Comparison of cell-free protein synthesis by different regions of chicken brain

The cell-free protein synthesis by the postmitochondrial supernatant from chicken cerebrum was twofold greater than protein synthesis by the cerebellum or optic lobes. Ribosomal aggregation of mRNA and ribonuclease activity of the postmitochondrial supernatant from the three brain regions was not statistically different. The higher protein synthetic activity of the cerebral postmitochondrial supernatant was associated with both the postribosomal supernatant (cell sap) and microsomal fractions. Cerebral monomeric ribosomes were more active in polyuridylic acid directed polyphenylalanine synthesis than monomeric ribosomes from either the cerebellum or optic lobes. The ability of cerebral cell sap to support polyuridylic acid directed polyphenylalanine synthesis was 1.6 to 2 times greater than cell sap from the other two regions. Cell sap factors other than tRNA^phe or phenylalanyl-tRNA synthetases appear to be responsible for the higher protein synthetic activity of the cbr cell sap.     

Intracellular distribution of fish muscle alkaline proteinase

1. Intracellular distribution of a muscle alkaline proteinase was investigated on four kinds of fish. 2. The total activity of the muscle proteinase of carp, Cyprinus carpio, was larger in both myofibrillar (Mf) and microsomal (Mic) fractions than the activity in mitochondrial, lysosomal, and supernatant fractions. The activity found in Mf fraction seemed to due to the Mic enzyme which was not separated from Mf fraction. 3. The relative specific activity was mostly found in Mic fraction in the species tested. 4. The results indicate that the distribution pattern of fish muscle alkaline proteinase is different from those of cathepsin D and acid phosphatase. 5. The Mic fraction hydrolyzed Mf and sarcoplasmic proteins. The rates were 40 and 55%, respectively, of the rate when casein was used as a substrate.     

The presence and activity in normal and regenerating rat liver postmicrosomal supernatant fraction of an enzyme with properties similar to those of membrane-bound 5''-nucleotidase.

An alkaline 5'-nucleotidase with properties similar to those of membrane-bound 5'-nucleotidase was recovered in soluble form in the postmicrosomal supernatant fraction (cytosol) of rat liver. The enzyme seems to constitute a quantitatively distinct fraction, since the activity in postmicrosomal supernatants was increased by a further 10% by additional homogenization of livers. Lysosomal acid phosphatase activity increased similarly, whereas other membrane-bound marker enzymes alkaline phosphatase, phosphodiesterase I and glucose-6-phosphatase showed no increase when homogenization of liver tissue was continued. Gel-permeation chromatography and pH-dependence studies indicated that enzyme activity in the supernatant fraction with 0.3 mM-UMP or -AMP as substrate at pH 8.1 was about 85 or 100% specific respectively. In regenerating liver the enzyme recovered in soluble form showed decreased specific activity, in contrast with alkaline phosphatase measured for comparison. The nucleotidase activity per mg of cytosolic protein was 2.1 nmol/min with AMP as substrate. The total activity measured in the postmicrosomal supernatant was 1.5% of the homogenate activity measured in the presence of detergent.     

Characteristics of lysosomes in the rat placental cells

Six acid hydrolases, cytochrome oxidase, and alkaline phosphatase were demonstrated in 0.25 m sucrose homogenates of rat chorioallantoic placenta. The acid hydrolases were: acid phosphatase, β-glucuronidase, N-acetyl-β-glucosaminidase, β-galactosidase, and acid deoxyribonuclease, showing optimum activity near pH 4.5; cathepsin, with optimum activity near pH 3.6. The free acid hydrolases present in cytoplasmic extracts expressed 20–40% of their total activity. “Total” activity was defined as the enzyme activity observed in the presence of Triton X-100, while “free” activity denoted enzyme activity measured under similar assay conditions except in the presence of sucrose and absence of Triton X-100. The decreased activity or latency in the assays for the free activity of acid phosphatase, acid deoxyribonuclease, and cathepsin persisted after incubation at pH 5 and 37 ° up to an hour. In contrast, this latency did not persist after incubation of the β-glycosidases. Additionally, the free activity of all the designated enzymes of the cytoplasmic extract was in excess of the nonsedimentable activity observed.     

