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Enzyme
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Target Concepts:
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Query: EC:3.4.23.5 (
cathepsin D
)
4,130
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Incubation of bovine serum albumin (BSA), rat serum albumin or rat plasma with medium conditioned by endotoxin stimulated rat peritoneal macrophages produced an activity that released histamine from isolated rat serosal mast cells. The amount of histamine-releasing activity (HRA) produced increased with the length of the incubation period, with the concentration of albumin, with the number of macrophages stimulated, and with the duration of exposure of the macrophages to endotoxin. Moreover, the formation of the HRA showed a dependency on the pH of the incubation medium with an optimum at pH 4.5. Boiling the medium conditioned by stimulated macrophages before its incubation with albumin or including the acid protease inhibitor, pepstatin with the conditioned medium prevented the formation of HRA. The generation of HRA was not inhibited by pretreatment of the macrophages with the inhibitor of protein synthesis, cycloheximide. Media from macrophages not stimulated with endotoxin failed to generate HRA. Histamine release from mast cells in response to the HRA was inhibited by pretreatment of the cells with antimycin A and deoxyglucose or by preincubation in Ca-free Locke's solution containing a calcium chelating agent. When injected intradermally into anesthetized Evan's Blue treated rats, the generated HRA produced a change in vascular permeability that was prevented by the H1 antagonist, diphenhydramine. Treatment of the HRA with carboxypeptidase A reduced its ability to stimulate histamine release from mast cells. Histamine-Releasing Peptide (HRP), a
neurotensin
-related octapeptide, shown previously by us to be formed by the action of
cathepsin D
or pepsin on albumin, was identified by radioimmunoassay in acid:acetone extracts of the histamine-releasing activity. It is concluded that the formation of HRA is due to the actions of enzymes released from macrophages acting on albumin. It is suggested that such histamine-releasing activity could be formed during the later stages of the inflammatory response and that HRP is one of the peptides present.
...
PMID:Formation of histamine-releasing activity from albumin by medium conditioned by endotoxin-stimulated rat peritoneal macrophages. 138 Jul 64
A 15 amino acid synthetic peptide, which spanned the dibasic cleavage site C-terminal to
neurotensin
(NT), in its 170-residue canine precursor, was synthesized by solid-phase methods. Using this substrate in combination with a radioimmunoassay specific for the C-terminal region of NT, a simple assay was developed to monitor protease-mediated cleavage of the Leu8-Lys9 bond in the substrate. Hog pepsin and the related enzymes, rhizopus pepsin, bovine
cathepsin D
, and mouse renin, were found to be effective in this assay, pepsin cleaving only this bond to liberate the NT-like sequence. The pH dependence of the reaction indicated that pepsin,
cathepsin D
, and renin exhibited significant activity at pH's characteristic for secretory vesicles (pH 5.5-6.5). In addition, pepsin and
cathepsin D
were shown to process the native precursor at pH's as high as 5.5. These results, although not proof, are consistent with the idea that endoproteases with pepsin-like specificity may be involved in the processing of the NT precursor in neural/endocrine cells.
...
PMID:Pepsin-mediated processing of synthetic precursor-like sequence yields neurotensin-like peptide. 140 11
Lysates of isolated rat polymorphonuclear leukocytes and macrophages were found to generate xenopsin-related peptides when incubated with a liver extract used as a source of precursor. The lysosomal enzyme,
cathepsin D
, was also shown to display this property and to share with the lysate a similar pH dependence (optimum, approximately pH 3.5) and sensitivity to the acid protease inhibitor, pepstatin A (ID50: lysate, 10 nM;
cathepsin D
, 30 nM). When subjected to HPLC on mu-Bondapak C-18, the xenopsin-related peptides generated by the lysate eluted near to those formed by
cathepsin D
and when tested in a radioreceptor assay for
neurotensin
, they displayed similar cross-reactivities (peak 2, approximately 50%; peak 1, approximately 100%). These results indicate that
cathepsin D
from lysed granulocytes can process precursor protein(s) to form radioreceptor-active xenopsin-related peptides.
...
