Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A mAb AD7, raised against canine liver Golgi membranes, recognizes a novel, 200-kD protein (p200) which is found in a wide variety of cultured cell lines. Immunofluorescence staining of cultured cells with the AD7 antibody produced intense staining of p200 in the juxtanuclear Golgi complex and more diffuse staining of p200 in the cytoplasm. The p200 protein in the Golgi complex was colocalized with other Golgi proteins, including mannosidase II and beta-COP, a coatomer protein. Localization of p200 by immunoperoxidase staining at the electron microscopic level revealed concentrations of p200 at the dilated rims of Golgi cisternae. Biochemical studies showed that p200 is a peripheral membrane protein which partitions to the aqueous phase of Triton X-114 solutions and is phosphorylated. The p200 protein is located on the cytoplasmic face of membranes, since it was accessible to trypsin digestion in microsomal preparations, and is recovered in approximately equal amounts in membrane pellets and in the cytosol of homogenized cells. Immunofluorescence staining of normal rat kidney cells exposed to the toxin brefeldin A (BFA), showed that there was very rapid redistribution of p200, which was dissociated from Golgi membranes in the presence of this drug. The effect of BFA was reversible, since upon removal of the toxin, AD7 rapidly reassociated with the Golgi complex. In the BFA-resistant cell line PtK1, BFA failed to cause redistribution of p200 from Golgi membranes. Taken together, these results indicate that the p200 Golgi membrane-associated protein has many properties in common with the coatomer protein, beta-COP.
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PMID:Identification of a 200-kD, brefeldin-sensitive protein on Golgi membranes. 155 55

Rat hepatic microsomal squalene synthetase (EC 2.5.1.21) was induced 25-fold by feeding rats with diet containing the hydroxymethylglutaryl-coenzyme A reductase inhibitor, fluvastatin, and cholestyramine, a bile acid sequestrant. A soluble squalene synthetase protein with an estimated mass of 32-35 kDa, as determined by gel filtration chromatography on Sephacryl S-200 column, was solubilized out of the microsomes by controlled proteolysis with trypsin. Approximately 25% of the activity was recovered in a soluble form. The enzyme was purified to homogeneity utilizing a series of column chromatography purification steps on DEAE-cellulose, hydroxylapatite, and phenyl-Sepharose sequentially. The purified enzyme showed a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Initial kinetic analysis indicated an S0.5 values for trans-farnesyl diphosphate of 1.0 microM and for NADPH of 40 microM. The Vmax with respect to trans-farnesyl diphosphate was calculated at 1.2 mumol/min/mg. NADH also serves as substrate for the reaction with S0.5 value of 800 microM. Western blot analysis utilizing rabbit antisera raised against the purified, trypsin-truncated enzyme showed a single band for the isolated solubilized enzyme at 32-33 kDa and a band for the intact microsomal enzyme at about 45-47 kDa.
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PMID:Solubilization, purification, and characterization of a truncated form of rat hepatic squalene synthetase. 156 7

Soybean nodulin-26, a homologue of bovine eye lens major intrinsic protein (MIP-26), is an integral protein of the peribacteroid membrane in symbiotic root nodules. It comprises 271 amino acids with six potential transmembrane domains and lacks an amino-terminal signal sequence. A full-length nodulin-26 cDNA and its various deletion derivatives were transcribed in vitro after linking them to bacteriophage T3 promoter. In vitro translation of these transcripts in a rabbit reticulocyte lysate, in the presence or absence of canine pancreatic microsomal membranes, suggested that nodulin-26 is cotranslationally inserted into the microsomes without a cleavable signal peptide. The first two transmembrane domains (103 amino acids) of the protein are sufficient for microsomal membrane insertion. Membrane-translocated nodulin-26 binds to Con-A and is sensitive to endoglycosidase-H treatment, suggesting that it is glycosylated. Native nodulin-26 from root nodules retains its sugar moiety as it, too, binds to Con-A. Chemical cleavage mapping at cysteine residues, a trypsin protection assay, and the Con-A binding affinity of nodulin-26 suggested that both the NH2 and COOH termini of this protein are on the cytoplasmic surface of the peribacteroid membrane, while the glycosidic residue is on the surface of the membrane facing the bacteroids. In vitro phosphorylation experiments showed that nodulin-26 is a major phosphorylated protein in the peribacteroid membrane. This phosphorylation is mediated by a Ca(2+)-dependent, calmodulin-independent protein kinase located in the peribacteriod membrane. Externally supplied acid phosphatase dephosphorylates this protein, but alkaline phosphatase does not. Based on its homology with several eukaryotic and prokaryotic channel-type membrane proteins, nodulin-26 may form a channel translocating specific molecules to the bacteroids during endosymbiosis in legume plants.
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PMID:Topology and phosphorylation of soybean nodulin-26, an intrinsic protein of the peribacteroid membrane. 162 42

