HUMANGGP:036206 - FACTA Search

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Query: HUMANGGP:036206 (endoplasmic reticulum)
63,868 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have shown that the isolated sarcoplasmic reticulum from rabbit slow muscle contains cytochrome b5 which can be reduced via a flavoprotein, with FAD as the prosthetic group. In the presence of NADH and oxygen, these sarcoplasmic reticulum membranes can convert stearyl-CoA to oleyl-CoA, similarly to liver endoplasmic reticulum membranes. However, the stearyl-CoA desaturase system is virtually lacking in fast muscle sarcoplasmic reticulum. The data suggest that these differences between fast and slow twitch muscle may be related to the characteristic fatty acid composition of phospholipids and the function of the sarcoplasmic reticulum.
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PMID:Evidence for the presence of the stearyl-CoA desaturase system in the sarcoplasmic reticulum of rabbit slow muscle. 3 16

Male albino rats were deprived of water for 6 days, then they were allowed to drink tap water ad libitim. The structure of the liver was examined by light and electron microscopy, and the protein and dry matter contents, oxygen consumption and glucose-6-phosphatase activity of the liver were determined after rehydration. At 10 minutes, the mitochondria showed signs of division and a peculiar transformation of the cristae. At 60 minutes, the membranes of the rough endoplasmic reticulum were found to have proliferated. At 12 hours, the smooth-surfaced membranes showed hypertrophy and the bile canaliculi were distended. At 24 hours all rehydration induced organelle alterations were declining. The biochemical findings agreed well with the fine structural changes and both were indicative of an enchanced functional capacity of liver cells during rehydration.
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PMID:Effect of rehydration of rat liver tissue after water deprivation. 18 Jul 60

1. Cytochrome P/450-dependent mixed function oxidations of hexobarbital, phenyramidol, and alprenolol in intact hepatocytes were examined at different steady state oxygen concentrations. Apparent Kmo2 values were determined to be 6.4 +/- 1.7, 3.6 +/- 0.6, and 9.8 +/- 1.2 micronM, respectively. 2. Apparent Kmo2 values for metabolism of hexobarbital and alprenolol by liver microsomes were 4.3 +/- 0.4 and 8.7 +/- 0.7 micronM, similar to the corresponding values for whole cells. Therefore, no detectable gradient of O2 concentration exists between extracellular space and endoplasmic reticulum of hepatocytes at these oxygen concentrations. 3. Steady state concentrations of ATP, ADP, AMP, lactate, and pyruvate at different steady state oxygen concentrations were used as indicators of mitochondrial oxygen dependence in intact hepatocytes. Half-maximal changes occurred at [O2] = 12.6 micronM for cytoplasmic [NAD+]/[NADH] (estimated from [lactate]/[pyruvate]), at 7.0 micronM for [ATP]/[ADP], and at 2.8 micronM for adenylate energy charge. The apparent cellular respiratory Kmo2 was 1.90 +/- 0.18 micronM. 4. Comparison of values for oxygen dependence of mitochondrial functions in isolated hepatocytes with published values for isolated mitochondria suggests that a substantial intracellular oxygen gradient exists between the outer cellular membrane and the mitochondrial inner membrane at po2 values below the critical O2 tensions.
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PMID:Gradients of O2 concentration in hepatocytes. 20 20

Rat liver microsomes oxidized ethanol two to three times faster than propanol when incubated with either an NADPH- or an H2O2-generating system. In addition, solubilized, purified microsomal subfractions were found to contain protein with an electrophoretic mobility identical to rat liver catalase on SDS polyacrylamide gels, suggesting that the separation of catalase from cytochrome P-450 and other microsomal components may not be feasible. These data support the postulate that catalase is responsible for NADPH-dependent microsomal ethanol oxidation. Direct read-out techniques for pyridine nucleotides, the catalase-H2O2 complex, and cytochrome P-450 were utilized to evaluate the specificity of inhibitors of alcohol dehydrogenase (4-methylpyrazole; 4 mM) and catalase (aminotriazole; 1.0 g/kg) qualitatively in perfused rat livers. 4-Methylpyrazole and aminotriazole are specific inhibitors for alcohol dehydrogenase and catalase, respectively, under these conditions. Neither inhibitor nor a combination of them altered the mixed function oxygen of p-nitroanisole to p-nitrophenol as observed by oxygen uptake and product formation. When ethanol utilization was measured over the concentration range 20-80 mM in perfused liver, a concentration dependence was observed. At low concentrations of ethanol, ethanol oxidation was almost totally abolished by 4-methylpyrazole; however, the contribution of 4-methylpyrazole-insensitive ethanol uptake increased as a function of ethanol concentration. At 80 mM ethanol, ethanol utilization was nearly 50% methylpyrazole-insensitive. This portion of ethanol oxidation, however, was abolished by aminotriazole. The data indicate that alcohol dehydrogenase and catalase-H2O2 are responsible for hepatic ethanol oxidation. At low ethanol concentrations (less than 20 mM), alcohol dehydrogenase is predominant; however, at higher ethanol concentrations (up to 80 mM), the contribution of catalase-H2O2 to overall ethanol utilization is significant. No evidence that the endoplasmic reticulum is involved in ethanol metabolism in the perfused liver emerged from these studies.
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PMID:Significant pathways of hepatic ethanol metabolism. 24 Jul 43

