Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two species of T-kininogen which release T-kinin (Ile-Ser-bradykinin) have been purified from plasma of rats treated with Freund's complete adjuvant. The molecular weight was estimated to be 69,000 for either T-kininogen I and II by SDS-polyacrylamide gel electrophoresis. Trypsin released one mole of T-kinin from one mole of either T-kininogen, but glandular kallikrein, including rat urinary and rat submandibular gland kallikreins and human urinary kallikrein, did not release any kinin from T-kininogens. Cathepsin D, which was purified from rat liver, released T-kinin from T-kininogens at pH 4.0. These results indicate that rat plasma contains two types of T-kininogen which differ from high molecular weight and low molecular weight kininogens.
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PMID:Isolation and properties of two rat plasma T-kininogens. 354 20

Rat kidney cortex slices were homogenized with a polytron in a isoosmotic medium containing 5 mmol/l EGTA. By two precipitations with MgCl2 (12 mmol/l) and differential centrifugation, brush border membranes were purified. The brush border marker enzymes alkaline phosphatase and aminopeptidase M were found to be enriched 17.0 +/- 5.3-fold and 16.7 +/- 3.7-fold, respectively. By this method, a high yield of brush border membranes was obtained (48.3 +/- 7.9% for alkaline phosphatase; 47.0 +/- 9.5% for aminopeptidase M). The acid phosphatase was enriched 5-fold, whereas other lysosomal enzymes (glucosaminidase, glucuronidase, cathepsin D) were enriched only 0.2-fold. Acid phosphatase activity could not be washed out, but could be separated from alkaline phosphatase and leucine aminopeptidase by means of free flow electrophoresis and sucrose density gradient centrifugation. Vesicles prepared by the presently described Mg/EGTA-method show better transport properties, compared to vesicles prepared by the calcium method of Evers et al. (Evers, C., Haase, W., Murer, H. and Kinne, R. (1978) Membrane Biochem. 1, 203-219), whereas by SDS-polyacrylamide gel electrophoresis, no differences in the protein patterns were observed.
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PMID:A high yield preparation for rat kidney brush border membranes. Different behaviour of lysosomal markers. 611 19

Cathepsin D (CD) was purified to homogeneity from postmortem human cerebral cortex. Incubation of CD with human neurofilament proteins (NFPs) prepared by axonal flotation led to the rapid degradation of the 200,000, 160,000, and 70,000 NFP subunits (200K, 160K, and 70K) which had been separated by one- or two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Degradation was appreciable at enzyme activity-to-substrate protein ratios that were two- to threefold lower than those in unfractionated homogenates from cerebral cortex. Quantitative measurements of NFPs separated by PAGE revealed that, at early stages of digestion, the 160K NFP was somewhat more rapidly degraded than the 70K subunit while the 200K NFP had an intermediate rate of degradation. At sufficiently high enzyme concentrations, all endogenous proteins in human NF preparations were susceptible to the action of CD. Human brain CD also degraded cytoskeletal proteins in NF preparations from mouse brain with a similar specificity. To identify specific NFP break-down products, antisera against each of the major NFPs were applied to nitrocellulose electroblots of NFPs separated by two-dimensional SDS-PAGE. In addition to detecting the 200K, 160K, and 70K NFP in human NF preparations, the antisera also detected nonoverlapping groups of polypeptides resembling those in NF preparations from fresh rat brain. When human NF preparations were incubated with CD, additional polypeptides were released in specific patterns from each NFP subunit. Some of the immuno-cross-reactive fragments generated from NFPs by CD comigrated on two-dimensional gels with polypeptides present in unincubated preparations. These results demonstrate that NFPs and other cytoskeletal proteins are substrates for CD. The physiological significance of these findings and the possible usefulness of analyzing protein degradation products for establishing the action of proteinases in vivo are discussed.
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PMID:Degradation of neurofilament proteins by purified human brain cathepsin D. 642 80

