Calcium transport by ehrlich ascites cell mitochondria in vitro and in situ

The rate, maximum extent of accumulation, and passive release of Ca²⁺ by mitochondria within Ehrlich ascites tumor cells treated with digitonin and by isolated tumor mitochondria have been compared. The mitochondrial protein content of Ehrlich cells was determined by cytochrome and cytochrome oxidase analyses. The Ca²⁺ uptake rate in situ is approximately one-half the rate in vitro whereas maximum Ca²⁺ accumulation by mitochondria within the cell is about twice the value for isolated mitochondria. When isolated tumor mitochondria were supplemented with exogenous ATP the maximum uptake (approximately 3.0 μeq Ca²⁺/mg protein) was about the same as in situ. Adenine nucleotides retained in digitonized cells may account for the observed differences. The rate of uncoupler stimulated Ca²⁺ release from mitochondria within the cell (ca. 10 neq Ca²⁺/min · mg mitochondrial protein for Ca²⁺ loads up to 800 neq Ca²⁺/mg protein) agrees exceptionally well with previous estimates for isolated tumor mitochondria. Therefore the capacity for extensive Ca²⁺ accumulation without uncoupling and attenuation of Ca²⁺ efflux are virtually the same in the cell as in vitro.     

On the existence of two populations of mitochondria in a single organ. Respiration, calcium transport and enzyme activities.

Mitochondria isolated from rat heart and kidney cortex by Polytron treatment of the tissues exhibit lower state 3 rates of respiration than mitochondria isolated by Nagarse method. Addition of cytochrome $\text{c}$ to Polytron mitochondria isolated from heart, but not from kidney, increases oxygen uptake to values approaching those of Nagarse-treated preparations. Similar results were observed for Ca²⁺ uptake. Kidney Polytron mitochondria exhibited lower mitochondrial, but higher non-mitochondrial enzyme activities compared to kidney Nagarse mitochondria. Enzyme activities were the same in Polytron and Nagarse mitochondria from heart. The differences between Polytron and Nagarse mitochondria appear to be mainly due to lower cytochrome $\text{c}$ content of Polytron mitochondria from heart and higher contamination of Polytron mitochondria from kidney.     

A Comparison of Mitochondria Isolated from Male-Sterile and Nonserile Cytoplasm Etiolated Corn Seedlings

Toxins from Helminthosporium maydis race T and Phyllosticta maydis have been found to affect the functional processes of corn mitochondria isolated from Texas male-sterile (T) cytoplasm, but not of mitochondria isolated from nonsterile (N) cytoplasm. The effects of chemicals known to induce responses similar to those of the toxin were compared on mitochondria isolated from T and N cytoplasm inbreds (W64A, Zea mays L.). Valinomycin, gramicidin, and decenylsuccinic acid (DSA) each caused more swelling (measured by transmission changes in %) of N mitochondria than of T mitochondira. The stimulation of exogenous NADH oxidation was the same for N and T mitochondria in the valinomycin, DSA, and Ca²⁺ plus phosphate treatments, was greater for T mitochondria than for N mitochondria in the gramicidin and DNP treatments, and was greater for N mitochondrai than for T mitochondira in the Ca⁺² minus phosphate treatment. Sodium azide inhibited NADH oxidation equally for N and T mitochondria. In addition, N and T mitochondria had similar respiration rates for various substrates and equal efficiencies of oxidative phosphorylation. In contrast to the specificity of toxins for T mitochondria, none of the treatment effects were specific for N or T mitochondria. The results indicate that mitochondria isolated from N and T cytoplasm generally respond similarly to various conditions, but that there can be quantitative differences in the response. The extent to which these differences represent cytoplasmically controlled modification of mitochondrial physiology or structure is not known.     

Heterogeneity of chondrocyte mitochondria: A study of the Ca2+ concentration and density banding characteristics of normal and rachitic cartilage