PMID:Xenopsin-related peptide(s) are formed from xenopsin precursor by leukocyte protease(s) and cathepsin D. 205 86
Human skin was subjected to a variety of extraction and enzymatic digestion procedures. Extracts and digests were subjected to
neurotensin
and xenopsin radioimmunoassays of known specificity. No
neurotensin
immunoreactivity was detected in any preparation with any region-specific antiserum. C-terminal xenopsin immunoreactivity was present in skin homogenates following incubation with both soluble and solid-phase pepsin and in those incubated with a leucocyte lysate or purified
cathepsin D
. The generation of xenopsin immunoreactivity was dependent on low pH and enzymes of pepsin-type specificity acting on a tissue precursor of approximately 30 kDa. Gel permeation chromatography of skin-derived xenopsin immunoreactivity identified a single molecular species larger than synthetic xenopsin which was resolved into two components by reverse-phase HPLC with retention times similar to synthetic xenopsin and kinetensin. Human skin thus contains a high-molecular-weight precursor protein and an endogenous acid protease,
cathepsin D
, capable of generating a peptide of similar size and C-terminal structure to amphibian xenopsin under acidic conditions such as might occur locally in wounds or at sites of inflammation.
...
PMID:Characterisation of xenopsin immunoreactivity derived from pepsinised human skin and possible mechanism of in vivo generation. 211 73
Experiments were performed on isolated human cerebral arteries to evaluate the role desensitization and tachyphylaxis might play in preventing certain agonists from producing prolonged vasoconstriction after subarachnoid hemorrhage. In addition, the antiproteases leupeptin and pepstatin were studied to ascertain whether these peptides might inhibit contraction as does antithrombin III. The maximal contraction to KCl was used as a standard for comparing the responses elicited by the agonists, the decay of the responses to the agonists over 15 minutes was used as an index of desensitization, and the percentage of decrease in response to a second application of the agonist over the first was a measure of tachyphylaxis. The results showed that desensitization and tachyphylaxis greatly reduced or abolished the contractile responses to norepinephrine, serotonin, angiotensin II, arginine vasopressin, substance P, neuropeptide Y,
neurotensin
, thrombin, uridine triphosphate, linoleic acid, melittin, and
cathepsin D
. Moreover, some arteries failed to respond to some of these agonists, and no contractile response was elicited by acetylcholine or bradykinin. In contrast, prostaglandins E2, D2, and F2 alpha, as well as plasmin, produced sustained contractions, without tachyphylaxis, but only prostaglandin E2 and plasmin produced contractions at concentrations of 10(-7) M or less that were comparable to those of KCl. None of the antiprotease peptides inhibited the responses to KCl whereas small concentrations (6 X 10(-8) M) of antithrombin III did. The results support the hypotheses that the phenomenon of desensitization and tachyphylaxis would prevent many diverse agents from acting as spasmogens and that substances like antithrombin III present in the cerebrospinal fluid after hemorrhage could immediately protect patients from cerebral vasospasm.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Pharmacodynamic evaluation of human cerebral arteries in the genesis of vasospasm. 368 86
Cathepsin E (EC 3.4.23.34), an intracellular aspartic proteinase, was purified from monkey intestine by simple procedures that included affinity chromatography and fast protein liquid chromatography. Cathepsin E was very active at weakly acidic pH in the processing of chemically synthesized precursors such as the precursor to
neurotensin
/neuromedin, proopiomelanocortin, the precursor to xenopsin, and angiotensinogen. The processing sites were adjacent to a dibasic motif in the former two precursors and at hydrophobic recognition sites in the latter two. The common structural features that specified the processing sites were found in the carboxyl-terminal sequences of the active peptide moieties of these precursors; namely, the sequence Pro-Xaa-X'aa-hydrophobic amino acid was found at positions P4 through P1. Pro at the P4 position is thought to be important for directing the processing sites of the various precursor molecules to the active site of cathepsin E. Although the positions of Xaa and X'aa were occupied by various amino acids, including hydrophobic and aromatic amino acids, some of these had a negative effect, as typically observed when Glu/Arg and Pro were present at the P3 and P2 positions, respectively. Cathepsin D was much less active or was almost inactive in the processing of the precursors to
neurotensin
and related peptides as a result of the inability of the Pro-directed conformation of the precursor molecules to gain access to the active site of
cathepsin D
. Thus, the consensus sequence of precursors, Pro-Xaa-X'aa-hydrophobic amino acid, might not only generate the best conformation for cleavage by cathepsin E but might be responsible for the difference in specificities between cathepsins E and D.
...
PMID:Processing of the precursors to neurotensin and other bioactive peptides by cathepsin E. 764 80
