Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have purified to homogeneity the 33-kDa phosphatidylinositol-specific phospholipase C (PI-PLC) from the culture fluid of Listeria monocytogenes, a facultative intracellular pathogen. The protein was overexpressed, and secretion of PI-PLC was further enhanced by the addition of divalent cations to the culture medium. The basic protein (pI, approximately 9.4) was complexed with anionic proteins in the crude culture fluid. It bound to DEAE-Sepharose and was eluted from Sephacryl S-200 near the void volume in low-ionic-strength buffer, suggesting aggregates of greater than or equal to 150 kDa. Gel filtration chromatography on Sephacryl S-200 in the presence of 1 M ammonium sulfate resulted in disaggregation and complete separation of PI-PLC, which interacted with the column matrix. Amino-terminal sequencing of the pure protein gave results consistent with the previously deduced sequence and showed that the signal cleavage site was between alanine 29 and tyrosine 30. The enzyme was specific for PI and showed no activity with phosphatidylethanolamine, phosphatidylcholine, or phosphatidylserine. It did not cleave PI-4-phosphate or PI-4,5-bisphosphate, but it was active on the membrane form of the variable surface glycoprotein from Trypanosoma brucei, a PI-glycan-anchored protein. When assayed with deoxycholate-mixed micelles of PI, activity was highly dependent on added salt. Activation by salt was also observed with Triton X-100-mixed micelles. The optimal concentration of CaCl2 or MgCl2 was lower than that of KCl or (NH4)2SO4, but activity was not specifically dependent on divalent cations and was not inhibited by addition of EDTA. With deoxycholate, the optimum pH was 7.0. A broader pH optimum ranging from 5.5 to 6.5 was observed with Triton X-100-mixed micelles. These results are consistent with a postulated role for secreted PI-PLC in the acidified primary phagocytic vesicle of infected cells.
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PMID:Purification and characterization of Listeria monocytogenes phosphatidylinositol-specific phospholipase C. 139 18

The lethal alpha-toxin was isolated from the culture filtrate of Clostridium novyi type B using ammonium sulfate precipitation and ion exchange chromatography. The alpha-toxin has a mol. wt of 190,000 and does not contain any disulfide cross-linkages. It consists of a single polypeptide chain. The peptide fragments resulting from the cyanogen-bromide cleavage were isolated using reversed phase and gel filtration HPLC. The immunogenic actions of these peptides and peptide mixtures were studied in Balb/c mice. Three polyclonal antisera recognizing the uncleaved native toxin could be found using an ELISA test (Br3, Bro2, Bro5). One peptide mixture (Tx5), which was proved lethal in shell-less quail eggs (in vitro), was rechromatographed with gel filtration HPLC that resulted in one peptide with mol. wt 3000 (Txleth), which again proved lethal in the shell-less quail egg lethality test. The immunogenic peptides differ from the lethal one, therefore we assumed different locations on the polypeptide chain. The separation of the immunogenic, non-toxic fragment from the lethal one may allow the production of a highly specific non-toxic vaccine. By using synthetically produced immunogenic peptides, time-consuming purification methods and working with the whole toxin will become unnecessary.
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PMID:Isolation of immunogenic and lethal peptides of alpha-toxin from Clostridium novyi type B. 151 54

The glycosylphosphatidylinositol (GPI)-anchor of the plasma membrane-associated heparan sulfate (HS) proteoglycan was metabolically radiolabeled with [3H]myristic acid, [3H]palmitic acid, [3H]inositol, [3H]ethanolamine, or [32P]phosphate in rat ovarian granulosa cell culture. Cell cultures labeled with [3H]myristic acid or [3H]palmitic acid were extracted with 4 M guanidine HCl buffer containing 2% Triton X-100 and the proteoglycans were purified by ion exchange chromatography after extensive delipidation. Specific incorporation of 3H into GPI-anchor was demonstrated by removing the label with a phosphatidylinositol-specific phospholipase C (PI-PLC). Incorporation of 3H activity into glycosaminoglycans and core glycoproteins was also demonstrated. However, the specific activity of 3H in these structures was approximately 2 orders of magnitude lower than that in the GPI-anchor, suggesting that 3H label was the result of the metabolic utilization of catabolic products of the 3H-labeled fatty acids. PI-PLC treatment of cell cultures metabolically labeled with [3H]inositol, [3H]ethanolamine, or [32P]phosphate specifically released radiolabeled cell surface-associated HS proteoglycans indicating the presence of GPI-anchor in these proteoglycans. GPI-anchored HS proteoglycans accounted for 20-30% of the total cell surface-associated HS proteoglycans and virtually all of them were removed by PI-PLC. These results further substantiate the presence of GPI-anchored heparan sulfate proteoglycan in ovarian granulosa cells and its cell surface localization.
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PMID:Metabolic labeling of glycosylphosphatidylinositol-anchor of heparan sulfate proteoglycans in rat ovarian granulosa cells. 153 35

