Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.27 (thermolysin)
 1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Trypsin inhibitory activity from the hemolymph of Limulus polyphemus was found to co-purify with coagulogen (the clottable protein in blood coagulation) after acidification, ammonium sulfate precipitation, and gel filtration. Limulus trypsin inhibitor (LTI) was separated from coagulogen by ion-exchange chromatography on carboxymethyl-Sephadex. LTI is an inhibitor of trypsin (Ki = 3.3 nM) on both high and low molecular weight substrates. It also inhibits chymotrypsin but has little or no effect on thrombin, thermolysin, pepsin, or papain, nor does LTI inhibit the proteolytic cascade produced in endotoxin-stimulated Limulus amoebocyte lysate coagulation. Electrophoresis under nonreducing conditions on denaturing polyacrylamide gel yields a doublet migrating with an estimated Mr of 20,000. Under reducing conditions, a single broad band migrates with an estimated Mr of 15,000. The native structure is a monomer of moderate asymmetry with a molecular weight of 16,300 and a so20,w = 1.5(5), as determined by analytical ultracentrifugation. The amino acid composition of LTI yields a calculated molecular weight of 15,680 and a calculated partial specific volume of 0.71(7) ml/g. LTI does not contain methionine, tryptophan, or detectable levels of reducing carbohydrate. The NH2-terminal sequence (V-S-P-P-F-I-K-Q-T-K-F-S-T-X-F-L-G-X-S-S) consists primarily of hydrophobic amino acid residues. Comparison of the amino acid composition and amino-terminal sequence of LTI with those of other known protease inhibitors reveals no significant similarity to other trypsin inhibitors. The novel physical characteristics suggest that LTI represents a new type of protease inhibitor.
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PMID:A novel trypsin inhibitor from the hemolymph of the horseshoe crab Limulus polyphemus. 198 74

The mitochondrial energy-linked nicotinamide nucleotide transhydrogenase is a homodimer of monomer Mr = 109,228. Hydropathy analysis of its cDNA-deduced amino acid sequence (1043 residues) has indicated that the molecule is composed of 3 domains: a 430-residue-long hydrophilic N-terminal domain which binds NAD(H), a 200-residue-long hydrophilic C-terminal domain which binds NADP(H), and a 400-residue-long hydrophobic central domain which appears to be made up mainly of about 14 hydrophobic clusters of approximately 20 residues each. In this study, antibodies were raised to the hydrophilic N- and C-terminal domains cleaved from the isolated transhydrogenase by proteolytic digestion, and to a synthetic, hydrophilic pentadecapeptide, which corresponded to position 540-554 within the central hydrophobic domain. Immunochemical experiments with mitoplasts (mitochondria denuded of outer membrane) and submitochondrial particles (inside-out inner membrane vesicles) as sources of antigens showed that essentially the entire N- and C-terminal hydrophilic domains of the transhydrogenase, as well as epitopes from the central pentadecapeptide, protrude from the inner membrane into the mitochondrial matrix, where the N- and C-terminal domains would be expected to come together to form the enzyme's catalytic site. Treatment of mitoplasts with several proteolytic enzymes indicated that large protease-sensitive masses of the transhydrogenase are not exposed on the cytosolic side of the inner membrane, which agreed with the exception that the central highly hydrophobic domain of the molecule should be largely membrane-intercalated. Trypsin, alpha-chymotrypsin, and papain had little or no effect on the mitoplast-embedded transhydrogenase. Proteinase K, subtilisin (Nagarse), thermolysin, and pronase E each split the mitoplast-embedded enzyme into two fragments only, a fragment of approximately 70 kDa containing the N-terminal hydrophilic domain, and one of approximately 40 kDa bearing the C-terminal hydrophilic domain. The cleavage site of proteinase K was determined to be A690 -A691, which is located in a small hydrophilic segment within the central hydrophobic domain. This protease-sensitive loop appears to be exposed on the cytosolic side of the inner membrane. The proteinase K-nicked enzyme containing two peptides of 71 and 39 kDa was isolated from mitoplasts and shown to have high transhydrogenase activity.
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PMID:Mitochondrial energy-linked nicotinamide nucleotide transhydrogenase. Membrane topography of the bovine enzyme. 200 10