Phosphatase activity in Amoeba proteus at pH 9.0

In the free-living amoeba Amoeba proteus (strain B), after PAAG disk-electrophoresis of the homogenate supernatant, at using 1-naphthyl phosphate as a substrate and pH 9.0, three forms of phosphatase activity were revealed; they were arbitrarily called "fast", "intermediate", and "slow" phosphatases. The fast phosphatase has been established to be a fraction of lysosomal acid phosphatase that preserves some low activity at alkaline pH. The question as to which particular class the intermediate phosphatase belongs to has remained unanswered: it can be both acid phosphatase and protein tyrosine phosphatase (PTP). Based on data of inhibitor analysis, large substrate specificity, results of experiments with reactivation by Zn ions after inactivation with EDTA, other than in the fast and intermediate phosphatases localization in the amoeba cell, it is concluded that only slow phosphatase can be classified as alkaline phosphatase (EC 3.1.3.1).     

Proteolytic enzymes in sea urchin eggs: characterization, localization and activity before and after fertilization

The pH versus proteinase activity curve (casein or hemoglobin plus urea substrate) for homogenates of unfertilized Lytechinus eggs reveals two regions of maximum activity: one between pH 3.5 and 4.3, and another of far greater magnitude from pH 8.0 to 11.0. The two classes of proteinases can be separated on a sucrose density gradient. Both the acid and alkaline proteinases in homogenates prepared in isotonic monovalent salt solutions are remarkably stable at pH 7.4 and 0°C. Using synthetic peptide substrates, an enzyme with the specific esterase activity of chymotrypsin was demonstrated; this enzyme accounts for the major part of the proteinase activity at alkaline pH. In addition, an enzyme with specific esterase activity of trypsin was shown to be present, but of low activity. The proteinase activity at acid pH is largely due to an enzyme resembling cathepsin D. The data also suggest the presence of cathepsin B and cathepsin IV (or catheptic carboxypeptidase). When eggs are homogenized in isotonic NaCl plus KCl at pH 7.4, 0.02 M tris buffer at 0°C, all of the alkaline proteinase, and 85–90% of the acid proteinase activity is sedimented at 10,000 g. The presence of any proteinase activity in the supernatant phase represents an artifact of the preparative procedures used. The granules which possess the proteinase activity are contained entirely in the yolk fractions; and the acid proteinase is contained in a population of granules which sediment more readily than those which contain the alkaline proteinase. The acid proteinase resembles the lysosomal acid hydrolases in that it is readily released from the particulates; in contrast, the alkaline proteinase is bound relatively firmly. In contradistinction to reports in the literature, no changes in proteinase activity nor intracellular distribution could be detected following fertilization.     

Studies on the stearic acid dehydrogenase in the liver and brain of rats of various ages (author's transl)]

Tissue slices from the liver and brain of 7-day-old rats incubated with [1-14C]stearic acid desaturate the stearate to oleate. The activities of the two tissues are different but of the same order of magnitude. With increasing age, the activity in the liver increases markedly, while the brain activity decreases. The postmitochondrial supernatant from adult (3-month-old) liver contains 2 to 3 orders of magnitude more stearoyl-CoA dehydrogenase activity than the brain postmitochondrial fraction. The washed microsomal fraction from liver had about the same activity as the postmitochondrial supernatant, but no dehydrogenase activity could be detected in the washed microsomal fraction from the brain. The acyl-CoA synthetase and the palmitoyl-CoA hydrolase activities measured in the washed microsomes from adult brain were both lower than in liver microsomes. The concentration of stearoyl-CoA (the substrate for the stearoyl-CoA dehydrogenase) resulting from the ratio of these activities was too high, however, for the lack of desaturase activity to have been simulated by lack of substrate.     

Identification of yolk platelet-associated hydrolases in the oocytes of Rhodnius prolixus.

The yolk platelets from Rhodnius prolixus, a blood-sucking bug, are composed mostly of vitellin and here are shown to contain at least two hydrolytic enzymes, a phosphatase and a cathepsin D-like proteinase. Both the proteinase and the phosphatase have an acid pH optimum. No hydrolytic activity was observed under alkaline or neutral conditions. Among several proteinase inhibitors tested, only pepstatin could abolish vitellin breakdown in vitro. The proteinase appears to be bound to the yolk platelet membranes. The phosphatase activity, using p-nitrophenyl phosphate as substrate, was enhanced after disruption of the platelet membrane by Triton X-100. This activity could be inhibited by tartrate but not by p-cloromercuribenzoate.     