Previous morphological studies of the mineralizing epiphysis suggested that some mitochondria were concerned with Ca²⁺ accumulation while others were associated with cellular energetics and metabolism. To determine if there was mitochondrial heterogeneity in chondrocytes of the epiphyseal growth plate, mitochondria were isolated from four different regions of the plate and subjected to continuous sucrose gradient centrifugation. Centrifugation of the organelles in a narrow density sucrose gradient (1.5–2.0 M) in the presence of inhibitors of Ca²⁺ transport (ruthenium red and 5,5′-dithiobis-(2-nitrobenzoic acid)) revealed that considerable heterogeneity existed. In the least calcified zone 20% of the mitochondria formed a low density band of low Ca²⁺ concentration (309 nmol/mg protein). Organelles isolated from more calcified tissue zones showed a concomitant increase in Ca²⁺ concentration (up to 5700 nmol/mg protein) as well as an increase in the total percentage of mitochondria sedimenting in 2.0 M sucrose. The banding patterns of mitochondria isolated from rachitic and hypertrophic cartilage were similar. In addition, similarities were also noted in the Ca²⁺ concentration and the cytochrome oxidase activities of mitochondria of these tissues. During recovery from the rachitic condition, there was a change in the density centrifugation characteristics of this tissue and a substantial increase was noted in the proportion of mitochondria sedimenting in 2.0 M sucrose. The Ca²⁺ concentration of mitochondria of this rapidly calcifying tissue suggested that the critical Ca²⁺ concentration necessary for initiation of the calcification mechanism was 4 μmol/mg protein.     

Action of La3+ on the systems providing contractility of vertebrate myocardium

The inotropic action of La³⁺ on frog myocardium was studied with taking into account its effect on mitochondria of cardiomyocytes (CM). It has been established that in the range of studied concentrations (0.2–6.0 mM), La³⁺ decreases dose-dependently the force of cardiac contractions (by 3.3–92.2%). In parallel experiments on isolated rat heart mitochondria (RHM), La³⁺ at a concentration of 25 μM has been shown to cause swelling of non-energized and energized mitochondria incubated in isotonic medium with 125 mM NH₄NO₃ and in hypotonic medium with 25 mM CH₃COOK. The study of oxidative processes in mitochondria with aid of polarographic method of measurement of oxygen concentration has shown that La³⁺ at concentrations of 50 and 100 μM increases the oxygen consumption rate by mitochondria in the state 2. However, La³⁺ does not decrease the respiration rate of isolated mitochondria in the state 3, as this takes place in the case of use of Cd²⁺ or at the Ca²⁺-overloading of mitochondria. The rate of endogenous respiration of isolated mitochondria in the medium with La³⁺ was higher than in control, which suggests its effect on ion permeability of the inner membrane. The data obtained in this work indicate that the La³⁺-produced decrease of contractility of cardiac muscle is not only due to the direct blocking effect on the potential-controlled Ca²⁺-channels, but is also mediated by its unspecific action on the CM mitochondria. This action is manifested as an acceleration of the energy-dependent K⁺ transport in matrix and as an increase of ion permeability of the inner mitochondrial membrane (IMM).     

Heterogeneity of Maize Root Mitochondria from Plants Grown in the Presence of Ammonium

Mitochondria isolated from root tissue of maize plants grown on a modified Knop solution containing 10.9 mM nitrate ± 7.2 mM ammonium were purified on the discontinuous Percoll density gradient with polyvinylpyrrolidone (PVP) added. The presence of PVP allowed separation of several mitochondrial fractions of a different density. Contrary to mitochondria isolated from plants grown in the presence of nitrate alone, revealing only two fractions, the mitochondria from NH₄ ⁺/NO₃ ^–-plants were distributed in four fractions. Total amount of mitochondria, as well as specific activities of some nitrogen metabolism enzymes and tricarboxylic acid (TCA) cycle enzymes of all mitochondrial fractions, and respiratory activities of two lower density fractions isolated from plants grown on mixed nitrogen were higher in comparison to mitochondria from nitrate-grown plants.     

Effects of doxorubicin and its aglycone metabolite on calcium sequestration by rabbit heart, liver, and kidney mitochondria

Previous investigators have shown that following doxorubicin treatment heart mitochondria appear swollen and contain intramitochondrial dense inclusion bodies identified as calcium phosphate. In vitro studies have shown that similar morphological changes occur in mitochondria previously loaded with excess calcium. The present studies were performed to determine the effects of doxorubicin and its aglycone metabolite on ⁴⁵Ca²⁺ uptake by mitochondria isolated from the heart, liver, and kidney of the rabbit. Doxorubicin (100 μM) significantly inhibited the initial rate of ⁴⁵Ca²⁺ accumulated by mitochondria isolated from the three tissues. In contrast, the aglycone metabolite (100 μM) induced the reverse effect. In preloaded mitochondria the aglycone stimulated the release of calcium while doxorubicin was without effect. Mitochondria from the heart were significantly more sensitive to the effects of these anthracyclines than were mitochondria from the other two tissues. If these in vitro effects also occur in vitro, then the aglycone metabolite would be a more likely candidate in explaining the morphological changes in heart mitochondria previously described.     

