Oxidation of proline by plant mitochondria

Mitochondria isolated from etiolated shoots of corn (Zea mays), wheat (Triticum aestivum), barley (Hordeum vulgare), soybean (Glycine max L. Merr.), and mung bean (Phaseolus aureus) exhibited a proline-dependent O₂ uptake subject to respiratory control. ADP/O ratios with proline as substrate were intermediate between ratios obtained with exogenous NADH and malate + pyruvate as substrates. Isotope studies showed proline metabolism to be dependent on O₂, but not NAD. The major ninhydrin-positive product formed via Δ¹-pyrroline-5-carboxylic acid was glutamate. Mitochondria were capable of further metabolism of glutamate, as radioactive CO₂, organic acids, and aspartate were recovered after [¹⁴C]proline feeding experiments. These results demonstrate the mitochondrial association and O₂ dependence of plant proline metabolism.     

Solute regulation and growth by roots and shoots of water-stressed maize plants

Potted maize seedlings were subjected to a single period of water stress. As the severity of water stress increased, measurements were made of leaf and root solute and water potentials, leaf diffusive conductance and leaf and root growth. After day four of the drying cycle, the rate of leaf extension and the development of leaf area were reduced. This reduction correlated well with a reduction in leaf turgor which occurred at this time. A significant accumulation of solutes in the root tips of the unwatered plants resulted in the maintenance of root turgor for the duration of the water stress treatment. Root growth of the unwatered plants was also maintained as the severity of water stress increased. A mild degree of water stress resulted in a net increase in root growth compared to the situation in well-watered plants. The significance of solute regulation and continued root growth for plants growing in drying soil is discussed.Abbreviations PAR photosynthetically active radiation - MPa mega pascat     

Oxidation of reduced nicotinamide adenine dinucleotide phosphate by isolated corn mitochondria

Isolated corn (Zea mays L.) mitochondria were found to oxidize reduced nicotinamide adenine dinucleotide phosphate in a KCl reaction medium. This oxidation was dependent on the presence of calcium or phosphate or both. Strontium and manganese substituted for calcium, but magnesium or barium did not. The oxidation of NADPH produced contraction of mitochondria swollen in KCl. Further evidence that the oxidation of NADPH was coupled was observed in respiratory control and adenosine diphosphate-oxygen ratios that were comparable to those reported for reduced nicotinamide adenine dinucleotide. The pathways of electron flow from NADH and NADPH were compared through the addition of electron transport inhibitors. The only difference between the two dinucleotides was that amytal was found to inhibit almost totally the state 3 oxidation of NADPH, but had little effect on the state 3 oxidation of NADH. The hypothetical pathways for electron flow from NADPH are discussed, as are the possible sites of calcium and phosphate stimulation.     

Light stimulation of proline synthesis in water-stressed barley leaves

The effect of light on [¹⁴C]glutamate conversion to free proline during water stress was studied in attached barley (Hordeum vulgare L.) leaves which had been trimmed to 10 cm in length. Plants at the three-leaf stage were stressed by flooding the rooting medium with polyethylene glycol 6000 (osmotic potential-19 bars) for up to 3 d. During this time the free proline content of 10-cm second leaves rose from about 0.02 to 2 mol/leaf while free glutamate content remained steady at about 0.6 mol/leaf. In stressed leaves, the amount of [¹⁴C]glutamate converted to proline in a 3-h period of light or darkness was taken to reflect the in-vivo rate of proline biosynthesis because the following conditions were met: (a) free-glutamate levels were not significantly different in light and darkness; (b) both tracer [¹⁴C]-glutamate and [¹⁴C]proline were rapidly absorbed; (c) rates of [¹⁴C]proline oxidation and incorporation into protein were very slow. As leaf water potential fell, more [¹⁴C]glutamate was converted to proline in both light and darkness, but at any given water potential in the range-12 to-20 bars, illuminated leaves converted twice as much [¹⁴C]glutamate to proline.     

Oxidation of lactate in isolated rat heart mitochondria

In unwashed mitochondria the oxidation of L-lactate (with NAD+) proceeds in presence of the added lactate dehydrogenase. The respiration is characterized by the high rate in state 4 and is stimulated by ADP. This process takes place in unwashed mitochondria and homogenate of the heart in absence of added lactate dehydrogenase. Oxidation of lactate with NAD+ is inhibited by rotenone. It has been also revealed that the oxidation of glutamate is insufficiently altered in presence of lactate (with NAD+) in unwashed mitochondria as compared with the washed ones. It is supposed that the stimulating effect of lactate with NAD+ on the mitochondria respiration is not so much a result of the membrane-damaged action as a result of oxidation of lactate dehydrogenase reaction products: phosphorylative oxidation of pyruvate and nonconjugated oxidation of NADH. Utilization of these products takes place in the main respiratory chain, including its first stage.     