Phosphatase activity in <Emphasis Type="Italic">Amoeba proteus</Emphasis> at pH 9.0

In the free-living ameba Amoeba proteus (strain B), after PAAG disk-electrophoresis of the homogenate supernatant, at using 1-naphthyl phosphate as substrate and pH 9.0, three forms of phosphatase activity were revealed; they were arbitrarily called “fast,” “intermediate,” and “slow” phosphatases. The fast phosphatase has been established to be a fraction of lysosomal acid phosphatase that preserves some low activity at alkaline pH values. The question as to which particular class the intermediate phosphatase belongs to has remained unanswered: it can be either acid phosphatase, or protein tyrosine phosphatase. Based on data of inhibitor analysis, broad substrate specificity, results of experiments with reactivation by Zn ions after inactivation with EDTA, and another localization in the ameba cell than of the fast and intermediate phosphatases, it is concluded that only the slow phosphatase can be classified as alkaline phosphatase (EC 3.1.3.1).     

Acid and neutral hydrolases in Trypanosoma cruzi. Characterization and assay.

Twelve acid hydrolases, 4 near-neutral hydrolases, and alkaline phosphatase were demonstrated in 0.34 M sucrose homogenates of Trypanosoma cruzi strain Y: p-nitrophenylphosphatase and alpha-naphthylphosphatase, with optimum pH at approximately 6.0; alpha=ga;actpsodase. beta=ga;actpsodase. beta=g;icpsodase, N-acetyl-beta-glucosaminidase, cathepsin A and peptidase I and III, with optimum pH between 5.0 and 6.0; and arylsulfatase, cathepsin D, alpha-arabinase and alpha-mannosidase with optimum pH at approximately 4.0. alpha-Glucosidase, glucose-6-phosphatase and peptidase II had optimum pH at approximately 7.0. beta-Glycerophosphatase had a broad pH-activity curve from 4,0 to 7.4, with maximum activity at pH 7.0. The main kinetic characteristics of these enzymes and their quantitative assay methods were studied. No activity was detected for alpha-fucosidase, beta-xylosidase, beta-glucuronidase, elaidate esterase, acid lipase, and alkaline phosphodiesterase.     

Alkaline phosphatase in the lactating bovine mammary gland and the milk fat globule membrane. Release by phosphatidylinositol-specific phospholipase C.

1. Alkaline phosphatase is covalently bound to bovine mammary microsomal membranes and milk fat globule membranes through linkage to phosphatidylinositol as demonstrated by the release of alkaline phosphatase following treatment with phosphatidylinositol-specific phospholipase C. 2. The release of alkaline phosphatase from the pellet to the supernatant was demonstrated by enzyme assays and electrophoresis. 3. Electrophoresis of the solubilized enzymes showed that the alkaline phosphatase of the microsomal membranes contained several isozymes, while only one band with alkaline phosphatase activity was seen in the fat globule membrane. 4. Levamisole and homoarginine were potent inhibitors of the alkaline phosphatase activities in both membrane preparations and in bovine liver alkaline phosphatase, but not in calf intestinal alkaline phosphatase.     

Extracellular matrix components and proteolytic enzymes in uterine cervical carcinoma

The important components of mucopolysaccharides and collagen have been analyzed in tissues of control and carcinoma of uterine cervix. Among these components hyaluronic acid and chondroitin sulphate levels were found to be increased, whereas decreased level of collagen was observed in uterine cervical carcinoma. Serum cathepsin B, D and acid and alkaline phosphatases have also been analyzed in controls and carcinoma patients before and after treatments. The activities of these enzymes have been found to increase prominently in advanced stages. Among these enzymes cathepsin B and alkaline phosphatase have exhibited remarkable increase in activity in uterine cervical carcinoma. Different modes of treatment exerted reversion of the elevated activities of these enzymes. However, combined therapy type II (radiation combined with cisplatin and cyclophosphomide) seems to be more effective in reverting the activities of these enzymes to normal levels.     