A peptidase activity of rat diencephalon membranes, which acts on the C-terminal hexapeptide sequence of substance P, was characterized using the radiolabeled substrate N alpha-[( 125I]iododesaminotyrosyl)-substance P (6-11)-hexapeptide. This activity presents certain characteristics similar to those of the substance-P-degrading enzyme purified from human brain by Lee et al. [Eur. J. Biochem. 114, 315-327 (1981)]. It is inhibited by metal chelators and some thiol reagents, but is insensitive to inhibitors of serine proteases and aminopeptidases. The activity is different from angiotensin-converting enzyme and enkephalinase, since it is not affected by specific inhibitors of these enzymes. Substance P and substance P C-terminal fragments longer than the pentapeptide inhibited the degradation of the radiolabeled substrate with inhibition constants around 200 microM. Short fragments of the substance P sequence, such as Boc-Phe-Phe-OMe and Boc-Phe-Phe-Gly-OEt, were also found to inhibit the degradation of the substrate. When the metal-chelating hydroxamic acid moiety was attached to the carboxyl terminus of these short peptides, potent inhibitors of the substance-P-degrading activity were obtained, with inhibition constants in the micromolar range. The most potent of these compounds, iododesaminotyrosyl-Phe-Phe-Gly-NHOH (IBH-Phe-Phe-Gly-NHOH), is a competitive inhibitor, with a Ki value of 1.9 microM. The degradation of substance P by rat diencephalon slices was inhibited to the same extent (40-50%) by IBH-Phe-Phe-Gly-NHOH (20 microM) and by phosphoramidon (1 microM). A combination of both reagents reduced the degradation rate by 75-80%, suggesting that both enkephalinase and the substance-P-degrading activity are involved in the metabolism of substance P in this preparation. IBH-Phe-Phe-Gly-NHOH seems to be quite specific for the latter enzyme, since at a high concentration (0.1 mM) it did not affect the degradation of the radiolabeled substrate by alpha-chymotrypsin, papain, or thermolysin.
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PMID:Inhibition of substance P degradation in rat brain preparations by peptide hydroxamic acids. 241 Feb 67

Human serum low density lipoprotein (LDL) is a large (Mr = 2-3 X 10(6), complex particle composed of lipid, protein and carbohydrate. We obtained about 40 mouse spleen-myeloma hybrid cell lines which produce antibodies against LDL. Three of them, SC2, SC3 and SC10, have been cloned and subcloned and their antibody products characterized. They recognize three non-overlapping epitopes in native LDL. Two of them, SC3 and SC10, also are capable of recognizing very low density lipoprotein, (VLDL), whereas SC2 reacts only weakly with VLDL. All three antigenic determinants remain intact, and accessible to antibodies on the LDL protein apo B, prepared by delipidation in a 'non-denaturing' detergent, sodium deoxycholate. However, apo B prepared by organic solvent, ether-ethanol, or sodium dodecyl sulfate (SDS) delipidation, while reacting strongly with SC10, is only poorly recognized by SC2 or SC3. Proteolysis of LDL with trypsin, chymotrypsin, Staphylococcus aureus protease, papain or thermolysin gives, in each case, several non-identical protein fragments which are separable by SDS-polyacrylamide gel electrophoresis. Upon immunoblotting, some of these fragments are now recognized by either SC3 or SC10 but not SC2, some are recognized by both SC3 and SC10, and others are immunologically unreactive. The protein bands that are separated by SDS gel electrophoresis are composed of several non-identical fragments and contain the antigenic sites to differing degrees. Some of the immunologically reactive fragments do not appear to contain carbohydrate. Reduction and carboxymethylation do not destroy the immunoreactivity of LDL toward any of the antibodies; however, modification of lysine residues by citraconic anhydride markedly diminishes the reactivity of LDL toward SC3. It is likely that the two antibodies SC3 and SC10 are directed against different linear amino acid sequences or very stable domains, whereas the third, SC2, is directed against a more fragile conformational domain of apo B.
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PMID:Isolation and characterization of three monoclonal antibodies to human serum low density lipoprotein apoprotein B. 242 25