Absence of heat shock protein synthesis in isolated mitochondria and plastids from maize

Examination of the proteins synthesized by isolated mitochondria, chloroplasts, or proplastids from maize tissues showed that a heat treatment at 40 degrees C does not induce or enhance the synthesis of any protein when compared to preparations treated at the control temperature of 28 degrees C. These observations are consistent with the results obtained by labeling proteins in vivo under sterile conditions. In vivo labeling in the presence of cycloheximide during heat shock showed no heat shock protein synthesis. Labeling in the presence of chloramphenicol during heat shock showed a similar heat shock protein pattern as in the absence of the inhibitor. It is concluded that maize organelles do not synthesize heat shock proteins and that, if present, they may be due to bacterial contamination.     

Characteristics of glutamate dehydrogenase in mitochondria prepared from corn shoots

The amination of α-ketoglutarate (α-KG) by NADH-glutamate dehydrogenase (GDH) obtained from Sephadex G-75 treated crude extracts from shoots of 5-day-old seedlings was stimulated by the addition of Ca²⁺. The NADH-GDH purified 161-fold with ammonium sulfate, DEAE-Toyopearl, and Sephadex G-200 was also activated by Ca²⁺ in the presence of 160 micromolar NADH. However, with 10 micromolar NADH, Ca²⁺ had no effect on the NADH-GDH activity. The deamination reaction (NAD-GDH) was not influenced by the addition of Ca²⁺.

About 25% of the NADH-GDH activity was solubilized from purified mitochondria after a simple osmotic shock treatment, whereas the remaining 75% of the activity was associated with the mitochondrial membrane fraction. When the lysed mitochondria, mitochondrial matrix, or mitochondrial membrane fraction was used as the source of NADH-GDH, Ca²⁺ had little effect on its activity. The mitochondrial fraction contained about 155 nanomoles Ca per milligram of mitochondrial protein, suggesting that the NADH-GDH in the mitochondria is already in an activated form with regard Ca²⁺. In a simulated in vitro system using concentrations of 6.4 millimolar NAD, 0.21 millimolar NADH, 5 millimolar α-KG, and 5 millimolar glutamate thought to occur in the mitochondria, together with 1 millimolar Ca²⁺, 10 and 50 millimolar NH₄⁺, and purified enzyme, the equilibrium of GDH was in the direction of glutamate formation.

     

Uptake of proline by brushborder vesicles isolated from human kidney cortex

Proline transport into renal brushborder membrane vesicles isolated from human kidney is mediated by two uptake systems. The high-affinity system is stimulated by a Na gradient and appears to be shared with glycine while the low-affinity system is not. Uptake curves of low concentrations of proline exhibit a Na-gradient-dependent overshoot indicative of electrogenic transport. The proline transport systems observed in isolated human renal brushborder membrane vesicles appear to have characteristics similar to those in rat kidney membranes.     

Agmatine deiminase from maize shoots: purification and properties

Agmatine deiminase was purified to a specific activity of 537 nkat/mg protein using an improved procedure. The recovery was 47% and the enzyme was homogeneous and remarkably stable. The molecular mass of the enzyme as determined by gel filtration was 75 kDa, and SDS-PAGE suggests that the enzyme is a heterodimer composed of subunits of 43.5 and 44 kDa. The Km for agmatine was 12 microM and arcaine was shown to be a potent competitive inhibitor of the enzyme, with a Ki of 3.3 microM. The enzyme does not have either putrescine synthase activity or the activities of its components ornithine and putrescine transcarbamylase. These results distinctly demonstrate that agmatine deiminase is different from putrescine synthase.     

Release of cytochrome c from isolated mitochondria by etoposide

The efficacy of chemotherapeutic agents on tumor cells has been shown to be modulated by tumor suppressor gene p53 and its target genes such as Bcl-2 family members (Bax, Noxa, and PUMA). However, various chemotherapeutic agents can induce cell death in tumor cells that do not express the functional p53, suggesting that some chemotherapeutic agents may induce cell death in a p53-independent pathway. Here we showed that etoposide can induce the similar degree of cell death in p53-deficient HCT 116 cells, whereas 5'-FU-mediated cell death is strongly dependent on the existence of functional p53 in HCT 116 cells. Further, we provide the evidence that etoposide can induce the cytochrome c release from isolated mitochondria, and etoposide-induced cytochrome c release is not accompanied with the large amplitude swelling of mitochondria. These data suggest that etoposide can directly induce the mitochondrial dysfunction irrespective of p53 status, and it may, at least in part, account for the p53-independent pathway in cell death induced by chemotherapeutic agents.     

Esterification of chlorophyllide by geranylgeranyl pyrophosphate in a cell-free system from maize shoots.

A cell-free system is described which incorporates [${}^{14}\text{C}$]-geranylgeranyl pyrophosphate, but not free [${}^{14}\text{C}$]-geranylgeraniol, into chlorophyll a_{geranylgeraniol}. The esterifying enzyme is found in the 75,000 g pellet of a homogenate from maize shoots whereas most of the phosphatase activity remains in the supernatant. The enzyme is different from chlorophyllase which has been discussed in the literature as the possible esterifying enzyme.