We have reported earlier that cholinephosphotransferase (EC 2.7.8.2) is present in both mitochondria and microsomes of fetal guinea pig lung. This study was designed to compare the properties of mitochondrial and microsomal cholinephosphotransferase in fetal guinea pig lung. Various parameters, such as substrate specificity, Km values, sensitivity to N-ethylmaleimide, dithiothreitol and trypsin were measured. Both showed significant preference for unsaturated diacylglycerols over saturated diacylglycerols. Data on Km and Vmax indicate that the affinity of this enzyme for different diacylglycerols varies between the two forms. The ID50 values for N-ethylmaleimide were 20 mM and 12.5 mM for the mitochondrial and microsomal form of the enzyme, respectively. Dithiothreitol showed an inhibitory effect on both; however, the mitochondrial form was inhibited less than the microsomal form. The effects of N-ethylmaleimide and dithiothreitol on both forms of enzyme indicated that the microsomal cholinephosphotransferase requires a higher concentration of -SH for its activity than the mitochondrial enzyme does. The enzyme was inhibited by trypsin in both mitochondria and microsome under isotonic condition suggesting that this enzyme is on the outside of the membrane in both endoplasmic reticulum and mitochondria.
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PMID:Study of properties of cholinephosphotransferase from fetal guinea pig lung mitochondria and microsomes. 165 Apr 26

Rat liver microsomes contain type-1 S6 phosphatase (acting on the serine residues phosphorylated by protein kinase A) and type-1 phosphorylase phosphatase activities. The main aim of this study has been to characterize the microsomal S6 phosphatase activity and to compare its properties with those of the phosphorylase phosphatase activity in the same microsomal preparation. The specific activities of both microsomal S6 phosphatase and phosphorylase phosphatase were 1.6- to 1.7-fold higher in the smooth endoplasmic reticulum than in the rough sarcoplasmic reticulum. Both phosphatase activities were inhibited to a similar extent by MgCl2 (10 mM) and NaF (22 mM), were completely suppressed by glycerophosphate (80 mM) and ZnCl2(10 mM), and were stimulated by MnCl2(1 mM). When analyzed by gel filtration on Sephadex G-100 superfine, both phosphatase activities eluted as broad peaks, stretching from the void volume to 45-60 kDa. The microsomal S6 phosphatase and phosphorylase phosphatase activities also displayed the following distinct characteristics: (a) Mn2+ stimulated the S6 phosphatase activity 2.9-fold more than the phosphorylase phosphatase activity, (b) limited trypsin digestion of microsomal preparations increased the phosphorylase phosphatase activity by 1.5- to 2-fold, but decreased the S6 phosphatase activity by 50%, (c) a synthetic peptide analog of S6 (S6229-239) (200 microM), which did not act as a substrate for the microsomal S6 phosphatase and did not affect its activity, inhibited the microsomal phosphorylase phosphatase activity by about 50%, and (d) the elution profile of the phosphorylase phosphatase activity was markedly broader than that of the S6 phosphatase activity. A series of in vivo studies showed that streptozotocin-diabetes and insulin replacement therapy as well as ip injection of insulin or vanadate, which modified the microsomal S6 phosphatase activity, had no statistically significant effects on the microsomal phosphorylase phosphatase activity. Taken together, these results suggest that the microsomal S6 phosphatase and phosphorylase phosphatase activities are due to two distinct enzyme populations.
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PMID:A comparative study of the microsomal S6 phosphatase and phosphorylase phosphatase activities in rat liver. 165 55

