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Peptidases membrane-bound

Peptidases as integral components of cells have only been partly explored, e. g. lysosomal peptidases, granulocyte serine peptidases, membrane-bound peptidases, and enzymes of specialized tissues, such as the reproductive tract, skins, lens, muscle, pituitary, adrenals etc. Various ATP-dependent peptidases have been isolated. [Pg.815]

A peptide, once released, is not subject to reuptake like most transmitters, but is broken down by membrane peptidases. There are no known peptide transporters so that reuptake and re-use are not likely. The peptidases are predominantly membrane bound at the synapse and many are metalloproteases in that they have a metal moiety, most often zinc, near the active site. These enzymes are generally selective for particular... [Pg.253]

The coupling of solute transport in the GI lumen with solute lumenal metabolism (homogeneous reaction) and membrane metabolism (heterogeneous reaction) has been discussed by Sinko et al. [54] and is more generally treated in Cussler s text [55], At the cellular level, solute metabolism can occur at the mucosal membrane, in the enterocyte cytosol, and in the endoplasmic reticulum (or microsomal compartment). For peptide drugs, the extent of hydrolysis by lumenal and membrane-bound peptidases reduces drug availability for intestinal absorption [56], Preferential hydrolysis (metabolic specificity) has been targeted for reconversion... [Pg.191]

Membrane alanyl aminopeptidase (microsomal aminopeptidase, amino-peptidase M, EC 3.4.11.2) and peptidyl-dipeptidase A (angiotensin I converting enzyme, EC 3.4.15.1) located in the vascular endothelium and smooth muscle cell surface modulate the levels of vasoactive peptides [23], One of the roles of membrane-bound enzymes is to switch off the action of peptides in the vicinity of the target or to prevent them from gaining access to a region containing receptors that are activated only by locally released peptides. [Pg.38]

This enzyme [EC 3.4.16.4], also known as serine-type D-alanyl-D-alanine carboxypeptidase, catalyzes the hydrolysis of D-alanyl-D-alanine to yield two D-alanine. This enzyme comprises a group of membrane-bound, bacterial enzymes of the peptidase family Sll. They are distinct from the zinc D-alanyl-D-alanine carboxypeptidase [EC 3.4.17.14]. The enzyme also hydrolyzes the D-alanyl-D-alanine peptide bond in the polypeptide of the cell wall. In addition, the enzyme will also catalyze the transpeptidation of peptidyl-alanyl moieties that are A-acetyl-substituents of D-alanine. The protein is inhibited by j8-lactam antibiotics, which acylate the active-site seryl residue. [Pg.42]

This enzyme [EC 3.4.11.9] (also known as Xaa-Pro aminopeptidase, X-Pro aminopeptidase, proline amino-peptidase, and aminoacylproline aminopeptidase) catalyzes the hydrolysis of a peptide bond at the iV-terminus of a peptide provided that the iV-terminal amino acyl residue is linked to a prolyl residue by that peptide bond. The enzyme will also act on dipeptides and tripeptides with that same restriction. Either manganese or cobalt is needed as a cofactor. This enzyme appears to be a membrane-bound system in both mammalian and bacterial cells. The protein belongs to the peptidase family M24B. [Pg.55]

This zinc-dependent enzyme [EC 3.4.15.1] (also known as dipeptidyl carboxypeptidase I, dipeptidyl-dipeptidase A, kininase II, peptidase P, and carboxycathepsin) catalyzes the release of a C-terminal dipeptide at a neutral pH. The enzyme will also act on bradykinin. The presence of prolyl residues in angiotensin I and in bradykinin results in only single dipeptides being released due to the activity of this enzyme, a protein which belongs to the peptidase M2 family. The enzyme is a glycoprotein, generally membrane-bound, that is chloride ion-dependent. [Pg.57]

These zinc-dependent endopeptidases (meprin A [EC 3.4.24.18] and meprin B [EC 3.4.24.63] ) are members of the peptidase family M12A. They catalyze the hydrolysis of peptide bonds in proteins and peptide substrates. Meprin A, a membrane-bound enzyme that has been isolated from mouse and rat kidney and intestinal brush borders as well as salivary ducts, acts preferentially on carboxyl side of hydrophobic amino acyl residues. Meprin A and B are insensitive to inhibition by phosphora-midon and thiorphan. [Pg.452]

Processing of insulin. Insulin is synthesized by membrane-bound polysomes in the /3 cells of the pancreas. The primary translation product is preproinsulin, which contains a 24-residue signal peptide preceding the 81-residue proinsulin molecule. The signal peptide is removed by signal peptidase, cutting between Ala (—1) and Phe (+1), as the nascent chain is transported into the lumen of the endoplasmic reticulum. Proinsulin folds and two disulfide bonds crosslink the ends of the molecule as shown. Before secretion, a trypsinlike enzyme cleaves after a pair of basic residues 31, 32 and 59, 60 then a carboxypeptidase B-like enzyme removes these basic residues to generate the mature form of insulin. [Pg.758]

Owing to the complementary roles of NEP and APN in enkephalin inactivation, selective inhibitor of only one of the two peptidases gives weak antinoceptive effects even after ICV administration. This led us to propose the concept of mixed inhibitors, that is, compounds able to simultaneously block NEP and APN activities [reviews in 9,20]. This was possible owing to the fact that these two membrane-bound enzymes belong to the superfamily of zinc metallopeptidases. [Pg.280]

Schntirch-Bernkop, A., Zarti, H., and Walker, G. F. (2001), Thiolation of polycarbophil enhances its inhibition of soluble and intestinal brush border membrane bound amino-peptidase N, J. Pharm. Sci., 90,1907-1914. [Pg.643]

The source of the peptidase will depend on the aim of the assay i.e., one may wish to measure catalytic activity in tissue or plasma samples, in which case specificity of the substrate is of prime importance. Conversely, if the assay is to be used in the development of peptidase inhibitors, the enzyme should be present in as pure a form as possible. We routinely express a recombinant form of ECE-1 in Chinese hamster ovary cells, and generally use the wild-type, membrane-bound form of the enzyme in crude membrane preparations. However, we have also designed a soluble, secreted form of ECE-1 containing a hexahistidine tag this allows purification on a nickel affinity resin and eliminates potential problems involved with the use of crude, particulate membranes. [Pg.148]

A small fraction of the polypeptides contacting the brush border of the small intestine is hydrolyzed by membrane-bound enzymes attached to the outside of the enteroey te. Although a variety of peptidases are bound to the brush border, the most abundant is amlnopeptidase N, which catalyzes the hydrolysis of amino... [Pg.88]


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See also in sourсe #XX -- [ Pg.20 , Pg.21 ]




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