to extract and purify. We have measured the activity of this enzyme in single type IIA skeletal muscle fibres under initial rate conditions by microdensitometry of the formazan reaction product.The K_m (1.6mm) for the substrate (l--glycerol phosphate) was lower than reported for the extracted enzyme. Further, at low substrate concentrations (3mm), the enzyme was allosterically activated by free Ca²⁺ concentrations of 1 m or greater, and half-maximal stimulation occurred at 0.3 m free Ca²⁺. In the absence of Ca²⁺, there was negative cooperativity of substrate binding with a Hill constant of 0.57, but no cooperativity occurred in the presence of calcium. ATP (10mm) inhibited enzyme activity in the presence of Ca²⁺ but not in its absence.     

Characteristics of amino acid accumulation by isolated intestinal epithelial cells

Summary Accumulation of neutral amino acids by isolated chick epithelial cells has been studied and the results discussed in terms of the ion gradient model, and a model invoking a direct input of metabolic energy. The cells establish four- to eightfold concentration gradients of amino acids at an extracellular concentration of 1mm. The accumulation is sodium-dependent, inhibited by high extracellular potassium concentrations, and is sensitive to a variety of metabolic inhibitors. Also, amino acid uptake is depressed by actively transported sugars, and certain other amino acids, and is stimulated by phloridzin.Cells equilibrated with valine and loaded with 30 to 40mm intracellular sodium begin immediately to actively accumulate valine when suddenly introduced to media containing 20mm sodium. The cells establish a threefold gradient of amino acid during the interval when intracellular sodium is higher than extracellular sodium.Amino acid accumulation and²²Na efflux were monitored simultaneously in cells treated with phloridzin. While phloridzin causes a 30% stimulation of amino acid uptake, no variation in the rate of²²Na efflux or the steady-state level of²²Na maintained by the cells can be detected. Similarly, either 2.5mm glucose or 2.5mm 3-O-methylglucose cause approximately a 50% inhibition of 1mm valine uptake, but no detectable change in steady-state cellular²²Na content. Several aspects of the data seem inconsistent with concepts embodied in the ion gradient hypothesis, and it is suggested that a directly energized transport mechanism can better accommodate all of the data.     

Mode of action of theophylline on sodium efflux in barnacle muscle fibers

Summary The response of the Na efflux in unpoisoned barnacle fibers to 10mm theophylline is biphasic; i.e., inhibition is followed by stimulation. The stimulatory response is unaffected by ouabain. Fibers pretreated with ouabain show no transitory inhibition when 10mm theophylline is applied, but show prompt stimulation the magnitude of which is comparable to that observed with unpoisoned fibers. The same holds true for lower concentrations of theophylline. Prior injection of 500mm EGTA completely abolishes the biphasic action of 10mm theophylline. External application of 10mm theophylline following removal of external Ca²⁺ fails to bring about a biphasic effect. Ca²⁺ restoration, however, results in a moderate rise in the Na efflux. External application of 10mm theophylline stimulates the Na efflux into Ca²⁺-free artificial seawater (ASW) when the test fibers are pretreated with ouabain. Injection of the protein inhibitor of Walsh leads to reduced stimulation by 10mm theophylline of the Na efflux in unpoisoned fibers. Injection of the protein inhibitor of Corbin into unpoisoned fibers leads to reduced stimulation by 10mm theophylline. Injection of cAMP into ouabainpoisoned fibers, following internal application of Corbin's inhibitor and external application of 10mm theophylline, fails to cause a marked rise in the ouabain-insensitive Na efflux. Injection of Corbin's inhibitor into ouabain-poisoned fibers, following the onset of peak stimulation by 10mm theophylline, fails to reduce the Na efflux. Fibers injected with 1mm and 100mm EGTA and exposed to 10mm theophylline show a marked reduction in the response of the ouabain-insensitive Na efflux to injected cAMP when the concentration of theophylline is 10mm. A poor response to injected cAMP is also seen in fibers bathed in Ca-free ASW containing 10mm theophylline. Theophylline (10mm) fails to cause an enhanced stimulation of the ouabain-insensitive Na efflux into Ca-free 3mm-HEPES ASW or 10mm-Ca²⁺-3mm-HEPES ASW following the addition of protons to the bathing medium. An enhanced response is similarly not observed with injected cAMP following the addition of theophylline to the bathing medium. Injection of 8-fluorotheophylline, 3-isobutyl-1-methylxanthine and doxantrazole leads to a marked reduction in the response of the ouabain-insensitive Na efflux to injected cAMP. Contraction always takes place upon injecting these substances. These results are in keeping with the theory that theophylline acts chiefly by reducing myoplasmic pCa (pCa-log₁₀[Ca²⁺]), and that a reduced pCa leads to stimulation of the ouabain-insensitive Na efflux as the result of activation of the cGMP-dependent protein kinase system by newly formed cGMP.     