Interferon inhibition of protein synthesis by isolated mitochondria.

Exogenously added EMC-RNA can stimulate the incorporation of [³H] leucine into protein carried out by mitochondria isolated from L cells, and this stimulation is reduced very significantly if the mitochondria are isolated from cells previously treated with interferon.     

Heterogeneity of chondrocyte mitochondria: A study of the Ca concentration and density banding characteristics of normal and rachitic cartilage

Previous morphological studies of the mineralizing epiphysis suggested that some mitochondria were concerned with Ca²⁺ accumulation while others were associated with cellular energetics and metabolism. To determine if there was mitochondrial heterogeneity in chondrocytes of the epiphyseal growth plate, mitochondria were isolated from four different regions of the plate and subjected to continuous sucrose gradient centrifugation. Centrifugation of the organelles in a narrow density sucrose gradient (1.5–2.0 M) in the presence of inhibitors of Ca²⁺ transport (ruthenium red and 5,5′-dithiobis-(2-nitrobenzoic acid)) revealed that considerable heterogeneity existed. In the least calcified zone 20% of the mitochondria formed a low density band of low Ca²⁺ concentration (309 nmol/mg protein). Organelles isolated from more calcified tissue zones showed a concomitant increase in Ca²⁺ concentration (up to 5700 nmol/mg protein) as well as an increase in the total percentage of mitochondria sedimenting in 2.0 M sucrose. The banding patterns of mitochondria isolated from rachitic and hypertrophic cartilage were similar. In addition, similarities were also noted in the Ca²⁺ concentration and the cytochrome oxidase activities of mitochondria of these tissues. During recovery from the rachitic condition, there was a change in the density centrifugation characteristics of this tissue and a substantial increase was noted in the proportion of mitochondria sedimenting in 2.0 M sucrose. The Ca²⁺ concentration of mitochondria of this rapidly calcifying tissue suggested that the critical Ca²⁺ concentration necessary for initiation of the calcification mechanism was 4 μmol/mg protein.     

Preparation and properties of mitochondria from cowpea nodules

Mitochondria were isolated from nodules of cowpea (Vigna unguiculata (L). Walp.) and purified on a Percoll gradient. They were only slightly contaminated by bacteroids (an average of 3.5%), and had low lipoxygenase activity. Compared to mitochondria from hypocotyls the nodule mitochondria had similar O₂ uptake rates and respiratory control ratios. The ADP/O ratios for both preparations were 1.4 to 1.7 and 2.3 to 2.6 with succinate and malate, respectively. Whereas mitochondria isolated from etiolated cowpea hypocotyls had 14 to 18% of their respiration insensitive to KCN, the respiration of nodule mitochondria was completely inhibited by KCN. Enzyme activities of nodule mitochondria were similar to those found in hypocotyl mitochondria, except for NAD⁺-malic enzyme which was 12-fold lower in the mitochondria from nodules.     

Vascular smooth muscle mitochondria: Magnesium content and transport

Endogenous magnesium content and magnesium transport of isolated bovine vascular smooth muscle mitochondria were studied. Mitochondria isolated from atherosclerotic bovine arteries contained two to three times as much magnesium (178 nmol/mg of mitochondrial protein) as those isolated from normal arteries (67 nmol/mg of mitochondrial protein). Electron-opaque granules were visible in the unstained unfixed mitochondria and could be shown with electron probe analysis to consist of magnesium, calcium, and phosphorus. At concentrations of external Mg²⁺ from 0 to 6 mm, the vascular smooth muscle mitochondria exhibited respiratory substrate-supported release of Mg²⁺ as studied with metallochromic indicator, eriochrome blue, using dual-wavelength spectrophotometry. The maximal velocity of energized release (3 nmol of Mg²⁺/s/mg of mitochondrial protein) was observed at 4 mm external Mg²⁺ and the half-maximal transport occurred at 0.5 mm.     

