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Peptidases lysosomal

Late infantile neuronal ceroid lipofuscinosis (CLN2) Autosomal recessive Pepstatin-insensitive lysosomal peptidase... [Pg.636]

Careful examination of the yellowish sediment obtained after spinning down the crude mitochondrial fraction showed it was frequently overlaid with loosely packed, fluffy material —the fluffy layer. Experiments from de Duve s and, later, Novikoff s laboratories in the 1950s demonstrated that the lighter, lysosomal fraction was enriched in a number of hydrolases including acid phosphatase, aryl sulphatase, B glucuronidase, RNAase, and a peptidase, cathepsin. All the enzymes had optimal pHs in the acid range (pH 5-pH 6). Density... [Pg.152]

Early endosomes are the main sorting station in the endocytic pathway. In their acidic interior (pH 5.9-6.0), the receptor and its ligand can be released. The receptor may be recycled to the surface by vesicles that fuse with the plasma membrane. Material that cannot escape from the early endosomes is further transported via multivesicular bodies to late endosomes and digesting lysosomes that contain a broad spectrum of peptidases and hydrolases in an acidic surrounding [for reviews on endocytosis see Refs. (10-12), for review on clathrin uptake see Refs. (9,13)]. [Pg.343]

This enzyme [EC 3.4.16.5] (also known as serine-type carboxypeptidase I, cathepsin A, carboxypeptidase Y, and lysosomal protective protein) is a member of the peptidase family SIO and catalyzes the hydrolysis of the peptide bond, with broad specificity, located at the C-terminus of a polypeptide. The pH optimum ranges from 4.5 to 6.0. The enzyme is irreversibly inhibited by diisopropyl fluorophosphate and is sensitive to thiolblocking reagents. [Pg.112]

This lysosomal enzyme [EC 3.4.22.1], also known as cathepsin Bl, is a member of the peptidase family Cl. The catalyzed reaction is the hydrolysis of peptide binds with a broad specificity. The enzyme prefers the ArgArg—Xaa bond in small peptide substrates (thus distinguishing this enzyme from cathepsin L). The enzyme also exhibits a peptidyl-dipeptidase activity, releasing C-terminal dipeptides from larger polypeptides. [Pg.121]

This lysosomal endopeptidase [EC 3.4.23.5] is similar to pepsin A, except that the specificity is narrower and will not hydrolyze the Gln" —His peptide bond in the B chain of insulin. The enzyme is a member of the peptidase family Al. [Pg.121]

This mammalian lysosomal endopeptidase [EC 3.4.22.16] is also known as aleurain, cathepsin B3, cathepsin BA, and benzoylarginineinaphthylamide hydrolase. A member of the peptidase family Cl, the enzyme also acts with an aminopeptidase activity, preferring Arg— Xaa peptide bonds. [Pg.122]

This peptidase family Cl enzyme [EC 3.4.22.15] is an lysosomal endopeptidase with specificity akin to papain. Cathepsin L displays a higher activity toward protein substrates than does cathepsin B. [Pg.122]

This enzyme [EC 3.4.14.1], also called cathepsin C and cathepsin J, catalyzes the hydrolysis of a peptide bond resulting in the release of an N-terminal dipeptide, XaaXbb-Xcc, except when Xaa is an arginyl or a lysyl residue, or Xbb or Xcc is a prolyl residue. This enzyme, a member of the peptidase family Cl, is a CF-dependent lysosomal cysteine-type peptidase. [Pg.204]

Proteolytic enzymes such as proteases and peptidases are ubiquitous throughout the body. Sites capable of extensive peptide and protein metabolism are not only limited to the liver, kidneys, and gastrointestinal tissue, but also include the blood and vascular endothelium as well as other organs and tissues. As proteases and peptidases are also located within cells, intracellular uptake is per se more an elimination rather than a distribution process [13]. While peptidases and proteases in the gastrointestinal tract and in lysosomes are relatively unspecific, soluble peptidases in the interstitial space and exopeptidases on the cell surface have a higher selectivity and determine the specific metabolism pattern of an organ. The proteolytic activity of subcutaneous tissue, for example, results in a partial loss of activity of SC compared to IV administered interferon-y. [Pg.32]