Structural characteristics of the saxitoxin receptor on nerve

Summary The effects of uranyl ion (UO ₂ ²⁺ ; at low concentrations binds specifically to phosphate groups) and the cationic dye methylene blue (MB⁺; binds strongly to carboxyl groups) on saxitoxin (STX) potency in crayfish axon has been studied by means of intracellular microelectrodes. At pH 6.00±0.05 and 13.5mm Ca²⁺, addition of 10.0 m UO ₂ ²⁺ +5.0nm STX had only slightly, if any, less effect on the spike's maximum rate of rise [0.79±0.04 (viz., mean±sem) of control value] than did addition of 5.0nm STX alone (0.72±0.05). Under the same conditions of pH and Ca²⁺ concentration, 1.0mm MB⁺ had approximately the same effect: 1.0mm MB⁺+5.0nm STX, 0.76±0.03; 5.0nm STX alone, 0.70±0.04. However, at pH 7.00±0.05 and lower Ca²⁺ concentrations, 1.0mm MB⁺ significantly reduced STX potency. Using 6.0mm Ca²⁺: 1.0mm MB⁺+5.0nm STX, 0.92±0.01; 5.0nm STX alone, 0.68±0.08. Using 3.0mm Ca²⁺, the corresponding values were 0.94±0.03 and 0.67±0.04. It is concluded that: (1) In accord with previous suggestions, the ionized acidic group known to exist in the Na channel (and to which a guanidinium group of STX appears to bind) is very likely a carboxyl group and not a phosphate group. (2) The accessible part of the Na channel mouth serving as the saxitoxin receptor probably does not include phospholipid in its structure proper.     

Effect of ionophore A23187 upon membrane function and ion movement in human and toad erythrocytes

Summary Addition of 0.1–0.3 m A23187, a divalent cation ionophore, to human erythrocytes suspended in a 1.0mm ⁴⁵Ca²⁺-containing buffer results in a small ( two fold) increase in [Ca²⁺] _i , a significant decrease in osmotic fragility, and a decrease in intracellular K⁺ (100 mmoles/liter of cells to 70 mmoles/liter cells) without significant alteration of intracellular [Na⁺]. This decrease in [K⁺] _i is associated with a significant decrease in packed cell volume and correlates directly with the observed alteration is osmotic fragility. Increasing extracellular K⁺ to 125mm prevents the A23187-induced changes in osmotic fragility, K⁺ content and cell volume, but does not prevent the ionophore-induced uptake of⁴⁵Ca²⁺. Addition of 0.1–0.3 m A23187 to toad erythrocytes leads to an increase in⁴⁵Ca²⁺ uptake comparable to that observed in human erythrocytes, but does not alter osmotic fragility, cell volume or K⁺ content. Higher concentrations of ionophore (3.0–10.0 m) cause a 30- to 50-fold increase in⁴⁵Ca²⁺ uptake and concomitant change in K⁺ content, cell volume and osmotic fragility. These changes in cell properties can be prevented by increasing extracellular [K⁺] to 90mm. The difference in sensitivity of the two cell types to A23187 is attributed to the presence of additional intracellular calcium pools within toad erythrocytes that prevent an increase in cytoplasmic Ca²⁺ until Ca²⁺ uptake is increased substantially at the higher concentrations of A23187.     

Haem synthase and cobalt porphyrin synthase in various micro-organisms

1. The preparation of a crude extract of Clostridium tetanomorphum containing cobalt porphyrin synthase but little haem-synthase activity is described. 2. The properties of cobalt porphyrin synthase in the clostridial extracts is compared with the properties of a haem synthase present in crude extracts of the yeast Torulopsis utilis. 3. Cobalt porphyrin synthase in extracts of C. tetanomorphum inserts Co²⁺ ions into the following dicarboxylic porphyrins in descending order of rate of insertion: meso-, deutero- and proto-porphyrins. Esterification renders meso- and deutero-porphyrins inactive as substrates. Neither the tetracarboxylic (coproporphyrin III) nor the octacarboxylic (uroporphyrin III) compounds are converted into cobalt porphyrins by the extract, but the non-enzymic incorporation of Co²⁺ ions into these two porphyrins is rapid. These extracts are unable to insert Mn²⁺, Zn²⁺, Mg²⁺ or Cu²⁺ ions into mesoporphyrin. 4. Crude extracts of T. utilis readily insert both Co²⁺ and Fe²⁺ ions into deutero-, meso, and proto-porphyrins. Unlike the extracts of C. tetanomorphum, these preparations catalyse the insertion of Co²⁺ ions into deuteroporphyrin more rapidly than into mesoporphyrin. This parallels the formation of haems by the T. utilis extract. 5. Cobalt porphyrin synthase is present in the particulate fraction of the extracts of C. tetanomorphum but requires a heat-stable factor present in the soluble fraction. This soluble factor can be replaced by GSH. 6. Cobalt porphyrin synthase in the clostridial extract is inhibited by iodoacetamide and to a smaller extent by p-chloromercuribenzoate and N-ethylmaleimide. The haem synthases of T. utilis and Micrococcus denitrificans are also inhibited by various thiol reagents.     