In vitro transport of ornithine carbamoyltransferase precursor into rat liver mitochondria using a more homologous medium

The precursor of ornithine carbamoyltransferase can be transported in vitro into rat liver mitochondria using the postmitochondrial supernatant from rat liver, a more homologous medium than the commonly used rabbit reticulocyte lysate. The transport of the precursor in the case of reticulocyte lysate requires a standard translation mixture. In the presence of the postmitochondrial supernatant the same is true. However, when the components of the translation mixture were added individually to the postmitochondrial supernatant, it was found that spermidine or spermine, at physiological concentrations, sufficed for the transport of the precursor of ornithine carbamoyltransferase. The activity of the postmitochondrial supernatant was inactivated by trypsin and slightly decreased by RNase treatment; it was not lost by dialysis or by heating at 100 degrees C.     

Differences in induction of lysosomal protease activity by protease inhibitors in B16 melanoma cell lines

1. The effects of potent protease inhibitors in vitro (leupeptin, pepstatin and E-64[N-[L-3-trans-carboxyoxirane-2-carbonyl)-L-leucyl]agmatine]) on intracellular cathepsin B (EC 3.4.22.1), hemoglobin (Hb)-hydrolase and acid phosphatase (EC 3.1.3.2) from cultured B16 melanoma variants (B16-F1, F10 and BL6) were studied. 2. E-64 induced all the cultured B16 melanoma variants to decrease the activity of intracellular cathepsin B but did not have this effect with Hb-hydrolase or acid phosphatase. Furthermore, E-64 decreased the activity of cathepsin B in both the lysosomal and cytosol fractions. 3. Leupeptin induced all the cultured B16 melanoma variants to increase the activities of intracellular cathepsin B and Hb-hydrolase but not that of acid phosphatase. An increase in the level of cathepsin B activity was most significant in B16-BL6 followed by F10 and then F1 variants. 4. Leupeptin induced all the cultured B16 melanoma variants to increase the cathepsin B activity in the lysosomal fraction. Our data differed from the results of Tanaka et al. (1981) in that leupeptin induced rat cultured hepatocytes to inhibit the activity of intracellular cathepsin B and increase the Hb-hydrolase activity, especially in the cytosol fraction.     

Membrane 32P-phospholipid labeling in early developing toad embryos

Endogenously labeled toad oocytes and early developing embryos were employed to evaluate the phospholipid metabolism in whole embryos and in subcellular fractions. The whole embryo and postmitochondrial supernatant display a linear increase in relative specific activity as development proceeds, although higher values were reached by mitochondrial and yolk platelet fractions. In all the subcellular fractions the half-lives of the acid-soluble pool were similar and ranged from 2.5 to 3.5 days. Conversely the phospholipid half-lives were only similar in mitochondrial and postmitochondrial supernatant fractions.     

Biochemical toxicity of hexachlorocyclohexane and its gamma-isomer in albino mice

Dietary hexachlorocyclohexane (HCH) and gamma-isomer of HCH produced significant increase in liver weights of mice. Elevated levels of alanine and aspartate aminotransferases and of alkaline phosphatase in the blood of these animals suggested hepatotoxicity. Hepatic soluble enzymes--aspartate aminotransferase and lactate dehydrogenase--were markedly lowered. Among the hepatic lysosomal enzymes, acid phosphatase and acid cathepsin were increased in the experimental animals. Hepatic glucose-6-phosphatase was lowered by HCH while aldolase activity was increased. Hydrolytic enzymes in small intestine, viz., disaccharidases, lipase, amylase, dipeptidase and phosphatases, were also affected by dietary HCH and gamma-HCH. The results suggested cellular toxicity in hepatocytes of HCH and gamma-HCH fed animals, and also interference in gastrointestinal absorption.     

Acid and Neutral Hydrolases in Trypanosoma cruzi. Characterization and Assay*

Twelve acid hydrolases, 4 near-neutral hydrolases and alkaline phosphatase were demonstrated in 0.34 M sucrose homogenates of Trypanosoma cruzi strain Y: p-nitrophenylphosphatase and α-naphthylphosphatase, with optimum pH at ? 6.0; α-galactosidase, β-galactosidase, β-glucosidase, N-acetyl-β-glucosaminidase, cathepsin A and peptidase I and III, with optimum pH between 5.0 and 6.0: and arylsulfatase cathepsin D, α-arabinase and α-mannosidase with optimum pH at ? 4.0 α-Glucosidase, gluccse-6-phosphatase and peptidase II had optimum pH at ? 7.0. β-Glycerophcsphatase had a broad pH-activity curve from 4.0 to 7.4, with maximum activity at pH 7.0. The main kinetic characteristics of these enzymes and their quantitative assay methods were studied. No activity was detected for α-fucosidase, β-xylosidase, β-glucuronidase, elaidate esterase. acid lipase, and alkaline phospho-diesterase.     