The lysosomal enzymes most relevant to our discussion are the peptidases and the nucleases. The peptidases, also referred to as the cathepsins, comprise at least eight exopeptidases and nine endopeptidases, which between them have a broad range of specificities that enable them to reduce any proteins or peptides to their constituent amino acids. [Pg.12]

Cat B is an abundant and ubiquitously expressed cysteine peptidase of the papain family and makes up a major fraction of lysosomal enzymes that is capable of degrading components of the extracellular matrix in various diseases [30-32]. Cat B is also a prognostic marker for several types of cancer [33], and increased expression and secretion of cat B has been shown to be involved in the migration and invasion of various tumours [34—36], The precise role of cat B in solid tumours is not fully understood, but it has been proposed to participate, along with other cysteine cathepsins, in metastasis, angiogenesis, and tumour progression [37], Indeed, cat B inhibitors reduce both tumour cell motility and invasiveness in vitro [38], Recently, metal complexes based on rhenium, gold and palladium were shown to be effective inhibitors of cat B [39-44],... [Pg.63]

Pepstatin-insensitive lysosomal peptidase Late-infantile NCL Pepstatin-insensitive lysosomal peptidase llplS.S... [Pg.789]

Cystatin refers to a diverse family of protein cysteine protease inhibitors. There are three general types of cystatins Type 1 (stefens), which are primarily found in the cytoplasm but can appear in extracellular fluids Type 2, which are secreted and found in most extracellular fluids and Type 3, which are multidomain protease inhibitors containing carbohydrates and that include the kininogens. Cystatin 3 is used to measure renal function in clinical chemistry. See Barrett, A.J., The cystatins a diverse superfamily of cysteine peptidase inhibitors, Biomed. Biochim. Acta 45,1363-1374,1986 Katunuma, N., Mechanisms and regulation of lysosomal proteolysis, Revis. Biol. Cellular 20, 35-61, 1989 Gauthier, F., Lalmanach, G., Moeau, T. et al., Cystatin mimicry by synthetic peptides, Biol Chem. Hoppe Seyler 373, 465-470, 1992 Bobek, L.A. and Levine,... [Pg.334]

Stypmann J, Glaser K, Roth W, Tobin DJ, Petermann I, et al. Dilated cardiomyopathy in mice deficient for the lysosomal cysteine peptidase cathepsin L. Proc. Natl. Acad. Sci. U.S.A. 2002 99 6234-6239. [Pg.1234]

In addition to the destructive proteolysis processes in the proteasome and lysosome, many constructive proteolysis processes occur in cells. In both prokaryotes and eukaryotes, secreted proteins contain a signal peptide at the N-terminus that directs them to the secretary pathway. This signal peptide must be cleaved later by signal peptidases (typically serine proteases)... [Pg.1573]

Chloride ions are known to be required for the activity of only a few enzymes — certain peptidases. These peptidases include angiotensin II (Bunning and Rior-dan, 1983,1987), an enzyme that participates in the regulation of salt metabolism, and the cathepstns. The cathepsins are located in lysosomes, organelles used for the hydrolysis of nutrients recently transported into the cell. [Pg.705]

See other pages where Peptidases lysosomal is mentioned: [Pg.882]    [Pg.51]    [Pg.29]    [Pg.41]    [Pg.41]    [Pg.42]    [Pg.281]    [Pg.330]    [Pg.153]    [Pg.153]    [Pg.287]    [Pg.291]    [Pg.382]    [Pg.319]    [Pg.610]    [Pg.1722]    [Pg.356]    [Pg.376]    [Pg.269]    [Pg.310]    [Pg.198]    [Pg.569]    [Pg.519]    [Pg.882]    [Pg.1709]    [Pg.112]    [Pg.2728]    [Pg.610]   
See also in sourсe #XX -- [ Pg.21 , Pg.22 , Pg.313 , Pg.319 ]



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Lysosomal

Lysosomes

Peptidases

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