Balance between Cyanide-Sensitive and -Insensitive Respiration in Wheat Root Mitochondria, as Influenced by Salt Concentration in the Plant Growth Medium

Mitochondria were isolated from 7-day-old wheat roots (Triticum vulgare Vill. cv. Svenno Spring Wheat) grown in either a full-strength culture medium (100%) or in the same medium diluted 100 times (1%). Outer membrane integrity was assayed using the cytochrome c reduction assay. This indicated about 20% damage. Using an oxygen electrode the respiration of the mitochondria was measured with either malate or succinate as the substrate (both 40 mM). KCN (3 mM) and salicylhydroxamic acid (SHAM, 1 mM) were used as inhibitors. The properties of the isolated mitochondria (STATE 3 rate, ADP/O ratio, and KCN-sensitivity) depend upon the ionic concentration of the growth medium of the roots. In the mitochondria isolated from roots grown in the 1% medium (1% mitochondria) there is a synergistic effect of KCN and SHAM. This means that electrons can be shifted from one pathway to the other when only one of the inhibitors is added. This flexibility between the electron pathways is almost nil in the mitochondria isolated from roots grown in the 100% medium (100% mitochondria). The maximal capacity of the alternative electron pathway (= rate in the presence of KCN) is higher in 1% (40 nmol O₂ min^?1 (mg protein)^?1) than in 100% mitochondria (20 nmol O₂ min^?1 (mg protein)^?1. In 100% mitochondria the alternative pathway seems to be operating at maximal capacity in the absence of KCN with both substrates and in both STATES 3 and 4. In 1% mitochondria the alternative pathway functions at >50% of its capacity in the absence of KCN.     

THE EFFECTS OF TEN PHENOLIC COMPOUNDS ON HYPOCOTYL GROWTH AND MITOCHONDRIAL METABOLISM OF MUNG BEAN

Ten phenolic compounds were examined for their effect on mung bean (Phaseolus aureus L.) hypocotyl growth and on respiration and coupling parameters of isolated mung bean hypocotyl mitochondria. Three compounds—tannic, gentisic, and p-coumaric acids—inhibited hypocotyl growth and when incubated with isolated hypocotyl mitochondria released respiratory control, inhibited respiration, and prevented substrate-supported Ca²⁺ and PO₄ transport. Vanillic acid also inhibited hypocotyl growth and reduced mitochondrial Ca²⁺ uptake but did not affect respiration or respiratory control of isolated mitochondria. This is the first compound reported to selectively inhibit Ca²⁺ uptake in plant mitochondria. Two other phenolic compounds—α, 3,5-resorcylic and protocatechuic acids—showed no significant effect on hypocotyl growth and did not affect mitochondrial oxidative phosphorylation either separately or in various combinations. Four phenolic compounds—ferulic, caffeic, p-hydroxybenzoic, and syringic acids—showed a significant reduction in mung bean hypocotyl growth but did not inhibit any of the mitochondrial processes examined. The results show that phenolic compounds which alter respiration or coupling responses in isolated mitochondria also inhibit hypocotyl growth and may reflect a mechanism of action for these natural growth inhibitors.     

Isolation of two ATPase inhibitor proteins from mitochondria of rat skeletal muscle

An ATPase inhibitor protein was isolated from mitochondria of rat skeletal muscle by alkaline extraction and then was purified, It differed in definitive ways from the ATPase inhibitor protein isolated previously by Ca²⁺-stripping of submitochondrial particles of rat skeletal muscle. The two ATPase inhibitor proteins were shown to be present together in intact mitochondria.     

Biosynthesis of subviral oncogenic particles (virosomes) in mitochondria of rous sarcoma and Rauscher murine leukemia cells

Summary Experimental evidence for the presence and biosynthesis of subviral, leukemogenic particles in the isolated mitochondria of spleen cells of mice infected with Rauscher murine leukemia (RML) virus is presented. These subviral particles sediment at a density of 1.27–1.29 g/ml and induce splenomegaly and RML three weeks after i.v. or i.p. administration to white mice. Virosomes have been labelled with [³²P]phosphate in the isolated mitochondria from RML spleen cells and high molecular weight (70S) [³²P]RNA has been isolated from these subviral, leukemogenic particles. Rauscher virus group specific antigens were detected by immunodiffusion in the inner membrane and matrix fraction of the mitochondria of RML spleen cells. These results together with our earlier findings strongly suggest that mitochondria of the transformed cells participate in the biosynthesis of RNA tumor viruses. Possible mechanism of the penetration of viral genetic information of RNA tumor viruses into mitochondria of tumor cellsin vivo is discussed.     

Far-red light irradiation of intact corn seedlings affects mitochondrial and calmodulin-dependent microsomal Ca2+ transport

Microsomal fractions isolated from coleoptiles of dark or far-red light grown corn show ATP-dependent Ca²⁺ accumulation. The microsomal transport from dark but not from far-red light grown tissue could be stimulated by calmodulin. Ca²⁺ accumulation into mitochondria from coleoptiles of far-red light grown corn in also inhibited as compared to the dark controls. Light irradiation of isolated microsomes and mitochondria had no effect on either Ca²⁺ uptake nor efflux.     