Rat ovarian granulosa cells synthesize two distinct species of plasma membrane-intercalated heparan sulfate (HS) proteoglycans; glycosylphosphatidylinositol (GPI)-anchored and core protein-intercalated HS proteoglycans. Both species of HS proteoglycans are primarily localized on the plasma membrane. Cell surface localization of GPI-anchored and protein-intercalated HS proteoglycans can be determined by their accessibility to exogenously added phosphatidylinositol-specific phospholipase C (PI-PLC) and trypsin, respectively. Kinetic parameters for the processes involving their transfer from the Golgi to the cell surface, endocytosis and secretion, and the modes of intracellular degradation were determined by metabolic labeling experiments using [35S]sulfate and various chase protocols in combination with the use of PI-PLC and trypsin in rat ovarian granulosa cells. The experiments demonstrated that (i) both HS proteoglycan species are transferred from the Golgi to the cell surface with an average transit time of approximately 12 min. (ii) GPI-anchored HS proteoglycans are endocytosed with a t1/2 approximately 3 h, without being shed into the medium, and they are rapidly degraded, t1/2 approximately 25 min, without generating recognizable degradation intermediates. (iii) Protein-intercalated HS proteoglycans are partly (approximately 30%) shed from the cell surface into the medium and the remaining approximately 70% are endocytosed with a t1/2 approximately 4 h. After endocytosis, they undergo a slow (t1/2 approximately 4 h) stepwise degradation generating distinct HS oligosaccharides as degradation intermediates. These results indicate that the GPI-anchored and the protein-intercalated HS proteoglycans have distinct secretory, endocytotic, and intracellular degradation pathways probably due to the differences in their anchor structures.
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PMID:Glycosylphosphatidylinositol-anchored and core protein-intercalated heparan sulfate proteoglycans in rat ovarian granulosa cells have distinct secretory, endocytotic, and intracellular degradative pathways. 153 36

The membrane-bound form of aminopeptidase P (aminoacylprolyl-peptide hydrolase) (EC 3.4.11.9) was purified to apparent homogeneity from bovine lung microsomes. The enzyme was solubilized using phosphatidylinositol-specific phospholipase C (Bacillus thuringiensis), indicating that bovine lung amino-peptidase P is attached to membranes via a glycosylphosphatidylinositol anchor. The enzyme was purified 1900-fold with a yield of 25% by chromatography on decyl-agarose, omega-aminodecyl-agarose, a second decylagarose column, DEAE-Sephacel, and an ultrafiltration step. Native gradient polyacrylamide gel electrophoresis revealed a single stained protein band whose position in the gel corresponded to cleavage of the Arg1-Pro2 bond of bradykinin. The Mr was 360,000 by gel permeation chromatography and 95,000 by reducing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The substrate specificity of aminopeptidase P was determined using approximately 50 peptides with proline in the second position. The enzyme could hydrolyze lower NH2-terminal homologs of bradykinin, including Arg-Pro-Pro, which was used as the routine substrate in a rapid fluorescence assay performed in the absence of added Mn2+. Some peptides having NH2-terminal amino acids other than arginine were also cleaved. Aminopeptidase P appeared to favor peptides that had 2 proline residues or proline analogs in positions 2 and 3 of the substrate. In general, tripeptides having a single proline residue in position 2 were poor substrates. Aminopeptidase P was inhibited by a series of peptides, 3-8 residues long, having an NH2-terminal Pro-Pro sequence. The enzyme was also inhibited by metal-chelating agents, 2-mercaptoethanol (4 mM), p-chloromercuribenzenesulfonic acid, and NaCl at concentrations greater than or equal to 0.25 M. The purified enzyme had a pH optimum of 6.5-7.0 and was most stable in the basic pH range. A role for membrane-bound aminopeptidase P in the pulmonary inactivation of circulating bradykinin is proposed.
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PMID:Membrane-bound aminopeptidase P from bovine lung. Its purification, properties, and degradation of bradykinin. 153 67