Lectin binding to formalin-fixed, paraffin-embedded tissue can often be enhanced by pre-treatment of the sections with proteolytic enzymes. However, the pattern of staining may be profoundly influenced by the type of enzyme preparation which is used. Sites of binding of thirteen different lectins to murine ovary and thyroid gland were studied after exposure of tissue sections to crude trypsin, purified trypsin, purified alpha-chymotrypsin, pepsin, protease VII, papain, bromelain, thermolysin or elastase. With most lectins, the results obtained were similar regardless of which enzyme was used for proteolytic digestion. However, the pattern of binding of soy bean lectin to the ovary and of concanavalin A and common pea lectin to the thyroid gland was highly dependent upon the enzyme used to pre-treat the sections. In both tissues, the staining pattern seen in untreated frozen sections was similar to that found in formalin-fixed, paraffin-embedded material digested with purified trypsin, but was different from that observed after exposure of processed sections to crude trypsin. The location of binding sites after treatment of paraffin sections with chymotrypsin was the same as that after digestion with crude trypsin. Results obtained after the use of other proteolytic enzymes varied according to the tissue being studied. These findings imply that the effect of treatment with crude trypsin is due to contaminating chymotrypsin, and demonstrate that the use of purified trypsin may have advantages over other proteolytic enzymes in lectin histochemistry. The observations may also apply to other related cytochemical techniques such as immunocytochemistry.
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PMID:Proteolysis and lectin histochemistry. 244 Aug 34

The plasma alpha-macroglobulin and egg white ovomacroglobulin were purified from the sea turtle, Chelonia mydas japonica, and their structural and functional properties were studied with the aim of clarifying the degree of evolutional divergence of two homologous proteins specific to different tissues of the same animal. The concentration of alpha-macroglobulin in green turtle plasma was about 4 mg/ml. The protein was purified from the plasma by precipitation with polyethylene glycol 6000, followed by zinc chelate chromatography and gel chromatography on Sepharose CL-6B. The concentration of ovomacroglobulin in green turtle egg white was about 0.4 mg/ml. Ovomacroglobulin was purified by gel chromatography on Sepharose CL-6B. The two proteins had similar molecular weights and amino acid compositions, and both inhibited proteinases such as trypsin, chymotrypsin, papain, and thermolysin. The amino terminal sequences of the two proteins were homologous to each other but higher homologies were found between the ovomacroglobulin of turtle and chicken, and between the serum macroglobulins of the same animals. The functional difference between turtle alpha-macroglobulin and ovomacroglobulin became clear when they were treated with methylamine, which is known to destroy the inhibitory activity of human alpha 2-macroglobulin by splitting internal thiolester bonds. The inhibitory activity of the turtle plasma protein was completely destroyed by methylamine but that of ovomacroglobulin was only partially affected. The number of sulfhydryl groups as titrated with 5,5'-dithiobis(2-nitrobenzoate) before and after treatment with proteinases or methylamine was different for the two proteins. The amount of radioactive methylamine that was incorporated was also different between the two proteins. The two proteins purified in this study had no immunological cross-reactivity.
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PMID:Purification and characterization of alpha-macroglobulin and ovomacroglobulin of the green turtle (Chelonia mydas japonica). 245 3

We synthesized five peptides homologous to the potentially antigenic positions alpha(214-226), alpha(430-443), alpha(415-443), beta(241-256), and beta(412-431) of the porcine brain tubulin sequences. These peptides were successfully employed to raise tubulin-cross-reactive antibodies. The antibodies are specific of the regions of tubulin spanned by the peptides. They react specifically with the tubulin bands in immunoblots and with microtubules in immunofluorescence assays of cytoskeletons. The peptides of the C-terminal regions have also been employed to localize determinants recognized by two available monoclonal antibodies to tubulin in the positions alpha(415-430) and beta(412-431), respectively. In a first application of the anti-peptide antibodies, we have mapped the fragments of limited proteolysis of purified calf brain tubulin by trypsin, chymotrypsin, papain, thermolysin, subtilisin, and protease V8 from Staphylococcus aureus. Thirty-seven peptides have been identified, of which 32 have been unequivocally aligned into the tubulin sequences on the basis of their antigenic reactivity. There are three major, well-defined zones of preferential cleavage by the proteases: the C-termini and two internal zones in each chain. C-Terminal cleavages of both chains by subtilisin do not remove the antigenic reactivity of the zones alpha(415-430) and beta(412-431). C-Terminal cleavages by protease V8 are preferential of beta-tubulin. All six proteases tested cleave alpha- and/or beta-tubulin at one or both of the internal zones. These zones are located roughly at one-third and two-thirds of the chain length in both subunits. Therefore, a model of the tubulin monomers is proposed which consists of three major, proteolytically defined, compact regions (N-terminal, middle, and C-terminal thirds) and the cleavable zones. This model is discussed with the tubulin structural information presently available.
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PMID:Tubulin structure probed with antibodies to synthetic peptides. Mapping of three major types of limited proteolysis fragments. 245 62