Cathepsin D was isolated from human brain. A consecutive use of affinity chromatography on hemoglobin-sepharose 4B and column chromatography on hydroxylapatite resulted in a homogeneous enzyme (as was demonstrated by SDS polyacrylamide gel electrophoresis) with a molecular weight of about 48,000, 2800-fold purification and 3.4% yield. Incubation of serum proteins in the presence of purified cathepsin D resulted in a gradual decrease of immunoreactive forms of albumin, orosomucoid, transferrin, and other alpha 1, alpha 2 and beta-globulins. The degradation was revealed by crossed immunoelectrophoresis. Crossed affinity immunoelectrophoresis in the presence of ConA showed specific degradation of serum glycoproteins. Rocket immunoelectrophoresis with monospecific antisera raised against human adult brain glycoprotein D2 revealed a rapid and linear degradation of detergent-solubilized and partially purified human membrane glycoprotein D2 by purified cathepsin D. Incubation of glycoprotein D2 in the presence of cathepsin D (30 min, 37 degrees C) resulted in degradation of 95% of specific protein. An exposure of human brain membrane fragments to cathepsin D resulted in linear degradation of membrane-bound glycoprotein followed by an appearance of a soluble immunoreactive form of protein D2.
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PMID:[Immunochemical study of the degradation of circulating glycoproteins and the neurospecific membrane glycoprotein D2 by cathepsin D of the human brain]. 647 83

Cathepsin D was purified about 1000-fold from human brain cortex by a procedure involving ammonium sulfate fractionation (30-70%), Sephadex G-75 chromatography, affinity chromatography on pepstatin-Sepharose and isoelectric focusing. The enzyme was assayed fluorometrically at pH 3.2, the substrates used were globin or haemoglobin modified with pyridoxal-5'-phosphate. 6 multiple forms of cathepsin D were resolved in the isoelectric focusing step with pI values 4.4, 4.8, 5.3, 6.2, 6.5 and 6.8. Km of pyridoxal-globin and pyridoxal-haemoglobin for all 6 multiple forms is 1.8-2.0 X 10(-5) M and 1.3 to 4 X 10(-6) M, respectively, and Ki of pepstatin is 2-4 X 10(-9) M. Gel filtration of the multiple forms on Sephadex G-100 column showed that each has a molecular weight of about 50 000. Human brain cathepsin D has a pH optimum of 3.2 with a smaller second optimum at pH 4.0 (pyridoxal-haemoglobin being used as substrate). All the multiple forms have the same pH-dependence curve. On SDS-polyacrylamide gel electrophoresis the purified enzyme produced 3 bands approximately corresponding to Mr 50 000, 35 000 and 15 000. Study of the breakdown of substance P and its C-terminal heptapeptide by cathepsin D shows that cleavage occurs at the Phe-Phe linkages of both substrates tested.
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PMID:Cathepsin D from human brain: purification and multiple forms. 667 69

The purification of cathepsin D from pig uterus by two-step affinity chromatography on concanavalin A- and pepstatin-Sepharose was described previously [Afting & Becker (1981) Biochem. J. 197, 519-522]. In this paper, chemical and physical properties of the proteinase are presented. The purified enzyme showed three bands on SDS (sodium dodecyl sulphate)/polyacrylamide-gel electrophoresis, one main band corresponding to an Mr of 31 000 and two minor bands with Mr values of 43 000 and 15 000 respectively. Gel filtration on Bio-gel P-150 and sedimentation-diffusion equilibrium studies give an Mr for the main band of about 35 000. The pI of the enzyme was determined to be 7.2. Haemoglobin was the best substrate, with a Km value of 6.4 X 10(-6)M. It was hydrolysed with a pH optimum between 3.0 and 3.3 for a substrate concentration of 100 microM. The proteinase was stable over the pH range of 3.5-6.5. At pH 6 the enzyme showed stability up to a temperature of 50 degrees C; at pH 3 the activity was already decreased below 40 degrees C. Carbohydrate studies resulted in the staining of all three bands on an SDS/polyacrylamide gel by thymol/H2SO4. After treatment with endo-beta-N-acetylglucosaminidase H, all three bands were shifted to a region of lower Mr. Of various inhibitors tested, only pepstatin was strongly inhibiting, with a Ki of 2.1 X 10(-9)M.
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PMID:Cathepsin D from pig myometrium. Characterization of the proteinase. 674 51