Clostridium septicum lethal (alpha-toxin) was purified and found to be a basic protein (pI 8.4) of approximately 48 kDa that is both lethal and hemolytic. The alpha-toxin had a hemolytic activity of approximately 2 x 10(7) hemolytic units per mg and a 50% lethal dose of approximately 10 micrograms/kg of body weight for mice. The alpha-toxin formed concentration-dependent, sodium dodecyl sulfate-resistant aggregates of approximately 230 kDa. Mice immunized with alpha-toxin showed a significant increase in survival time over mock-immunized mice when challenged with C. septicum. Rabbit polyclonal antibody was generated against the purified toxin and was used to confirm that toxin with the same molecular weight was present in seven different C. septicum isolates. No proteins in the supernatants from cultures of Clostridium perfringens, Clostridium histolyticum, Clostridium chauvoei, or Clostridium difficile were found to react with the C. septicum alpha-toxin-specific antibody.
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PMID:Purification and characterization of the lethal toxin (alpha-toxin) of Clostridium septicum. 154 52

Previous studies have established the importance of a complex, N-linked oligosaccharide chain, recognized by a monoclonal antibody (mAb 1223), in the formation of sea urchin embryonic skeletal components known as spicules. To further investigate the function of this epitope, mAb 1223 was added to primary mesenchyme (PM) cell cultures prior to spiculogenesis. The antibody did not inhibit cell migration, cell attachment, or synthesis of the filapodial networks upon which the spicules are deposited. However, it did block deposition of mineralized CaCO3 along these filapodia, strongly supporting the previously proposed role for the 1223 epitope in calcium accumulation and/or deposition. Previously the 1223 epitope has been most extensively studied in association with a mesenchyme-specific protein of 130 kDa (msp 130). It has now been established, by Western blot analysis of whole embryo and PM cell extracts using mAb 1223, that two other proteins of 205 and 250 kDa contain the 1223 epitope. A study of the developmental profiles of expression of these glycoproteins revealed that all three were first expressed just prior to spiculogenesis, consistent with a role for any or all of these proteins in this process. Additionally all three proteins incorporated ethanolamine, myristate, and palmitate, the precursors of the glycosylphosphatidylinositol (GPI) anchor. Further labeling studies revealed differences in the metabolic lability of the GPI anchor in the three proteins; pulse-chase studies demonstrated that the ethanolamine moiety was stable in msp 130, but was rapidly chased from the 205-kDa protein (T1/2 = 14 hr). Phosphatidylinositol-specific phospholipase C partially released (50%) msp 130 from the PM cell surface, whereas it had no effect on release of the 205- and 250-kDa proteins. Studies with 35SO4 labeling and PNGase F treatment directly established that all three proteins are sulfated, and that most of the sulfate is attached to the N-linked oligosaccharide chains. Thus, the three major mAb 1223-reactive glycoproteins in PM cells are also the three major proteins containing both sulfated N-linked oligosaccharide chains and GPI anchors. Further investigation of this intriguing correlation may help to define the precise function of the 1223 epitope in the process of spicule formation.
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PMID:Characterization of post-translational modifications common to three primary mesenchyme cell-specific glycoproteins involved in sea urchin embryonic skeleton formation. 155 76