Two cystatins were purified from tissue extract of bovine brain by alkaline treatment, acetone fractionation, gel chromatography on Sephadex G-75, and affinity chromatography on S-carboxymethyl-papain-Sepharose. One of the inhibitors had a relatively high molecular mass, 25 kDa (HMM-cystatin) with pI 4.7, and the other, 11 kDa (LMM-cystatin) with pI 5.23. Both inhibitors showed considerable stability at pH 2 and 80 degrees C. The cystatins inhibited papain, ficin, and cathepsins B and H, but not trypsin, chymotrypsin, thermolysin, nagarse, and cathepsin D. Ki values for the complexes of papain and the inhibitors were estimated to be 2.8 x 10(-10) M for HMM-cystatin and 1.3 x 10(-9) M for LMM-cystatin. Both purified cystatins prevented degradation of substance P by soluble fraction and lysosomal extract obtained from synaptosomes, but did not suppress the cleavage of the peptide by synaptosomal plasma membranes.
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PMID:Cystatins from bovine brain: purification, some properties, and action on substance P degrading activity. 245 27

Two glycoproteins having trypsin-protein esterase activity were purified to apparent homogeneity from murine plasma. One was alpha-macroglobulin, a homologue of human alpha-2-macroglobulin, while the other, tentatively named murinoglobulin, did not correspond to any of the known plasma protease inhibitors that have been well characterized in men or other mammals. Murinoglobulin contained about 7.6% carbohydrate and was composed of a single-polypeptide chain of Mr = 180,000 as judged by the equilibrium sedimentation analysis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. Murinoglobulin did not cross-react immunologically with mouse alpha-macroglobulin nor with human alpha-2-macroglobulin. Protease-inhibiting properties of murinoglobulin were compared with those of mouse alpha-macroglobulin and human alpha-2-macroglobulin. All the three proteins inhibited trypsin, papain, and thermolysin, although they differed considerably in both the degree of inhibition and the binding stoichiometry of protease-inhibitor complexes. The two macroglobulins inhibited pepsin at pH 5.5, whereas murinoglobulin was inactivated at this pH. Murinoglobulin was more sensitive to methylamine than the two macroglobulins. No protein corresponding to murinoglobulin was detected in human plasma.
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PMID:Murinoglobulin, a novel protease inhibitor from murine plasma. Isolation, characterization, and comparison with murine alpha-macroglobulin and human alpha-2-macroglobulin. 257 55

Most protein phosphotyrosine phosphatases (PPT-phosphatases) have been recovered from the cytosol of various cell types and tissues. The present study explores the properties of PPT-phosphatases in rabbit kidney membranes prepared by centrifugation at 100,000 g. More of the total activity was recovered in membranes from fresh (45%) compared with frozen-and-thawed (36%) tissue. However, extracts of fresh tissue had only 15-30% as much total PPT-phosphatase activity. Up to 3-fold activation of cytosolic and membrane PPT-phosphatases occurred during preparation, an effect most evident when fresh tissue was homogenized in buffers containing multiple proteinase inhibitors. These inhibitors apparently block some, but not all, digestion of proteins that mask PPT-phosphatase activity. Incubation of membranes prepared from fresh tissue with added trypsin, papain or thermolysin in each case caused activation of PPT-phosphatase as well as generation of a soluble catalytic fragment. The fragment also was generated by the action of endogenous proteinases during repeated centrifugation and was isolated from these supernatants by DEAE-Sepharose, Zn2+-affinity and gel-filtration chromatography. The fragment had Mr approx. 33,000, had a neutral pH optimum, was inhibited by 50% by 100 microM-vanadate, and was insensitive to the alkaline-phosphatase inhibitors EDTA and levamisole. Although the chromatographic behaviour and lability of the fragment were distinct from those of the predominant cytosolic PPT-phosphatase, some cytosolic PPT-phosphatases exhibited properties consistent with the suggestion that they are fragments derived by proteolysis of PPT-phosphatases in membranes. Localization of PPT-phosphatases in plasma membranes would facilitate reaction with receptor/kinases in vivo.
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PMID:Membrane protein phosphotyrosine phosphatase in rabbit kidney. Proteolysis activates the enzyme and generates soluble catalytic fragments. 282 89


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