Leucocytes contain an urokinase inhibitor, that can be inactivated by cathepsin D. In this work biochemical and immunological studies on the inactivation of this inhibitor by cathepsin D are presented. Examinations by polyacrylamide gel electrophoresis and SDS electrophoresis indicate that cathepsin D inactivates urokinase inhibitor by hydrolysis of the inhibitor molecule and that the degradation needed for total inactivation is different from that for formation of the precipitin line with antibodies. The conversion of active inhibitor into inactive protein proceeds catalytically.
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PMID:Inactivation studies of the leucocyte inhibitor of urokinase by cathepsin D. 678 39

The mode of degradation of myofibrillar proteins by the action of highly purified rabbit muscle cathepsin D (EC 3.4.23.5) was studied using SDS-polyacrylamide gel electrophoresis. Cathepsin D optimally degraded myosin heavy chain, alpha-actinin, tropomyosin, troponin T and troponin I at around pH 3. It did not degrade actin or troponin C. Degradation of myosin heavy chain produced four major fragments of 155000, 130000, 110000 and 90000 daltons. Troponin T was hydrolyzed to 33000-, and 20000- and 11000-dalton fragments. Troponin I was degraded into fragments of 13000 and 11000 daltons. Degradation of alpha-actinin and tropomyosin was not as rapid as that of myosin and troponins T and I. Tropomyosin gave a fragment of 30000 daltons, but alpha-actinin showed no distinct band of this fragment on gels.
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PMID:Mode of degradation of myofibrillar proteins by rabbit muscle cathepsin D. 682 29

Human placental cathepsin D has been purified 6000-fold and its properties characterized. Its molecular weight has been ascertained to be 42 000 by gel filtration and 43 300 by analytical ultracentrifugation. SDS gel electrophoresis in the presence of beta-mercaptoethanol cleaves the enzyme into two polypeptides of molecular weights 28 200 and 14 400. The placental enzyme resembles cathepsin D isolated from other mammalian tissues in many of its properties, including pH optimum. The higher degree of purification has led to a shift in the isoelectric points of the three isoenzymes from those recorded by other authors. Antibodies raised against cathepsin D in rabbits inhibit it at pH 5.0, and the inhibition is almost 100 per cent with adequate concentrations of monospecific antibody.
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PMID:Purification and properties of human placental cathepsin D. 707 39

More than 95% of the apparent cathepsin D activity in the lysosomes of porcine adrenal cortex was due to a genuine cathepsin D that has a molecular weight of 42,800 +/- 800 (mean +/- standard deviation of the mean in 5 runs) as determined by Sephadex G-100 column chromatography. On CM-Sephadex C-50 column chromatography at pH 6.9, the enzyme was resolved into five peaks which were termed Fractions D1 through D5 in order of their elution from the column. Fraction D4 and Fraction D5 together constituted more than 70% of the total cathepsin D, and were purified through chromatographic procedures to constant specific activities. The content of lysosomal cathepsin D was estimated to be about 1% of the total cellular protein. On isoelectric focusing, Fraction D4 was resolved into one major band with pI of 7.34 (termed Form D4-1) and one minor band of 7.20 (Form D4-2), while Fraction D5 gave one major band with pI of 7.50 (Form D5-1) and two minor ones of 7.37 (Form D5-2) and of 7.20 (Form D5-3). All of these 5 bands were enzymatically active. On SDS-polyacrylamide gel electrophoresis, both Form D4-1 and Form D5-1 dissociated into three subunits with molecular weights of 27,400 +/- 500 (termed Subunit A), 24,600 +/- 400 (Subunit B) and 13,800 +/- 600 (Subunit C) (mean +/- standard deviation of the mean in 16 determinations). The three subunits all contained carbohydrates.
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PMID:Characterization of cathepsin D in porcine adrenocortical lysosomes. 711 74


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