Ultrastructural localization of adenosine triphosphatase activity in lymphocytes activated in vitro by phytohaemagglutinin

Summary The ultrastructural localization of Ca²⁺, Mg²⁺-activated ATPase was studied in phytohaemagglutinin activated lymphocytes and in normal unstimulated lymphocytes. Cells, fixed in paraformaldehyde-glutaraldehyde, were incubated in a medium containing 3mm ATP, 5mm CaCl₂ and 2.4mm Pb(NO₃)₂ in 0.1m tris buffer at pH 8.5, the optimum pH for histochemical demonstration of this enzyme. Reaction product was localized i the endoplasmic reticulum, nuclear membrane, Golgi apparatus and mitochondria and on the membrane surrounding large electron-dense bodies. Cytoplasmic vesicles and the plasma membrane were negative. Activity in unstimulated lymphocytes showed a similar localization but the amount of endoplasmic reticulum was much less than in activated lymphocytes.The pH of the medium was critical for the localization of the enzyme. At pH 7.5, the cytoplasmic reaction was almost completely inhibited but a dense precipitate was present on the outer surface of the plasma membrane. The reaction was stimulated by either Ca²⁺ or Mg²⁺ and was greatly decreased in the absence of these cations or in the presence ofp-chloromercuribenzoate orN-ethylmaleimide. Oligomycin inhibited selectively the reaction in mitochondria but not the reaction at other sites. While the reaction in mitochondria showed complete substrate specificity, a mild reaction was obtained at the other sites with uridine diphosphate or sodium -glycophosphate as substrate. ATP was, however, the preferential substate.     

Kinetic properties of the ATP-dependent Ca2+ pump and the Na+/Ca2+ exchange system in basolateral membranes from rat kidney cortex

Summary Basolateral plasma membranes from rat kidney cortex have been purified 40-fold by a combination of differential centrifugation, centrifugation in a discontinuous sucrose gradient followed by centrifugation in 8% percoll. The ratio of leaky membrane vesicles (L) versus right-side-out (RO) and inside-out (IO) resealed vesicles appeared to be LROIO=431. High-affinity Ca²⁺-ATPase, ATP-dependent Ca²⁺ transport and Na⁺/Ca²⁺ exchange have been studied with special emphasis on the relative transport capacities of the two Ca²⁺ transport systems. The kinetic parameters of Ca²⁺-ATPase activity in digitonin-treated membranes are:K _m =0.11 m Ca²⁺ andV _max=81±4 nmol P_i/min·mg protein at 37°C. ATP-dependent Ca²⁺ transport amounts to 4.3±0.2 and 7.4±0.3 nmol Ca²⁺/min·mg protein at 25 and 37°C, respectively, with an affinity for Ca²⁺ of 0.13 and 0.07 m at 25 and 37°C. After correction for the percentage of IO-resealed vesicles involved in ATP-dependent Ca²⁺ transport, a stoichiometry of 0.7 mol Ca²⁺ transported per mol ATP is found for the Ca²⁺-ATPase. In the presence of 75mm Na⁺ in the incubation medium ATP-dependent Ca²⁺ uptake is inhibited 22%. When Na⁺ is present at 5mm an extra Ca²⁺ accumulation is observed which amounts to 15% of the ATP-dependent Ca²⁺ transport rate. This extra Ca²⁺ accumulation induced by low Na⁺ is fully inhibited by preincubation of the vesicles with 1mm ouabain, which indicates that (Na⁺–K⁺)-ATPase generates a Na⁺ gradient favorable for Ca²⁺ accumulation via the Na⁺/Ca²⁺ exchanger. In the absence of ATP, a Na⁺ gradient-dependent Ca²⁺ uptake is measured which rate amounts to 5% of the ATP-dependent Ca²⁺ transport capacity. The Na⁺ gradient-dependent Ca²⁺ uptake is abolished by the ionophore monensin but not influenced by the presence of valinomycin. The affinity of the Na⁺/Ca²⁺ exchange system for Ca²⁺ is between 0.1 and 0.2 m Ca²⁺, in the presence as well as in the absence of ATP. This affinity is surprisingly close to the affinity measured for the ATP-dependent Ca²⁺ pump. Based on these observations it is concluded that in isolated basolateral membranes from rat kidney cortex the Ca²⁺-ATPase system exceeds the capacity of the Na⁺/Ca²⁺ exchanger four- to fivefold and it is therefore unlikely that the latter system plays a primary role in the Ca²⁺ homeostasis of rat kidney cortex cells.     

High-performance liquid chromatographic analysis of porphyrins and their isomers with radial compression columns

Porphyrin methyl esters and the isomers of uroporphyrin and heptacarboxylic porphyrin were separated by high-performance liquid chromatography. Isocoproporphyrin was also separated from coproporphyrin. By slight modifications to the solvent mixture, the separation of all biological polycarboxylic porphyrins was achieved. These separations were made possible through the high efficiency of 10- or 5-μm particle-size Radial-PAK cartridges, which have been used in the separation of porphyrins in various excreta and tissues in a number of porphyrias.