Subcellular Distribution of Enzymes in Ochromonas malhamensis*

SYNOPSIS. The activity and distribution of 7 enzymes in Ochromonas malhamensis were studied. Subcellular organelles were separated by centrifugation at 648,000 g min to precipitate the larger particles; the resulting supernatant was centrifuged at 5,560,000 g min to separate the microsomal fraction from the supernatant. Sixty-four percent of the cytochrome oxidase (1.9.3.1 ferrocytochrome c:oxygen oxidoreductase, 81% of the catalase (1.11.1.6 hydrogen-peroxide: hydrogen-peroxide oxidoreductase) and 70% of the urate oxidase (1.7.3.3 urate:oxygen oxidoreductase) activity was associated with the larger particles, altho only 20% of the total protein was found in this fraction. Three acid hydrolases, cathepsin (3.4.4.9 cathepsin C, acid phosphatase (3.1.3.2 orthophosphoric monoesterphosphohydrolase) and acid ribonuclease (2.7.7.17 ribonucleate nucleotido-2′-transferase) were found mostly in the supernate (50-60%, yet their latency and their similar subcellular distribution indicated the presence of lysosomes. After 2.5 hr centrifugation in a sucrose density gradient (ρ= 1.08–1.25, the acid hydrolases showed a broad distribution which differed greatly from cytochrome oxidase associated with mitochondria. Catalase, which could not be separated from cytochrome oxidase by centrifuging on this gradient, had a different distribution after centrifugation on a kinetic gradient. Urate oxidase had a similar distribution to catalase and both these enzymes were latent, indicating the presence of peroxisomes.     

Studies on the mechanism of the increase in serum alkaline phosphatase activity in cholestasis: significance of the hepatic bile acid concentration for the leakage of alkaline phosphatase from rat liver

In experimental bile obstruction the serum activities of the membrane-bound liver enzymes, alkaline phosphatase, 5'-nucleotidase and gamma-glutamyltransferase are greatly increased, whereas in the liver only the alkaline phosphatase activity is elevated. After partial hepatectomy or tetrachloride poisoning the alkaline phosphatase activity in the regenerating live is increased to the same extent as in cholestasis without an accompanying elevation in serum activity. The following results support the hypothesis of a bile salt-mediated solubilization of membrane-bound enzymes in cholestatic liver: (1) 30 min after bile duct ligation the total bile acids in the liver were increased 5-fold, 2 h later as much as 10-fold. After 1 day, the bile acid concentration was still 4 times above normal. (2) Isolated plasma membranes from normal and obstructed livers were incubated in vitro with increasing amounts of tri- and dihydroxycholanic acids. At a final concentration of 1 mmol/l taurochenodeoxycholate significant amounts of membrane-bound enzymes were released into the 12,000-g supernatant. (3) In the regenerating liver, where tissue phsophatase activity was high and serum phosphatase activity unchanged, the bile salt concentration was not increased.     

Properties of Alkaline Phosphatase in Cucumber Roots Induced by Calcium Starvation

Calcium deficiency caused an increase in alkaline phosphataseactivity in cucumber roots [Matsumoto and Yamaya (1981) Plant& Cell Physiol. 22: 1137]. The activities of other hydrolasesincluding acid phosphatase, nucleases and proteases, however,were much less affected by the removal of calcium. Nucleosidedi- and triphosphates and inorganic pyrophosphate were effectivelyhydrolyzed by the induced alkaline phosphatase, whereas nucleosidemonophosphate-hydrolyzing activity was basically equal in theroots grown with either complete medium or a medium lackingcalcium. The alkaline phosphatase in cucumber roots was foundin fractions pelleting at 3,000 x g and in the 100,000 x g supernatant.The calcium-starved roots increased their alkaline phosphataseactivity in both fractions. Four isozyme bands of the alkalinephosphatase in the soluble fraction were separated by polyacrylamidegel electrophoresis. One of the isozyme bands showed a prominentincrease with the calcium deficiency, but not in the presenceof cycloheximide. (Received June 24, 1981; Accepted September 3, 1981)