Calcium and Ammonia Stimulate Monoamine Oxidase A Activity in Brain Mitochondria

The effect of ammonia and calcium on the activity of monoamine oxidase (MAO) was studied. The enzyme activity in nonsynaptic brain mitochondria isolated from the rats treated with ammonium acetate was estimated from the release of H₂O₂using spectrophotometry. The effect of calcium on MAO was assayed directly after adding Ca²⁺to the nonsynaptic mitochondria isolated from the forebrain of control rats. Both ammonium acetate injectionin vivoand Ca²⁺additionin vitrostimulated the activity of MAO A but not that of MAO B in mitochondria. This is the first evidence for ammonia and Ca²⁺regulation of MAO A in the forebrain nonsynaptic mitochondria and for their contribution to oxidative stress in the neurons via MAO A activation.     

Divalent cation-activated ATP hydrolysis by mitochondrial ATP'ase — Mechanism for energy depletion in ischemic reperfused myocardium

Recovery of high-energy compounds by ischemic myocardium is believed to be important for its return to normal functioning. While it has been previously shown that oxidative phosphorylation is markedly reduced in mitochondria isolated from ischemic myocardium in the presence of all substrates, alterations in ATPase activity have not been confirmed. This study demonstrates that, although the rate of ATP hydrolysis produced by mitochondria isolated from 2-hr ischemic myocardium does not significantly differ from that produced by non-ischemic mitochondria, the rate produced by 2-hr ischemic, 2 hr reperfused mitochondria is significantly higher. Also, Ca⁺⁺ content was observed to be higher in reperfused than in non-reperfused ischemic mitocheondria. The addition of EDTA, EGTA, or oligomycin to the reperfused ischemic mitochondria resulted in the inhibition of ATPase activity. These results indicate that mitochondrial ATPase in ischemic myocardium is activated by Ca⁺⁺ ions and that ischemic reperfused myocardium may contain mitochondria with uncontrolled ATPase activity such that high energy phosphate supplies are excessively depleted when the cells are reperfused.     

Steroidogenesis in the zona glomerulosa of the adrenal cortex I. Isolation and some properties of mitochondria from the zona glomerulosa of the bovine adrenal cortex

Isolation procedures for mitochondria from the zona glomerulosa of the bovine adrenal cortex are described and the properties of the mitochondria thus prepared are compared with those isolated from the zona fasciculoreticularis. The cristal membranes of mitochondria in the zona glomerulosa in situ are tubular or tubulovesicular, whereas those of mitochondria in the zona fasciculoreticularis in situ are vesicular. When mitochondria are isolated from the former zone, they invariably showed the condensed configuration regardless of isolation media, whereas those isolated from the latter zone in an ST medium showed the orthodox configuration. When Ca²⁺ was added to mitochondria isolated either from the zona glomerulosa or the zona fasciculoreticularis in an STE medium in the condensed configuration, a transition from the condensed to the orthodox configuration took place; the cristal membranes of mitochondria from the zona glomerulosa became tubular or tubulovesicular and those of mitochondria from the zona fasciculoreticularis became vesicular. Contaminations of mitrochondria of the zona glomerulosa with other cellular organelles were examined using various marker enzymes. There was no difference in cytochrome content between mitochondria of the two zones specified above. The coupling efficiency of mitochondria of the zona glomerulosa was found to be remarkably effected by temperature during the isolation procedures. Effects of various substrates, isolation media, and bovine serum albumin on the coupling efficiency of mitochondria of the glomerulosa are also described.     

Adaptation to salinity by fish: Alterations in energy transducing status of muscle mitochondria

The functional status of fish muscle mitochondria during exposure of the organism to salinity stress was studied. No alterations were observed in the substrate oxidation capacity. However, the mitochondria appear to be in an uncoupled state during the first few days of exposure and recover thereafter. This could be correlated to high endogenous Ca²⁺ levels in the mitochondria in the early period. A Na⁺-Ca²⁺ antiport in these mitochondria is shown. Evidence is also presented to show that the mitochondria isolated during the early stages of stress are in a swollen state and are unable to contract on addition of ATP and Mg²⁺ Continued exposure to the stress, however, reverses the situation. Publication No. 034 from the Department of Biochemistry.