This paper will concentrate on the damage to liver endoplasmic reticulum and plasma membrane fractions that results from exposure to O2- derived radicals and lipid peroxidation. Lipid peroxidation in rat liver endoplasmic reticulum can be produced in various ways involving electron flow out of the NADPH-cytochrome P450 electron-transport chain; analogous reactions occur also in liver plasma membrane suspensions. The subsequent damaging reactions of oxygen-derived radicals and of lipid peroxidation on biological components can be attenuated by various free-radical scavengers and a survey of more than 50 such scavengers in four different systems involving lipid peroxidation has been made. The conditions required for such scavenging reactions to be effective will be outlined, and the difficulties inherent in using such scavengers in vivo will be discussed.
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PMID:Mechanisms of protection against the damage produced in biological systems by oxygen-derived radicals. 25 59

Addition of beta-lapachone to the epimastigote (culture) form of Trypanosoma cruzi, suspended in saline, buffered-isotonic medium (pH 7.2), determined the appearance of large amounts of H2O2 in the suspension medium, as measured spectrophotometrically by formation of the H2O2 horse radish peroxidase complex. Under similar conditions, alpha-lapachone did not induce H2O2 formmation. Using NADH as electron donor, beta-lapachone (not alpha-lapachone) increased significantly the rate of H2O2 generation by epimastigote homogenates and the same occurred with NADPH, although in a reduced extent. Similar results were obtained with the isolated mitochondrial and microsomal fractions although with the latter NADPH was more effective than NADH as electron donor for beta-lapachone reduction and peroxide generation. The distribution of peroxide generation in epimastigote fractions would indicate that about 92% of the beta-lapachone dependent formation of peroxide occurred in the mitochondria, and 8% in the endoplasmic reticulum. The growth of epimastigotes was inhibited 95% by 1 microgram/ml beta-lapachone, a concentration that determined maximal rate of H2O2 production. Since H2O2 and other intermediates of oxygen reduction such as O2- (superoxide anion) and OH (hydroxyl radical) are lethal to cells and tissues, it is possible that the effect of beta-lapachone on T. cruzi proliferation in vitro was mediated by H2O2 and related free radicals.
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PMID:[Effect of beta and alpha-lapachone on the production of H202 and on the growth of Trypanosoma cruzi]. 33 93

The authors compared the temporal pattern of low-dose oxidant-induced lung injury in rats after exposure to either 1 ppm ozone or 100% oxygen for 24 hr or from treatment with paraquat (20 mg/kg, intraperitoneally). Histological abnormalities in airways, parenchyma, and blood vessels were evaluated from coded and randomized sections and compared with appropriate controls. Drug metabolism by lung endoplasmic reticulum was studied in similarly treated rats as another index of lung injury. Exposure to oxygen caused no discernible morphological or biochemical abnormalities. Exposure to ozone caused histological lesions which appeared early and resolved by 7 to 14 days, whereas paraquat-induced lesions were first evident at about 7 to 14 days. Abnormalities in drug metabolism followed a similar pattern. Low-dose oxidant exposure from ozone and paraquat produce similar histological and biochemical lesions in rat lungs but with distinct temporal patterns.
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PMID:Biochemical and morphological correlation of oxidant-induced pulmonary injury: low dose exposure to paraquat, oxygen, and ozone. 51 19