Protein phosphatase-1 (PP-1) and -2A (PP-2A), two regulatory subunits of PP-1, the glycogen-binding subunit G and inhibitor-2 (I-2), kinase FA, and casein kinase II (CK-II) were investigated in skeletal muscle of diabetic rats 2 days after streptozotocin injection. FA and CK-II activate PP-1 in vitro and might be involved in the activation of PP-1 by insulin. Following muscle fractionation we found that (1) diabetes decreased both basal and trypsin-stimulated PP-1 activities; the decrease was more significant in the glycogen-bound and microsomal fractions than in the cytosol (cytosolic PP-1 decreased as specific activity but not as activity/g of muscle); also PP-2A was lower in diabetic cytosols; (2) less G was immunoprecipitated from diabetic glycogen-bound fractions compared to controls, while I-2 was not significantly changed; (3) diabetes decreased also FA (assayed as PP-1 activator) and CK-II (assayed using a synthetic peptide as substrate); (4) diabetes did not have any effect on phosphorylase (a + b) activity in the glycogen-bound fraction. Altogether the data show that acute diabetes decreased PP-1, one of its regulatory subunits and two potentially physiological regulators of PP-1, in addition to PP-2A. This may indicate that insulin is responsible for the long-term regulation of the same enzymes that are also under acute insulin control.
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PMID:Protein phosphatase-1 and -2A, kinase FA, and casein kinase II in skeletal muscle of streptozotocin diabetic rats. 165 59

The membrane interaction and hydrophobicity of the normal (PrPC) and infectious isoform (PrPSc/CJD) of scrapie and Creutzfeldt-Jakob disease amyloid precursor proteins was studied. The normal isoform of hamster and human scrapie amyloid precursor protein was found on the microsomal/synaptosomal membranes anchored solely by the C-terminal glycolipid. Glycolipid cleavage resulted in dissociation from the membranes and change of behavior from a highly hydrophobic to a hydrophilic protein, susceptible to proteases. In contrast, the PrPSc/CJD isoform was resistant to release by glycolipid-cleaving enzymes. A part of PrPSc/CJD was released from the membranes after prolonged trypsin treatment, yielding a further protease-resistant product of 27-30 kDa. The results demonstrate the proteolytic resistance of the membrane-bound PrPSc/CJD isoform and also indicate the presence of a different, apparently disease-induced mechanism of membrane interaction in the scrapie- and CJD-infected microsomal and synaptosomal membranes.
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PMID:Differences in the membrane interaction of scrapie amyloid precursor proteins in normal and scrapie- or Creutzfeldt-Jakob disease-infected brains. 167 80

Synthetic mRNAs (i.e. cRNA alpha and cRNA beta) were obtained by cell-free transcription of M13 KS(+) (Bluescript) expression vectors which contained the entire coding region of the alpha or beta subunits of lamb kidney Na,K-ATPase. Translation in reticulocyte lysates of cRNA alpha yielded full length alpha polypeptide, as well as a limited array of immunoprecipitable lower molecular weight products. cRNA beta yielded a single immunoprecipitable full length polypeptide. Association of the alpha polypeptide with the microsomal membranes was obtained only co-translationally. Fifteen to 50% of the membrane-associated alpha subunit was resistant to extraction with alkali. The resistance of a 29-kDa fragment to trypsinolysis indicated that the alpha subunit was inserted into microsomal membranes. In the presence of dog pancreatic microsomes, the beta polypeptide was glycosylated as indicated by the appearance of three higher molecular weight polypeptides that were sensitive to endoglycosidase H and bound to Concanavalin A. The beta subunit was predominantly translocated into the lumen of the endoplasmic reticulum since 90% of the mass of the membrane-associated beta polypeptide was resistant to trypsin (i.e. reduced in size from 40 kDa to 37.5 kDa), and 95% of all of the beta chains were resistant to extraction with alkali. Neither the alpha nor the beta subunits have NH2-terminal leader signal sequences, but both may require the signal recognition receptor for membrane insertion, as evidenced by inhibition of incorporation of both subunits into microsomes pretreated with N-ethylmaleimide. Simultaneous translation of cRNA alpha and cRNA beta did not enhance membrane insertion of either the alpha or beta polypeptide.
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PMID:Cell-free transcription and translation of Na,K-ATPase alpha and beta subunit cDNAs. 169 72