Angiotensin II (AII) is an important regulator of aldosterone secretion by adrenal glomerulosa cells. All interacts with a specific receptor coupled to a guanine nucleotide-binding protein that controls the activity of phospholipase C. Recently, novel All nonpeptide antagonists (DuP-753 and PD-123319) have been shown to discriminate between two subclasses of All receptors in many different tissues. Our studies confirmed that 125I-All specifically labeled two classes of binding sites for All in a membrane preparation of bovine adrenal glomerulosa cells. The first class (DuP-753 sensitive) represented approximately 85% of the total binding sites for All and possessed a high affinity (IC50 of 92.9 +/- 19.5 nM) for DuP-753. PD-123319 did not have any effect on 125I-All binding to this site. The second class of binding sites was more sensitive to PD-123319, with an IC50 of 6.9 +/- 3.7 nM, and had a much lower affinity for DuP-753 (IC50 around 10 microM). The two classes of receptors had different affinities for All. All showed an affinity around 2 nM for All type 1 receptor (AT1)(DuP-753 sensitive) and a higher affinity, around 0.3 nM, for All type 2 receptor (AT2) (PD-123319 sensitive). All-induced steroidogenesis was completely abolished in the presence of 3 microM DuP-753, indicating that this activity was mediated through a DuP-753-sensitive receptor. We also found that polyvinyl sulfate (PVS), a polyanion, could partly inhibit the binding of 125I-All to bovine adrenal glomerulosa cell membranes, with half-maximal efficiency at 17.3 +/- 8.2 nM. The inhibitory effect of PVS was selective for AT1. The inhibitory effect of PVS was due to a change in the affinity state of the receptor. Unexpectedly, PVS had no effect on All-induced steroidogenesis or on All binding to intact bovine adrenal glomerulosa cells. However, the inhibitory effect of PVS on All binding was recovered after permeabilization of cells. Direct interaction of polyanions with AT1 was suggested by the capacity of solubilized photoaffinity-labeled 125I-AT1 to adsorb to heparin-agarose gels. The adsorption of 125I-AT1 to heparin-agarose was inhibited by prior incubation of solubilized receptor with heparin or PVS. These results suggest that All-induced steroidogenesis is mediated by a DuP-753-sensitive receptor and that PVS decreases the affinity of this receptor by interacting with an intracellular domain (possibly the positively charged domain responsible for coupling with guanine nucleotide-binding proteins).
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PMID:Modulation of angiotensin II binding affinity by allosteric interaction of polyvinyl sulfate with an intracellular domain of the DuP-753-sensitive angiotensin II receptor of bovine adrenal glomerulosa. 156 28

Applying a new four-step isolation procedure, we have purified butyrylcholinesterase (BChE) from chicken serum to homogeneity with more than 250 U/mg specific activity. The serum enzyme was used for producing monoclonal antibodies. These BChE-specific also recognize BChE from brain, and thus enabled us to isolate the enzymes from embryonic and adult brain that occur only in minute amounts. More than 50% of the brain BChE is membrane-bound. The catalytic and inhibition properties of brain BChE are similar to those of serum BChE. However on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the serum enzyme is represented by a double-band of 79/82 kDa, whereas the brain enzyme has a size of 74 kDa. Limited digestion of the serum and brain preparations by V8-protease leads to similar peptide patterns. Enzymatic deglycosylation shows that their core proteins consist of 59-kDa subunits and that the different molecular weights are due to different glycosylation patterns. The differently sized glycosylation parts of brain and serum BChE may indicate that they subserve different functions. Furthermore, the membrane-bound brain BChE can be solubilized by Pronase or protease K, but not by phosphatidylinositol-specific phospholipase C.
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PMID:Butyrylcholinesterase from chicken brain is smaller than that from serum: its purification, glycosylation, and membrane association. 157 4

Dracotoxin, a protein possessing toxic, membrane depolarizing and hemolytic activities, was isolated from the crude venom of the greater weever fish Trachinus draco. The purification involved ammonium sulfate precipitation of crude venom followed by gel filtration on a high performance liquid chromatograph column. About 300 micrograms of dracotoxin was obtained from 18 mg of crude venom proteins extracted from one average size fish. Dracotoxin consists of a single polypeptide of about 105,000 mol. wt. It hemolyzed rabbit erythrocytes with an EC50 of 3 ng/ml. Rabbit erythrocytes possessed binding sites for dracotoxin on their surface. Preincubation of dracotoxin with rabbit ghosts increased its EC50 value for rabbit erthrocytes from 3 to 25 ng/ml. Incubation of dracotoxin with enriched glycophorin fraction from rabbit erythrocytes also led to an increase in the EC50 to 70 ng/ml. The high specificity of dracotoxin for rabbit erythrocytes resembles that of staphylococcal alpha-toxin. Dracotoxin, however, caused hemolysis even at 4 degrees C and did not interact with cholesterol indicating substantial differences between the two hemolysins. Dracotoxin represents a major toxic component of T. draco venom.
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PMID:Isolation and characterization of dracotoxin from the venom of the greater weever fish Trachinus draco. 159 81


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