A patient with a cerebro-hepato-renal syndrome was investigated. The visceral manifestations were those of the Zellweger syndrome (ZS); however, the child exhibited muscular hypertonia and survived into the 2nd year of life. Ultramicroscopically, hepatocytes were lacking peroxisomes, but, contrary to findings in one patient with ZS [2], contained smooth endoplasmic reticulum. No catalase was found by histochemistry or spectroscopy. Mitochondria showed normal succinate and glutamate respiration, and normal coupling of respiration to the phosphorylation potential. The cytochrome (cyt) content was diminished to one-third with an abnormally inversed redox pattern of the respiratory chain in the controlled state, cyt b being 5%, cyt c 23% reduced. The oxygen affinity of cyt a3 was normal. These findings exclude a defect in the nonheme iron protein region of the respiratory chain as described in ZS [2], but point to a functional abnormality of cyt b in out patient.
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PMID:A metabolic disorder similar to Zellweger syndrome with hepatic acatalasia and absence of peroxisomes, altered content and redox state of cytochromes, and infantile cirrhosis with hemosiderosis. 84 60

Inhibition by CO of benzo[a]pyrene hydroxylation was studied in hepatic microsomes from rats pretreated with phenobarbital, 3-methylcholanthrene or 2,3,7,8-tetrachlorodibenzo-p-dioxin, from animals treated with vehicle (saline or corn oil, respectively), and in a reconstituted microsomal cytochrome P-448 system prepared from rats treated with 3-methylcholanthrene. In all preparations the hydroxylation was inhibited by CO, and this inhibition was most effectively reversed by irradiation with monochromatic light of 450 nm wavelength. These observations provide direct evidence that the oxygen-activating component of all the examined benzo[a]pyrene hydroxylase systems is a P-450-type heme protein. The only striking difference observed in these systems was the low CO sensitivity of the benzo[a]pyrene hydroxylase reaction in microsomes from animals treated with 3-methylcholanthrene or 2,3,7,8-tetrachlorodibenzo-p-dioxin. Half-maximal inhibition occurred at CO/O2 ratios of 9--12, rather than at 1--2, which is the usual range for P-450-linked mixed-function oxidase reactions. In contrast, the reconstituted benzo[a]pyrene hydroxylase system, with purified cytochrome P-448 from 3-methylcholanthrene-induced rats, exhibited a considerably higher sensitivity towards CO (CO/O2 ratio approximately 1), well within the range for mixed-function oxidase reactions. It is concluded that the observed diminished CO sensitivity of microsomal benzo[a]pyrene hydroxylase in 3-methylcholanthrene- or 2,3,7,8-tetrachlorodibenzo-p-dioxin-treated rats results from alterations in the composition and/or structural organization of the microenvironment of cytochrome P-448 in the endoplasmic reticulum in response to the inducing action of polycyclic aromatic hydrocarbons and related agents, and is not related to changes in the heme protein P-448 per se. The detailed nature of these changes is the subject of ongoing studies.
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PMID:Inhibition by CO of hepatic benzo[a]pyrene hydroxylation and its reversal by monochromatic light. 85 76

The general morphology of the gills is similar in larval (ammocoetes) and parasitic adult sea lampreys, Petromyzon marinus, despite different methods of ventilation necessitated by their feeding habits. The gill lamellae are supported by randomly-distributed pillar cells which enclose blood spaces and collagen columns. The distribution of these cells in lampreys is different from that of higher fishes and it may be inefficient for respiratory exchange. The presence of cytoplasmic microfilaments suggests that these cells have the ability to reduce the lamellar blood spaces through contraction. Marginal channels at the tips of the lamellae are lined only by endothelial cells. The thickness of the water-blood pathway in lampreys falls within the range described for higher fishes, with the most efficient gas exchange likely occuring at the lamellar tips where only a single layer of epithelial cells is present. The abrupt increase in height of the epithelium near the lamellar bases in adults, compared to the gradual transition in height along the lamellae in ammocoetes, is perhaps reflective of higher oxygen requirements during the parasitic stage. The consistent appearance of wide, lateral intercellular spaces within the respiratory epithelium of lampreys indicates possible involvement of these spaces in transport. Mucous secretion appears to be an important function of the superficial platelet cells in ammocoetes. "Mitochondria-rich" and "mitochondria-poor" superficial cells are observed in both ammocoetes and adults, with the mitochondria-rich cells more prevalent toward the lamellar bases. The possibility that at least some of these cells may be involved in absorption is discussed. Mitochondria-rich cells in the interlamellar region are morphologically different in ammocoetes and adults but all possess an abundance of smooth endoplasmic reticulum and hence resemble "chloride cells" of higher fishes. The similarity of these cells in the parasitic adult lamprey to chloride cells of marine fishes may reflect the potential of the adult lamprey to osmoregulate in salt water. A scarcity of these cells in ammocoetes and their resemblance to chloride cells in freshwater fishes may reflect the restriction of larval lampreys to a freshwater habitat.
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PMID:Morphology of the gills of larval and parasitic adult sea lamprey, Petromyzon marinus L. 93 69

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