NADPH-supported lipid peroxidation monitored by malondialdehyde (MDA) production in the presence of ferric pyrophosphate in liver microsomes was inactivated by heat treatment or by trypsin and the activity was not restored by the addition of purified NADPH-cytochrome P450 reductase (FPT). The activity was differentially solubilized by sodium cholate from microsomes, and the fraction solubilized between 0.4 and 1.2% sodium cholate was applied to a Sephadex G-150 column and subfractionated into three pools, A, B, and C. MDA production was reconstituted by the addition of microsomal lipids and FPT to specific fractions from the column, in the presence of ferric pyrophosphate and NADPH. Pool B, after removal of endogenous FPT, was highly active in catalyzing MDA production and the disappearance of arachidonate and docosahexaenoate, and this activity was abolished by heat treatment and trypsin digestion, but not by carbon monoxide. The rate of NADPH-supported lipid peroxidation in the reconstituted system containing fractions pooled from Sephadex G-150 columns was not related to the content of cytochrome P450. p-Bromophenylacylbromide, a phospholipase A2 inhibitor, inhibited NADPH-supported lipid peroxidation in both liver microsomes and the reconstituted system, but did not block the peroxidation of microsomal lipid promoted by iron-ascorbate or ABAP systems. Another phospholipase A2 inhibitor, mepacrine, poorly inhibited both microsomal and pool-B'-promoted lipid peroxidation, but did block both iron-ascorbate-driven and ABAP-promoted lipid peroxidation. The phospholipase A2 inhibitor chlorpromazine, which can serve as a free radical quencher, blocked lipid peroxidation in all systems. The data presented are consistent with the existence of a heat-labile protein-containing factor in liver microsomes which promotes lipid peroxidation and is not FPT, cytochrome P450, or phospholipase A2.
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PMID:Cholate solubilization of liver microsomal membrane components which promote NADPH-supported lipid peroxidation. 172 52

The peroxidation of rat liver microsomal lipids is stimulated in the presence of iron by the addition of NADPH or ascorbate and is inhibited by the addition of glutathione (GSH). The fate of GSH and the oxidative modification of proteins under these conditions have not been well studied. Rat liver microsomes were incubated at 37 degrees C under 95% O2:5% CO2 in the presence of 10 microM ferric chloride, 400 microM ADP, and either 450 microM ascorbic acid or 400 microM NADPH. Lipid peroxidation was assessed in the presence 0, 0.2, 0.5, 1, or 5 mM GSH by measuring thiobarbituric acid reactive substance (TBARS) and oxidative modification of proteins by measuring protein thiol and carbonyl groups. GSH inhibited TBARS and protein carbonyl group formation in both ascorbate and NADPH systems in a dose-dependent manner. Heat denaturing of microsomes or treatment with trypsin resulted in the loss of this protection. The formation of protein carbonyl groups could be duplicated by incubating microsomes with 4-hydroxynonenal. Ascorbate-dependent peroxidation caused a loss of protein thiol groups which was diminished by GSH only in fresh microsomes. Both boiling and trypsin treatment significantly decreased the basal protein thiol content of microsomes and enhanced ascorbate-stimulated lipid peroxidation. Protection against protein carbonyl group formation by GSH correlated with the inhibition of lipid peroxidation and appeared not to be due to the formation of the GSH conjugate of 4-hydroxynonenal as only trace amounts of this conjugate were detected. Ninety percent of the GSH lost after 60 min of peroxidation was recoverable as borohydride reducible material in the supernatant fraction. The remaining 10% could be accounted for as GSH-bound protein mixed disulfides. However, only 75% of the GSH lost during peroxidation appeared as glutathione disulfide, suggesting that some was converted to other soluble borohydride reducible forms. These data support a role for protein thiol groups in the GSH-mediated protection of microsomes against lipid peroxidation.
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PMID:Inhibition of protein carbonyl formation and lipid peroxidation by glutathione in rat liver microsomes. 173 26


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