Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.23.5 (cathepsin D)
 4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CGP 53437 is a peptidomimetic inhibitor of human immunodeficiency virus type 1 (HIV-1) protease containing a hydroxyethylene isostere. The compound inhibited recombinant HIV-1 protease with a Ki of 0.2 nM. The inhibition constant versus human cathepsin D and human cathepsin E was 4 nM. Human pepsin and gastricsin were inhibited with Kis of 8 and 500 nM, respectively, and human renin was inhibited with a Ki of 190 microM. The replication of HIV-1/LAV, HIV-1/Z-84, and HIV-1/pLAI was inhibited with a 90% effective dose of 0.1 microM in acutely infected MT-2 cells. The 50% cytotoxic dose was 100 microM. Similar antiviral activity was observed when the compound was added up to 10 h after infection. At the effective concentration, processing of Gag precursor protein p55 was greatly reduced, confirming an action on the late stage of the virus life cycle, as expected. The efficacy of the inhibitor was also demonstrated by using primary human peripheral blood lymphocytes infected with the HIV-1/LAV strain, low-passage clinical isolates obtained from HIV-1-seropositive individuals (including a zidovudine-resistant strain), and HIV-2/ROD. In these cells, CGP 53437 delayed the onset of HIV replication in a dose-dependent fashion (substantial effects with concentrations of > or = 0.1 microM) as long as the inhibitor was maintained in the culture. CGP 53437 was orally bioavailable in mice. Concentrations in plasma 10-fold in excess of the in vitro antiviral 90% effective dose could be sustained for several hours after oral application of 120 mg/kg. Therefore, CGP 53437 has the potential to be a therapeutically useful anti-HIV agent for the treatment of AIDS.
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PMID:CGP 53437, an orally bioavailable inhibitor of human immunodeficiency virus type 1 protease with potent antiviral activity. 825 28

The accumulation and localization of cathepsins E and D in the rat hippocampus and neostriatum during the neurodegenerating process induced by transient forebrain ischemia were investigated by immunoprecipitation and by immunohistochemistry using discriminative antibodies specific for each enzyme. While significant amounts of cathepsin D were found in both the hippocampus and the neostriatum of normal rats, cathepsin E was barely detectable in these tissues. No significant change in their levels was found in these tissues of postischemic rats for up to 3 days after transient forebrain ischemia. After 7 days of the treatment, cathepsin E was markedly increased in both tissues. Although the cathepsin D content in these tissues was also increased at this stage, the rate of increase was much less than that of cathepsin E. At the light microscopic level, the increased immunoreactivity for each enzyme was mainly found in reactive glial cells and degenerating neurons in the hippocampal CA1 subfield at 7 days postischemia. In the neostriatal dorsolateral portion, cathepsin D immunoreactivity was also increased in both reactive glial cells and degenerating neurons, whereas increased immunoreactivity of cathepsin E was only identified in reactive glial cells at 7 days postischemia. It was also found by double-immunostaining technique that the cathepsin E-positive glial cells were largely reactive microglial cells, whereas the cathepsin D-positive glial cells were associated mainly with reactive astrocytes. These results suggest that the accumulation of both cathepsins E and D in the regions of selective neuronal vulnerability may be associated with the postischemic development of intense gliosis and also probably neurodegenerative responses.
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PMID:Transient forebrain ischemia induces increased expression and specific localization of cathepsins E and D in rat hippocampus and neostriatum. 833 72

The structure of rabbit procathepsin E was determined by molecular cloning of its cDNA. The proenzyme consisted of 379 amino acids and had structural features common to human and guinea-pig procathepsin E species. The highly conserved tripeptide sequence at the active site of aspartic proteinases, Asp-Thr(Ser)-Gly, is, however, replaced by Asp-Thr-Val in rabbit procathepsin E. To our knowledge, this is the first case of such a variation in aspartic proteinases. The processed form, cathepsin E, hydrolyzed various biologically active peptides maximally at around pH5. Tachykinins, such as substance P and neurokinin A, were hydrolyzed most rapidly, with specific cleavage of sequences essential for their activity. The rates of hydrolysis were several hundred-fold higher than those of cathepsin D. Furthermore, cathepsin E was able to inactivate a functional-domain peptide of fibroblast growth factor, the sequence of which resembles those of tachykinins, and it was active in the generation of functional peptides, such as endothelin and angiotensin I, from their respective precursors. Procathepsin E was detected at high levels in various fetal tissues, such as the liver, stomach and blood cells. At the adult stage, the proenzyme was detectable only in specific tissues, such as the urinary bladder, duodenum and colon. Northern-blot analysis showed similar stage-specific and tissue-specific expression of the mRNA for procathepsin E. Since tachykinins and other suited peptide substrates of cathepsin E have been shown to have mitogenic activity, (pro)cathepsin E may regulate the growth and differentiation of embryonic and fetal tissues by degrading or processing these peptides. The enzyme may also regulate the physiological activities of adult tissues which are mediated by substance P and related tachykinins.
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PMID:Rabbit procathepsin E and cathepsin E. Nucleotide sequence of cDNA, hydrolytic specificity for biologically active peptides and gene expression during development. 840 90

Investigation of skin cathepsin E (EC 3.4.23.-) has been totally ignored compared to skin cathepsin D (ED 3.4.23.5). In this study both cathepsins E and D were simultaneously purified to homogeneity up to 370 and 640 times, respectively, from 2-day-old rat epidermis. The total aspartic proteinase activity of rat epidermis detected after Q-Sepharose column chromatography was attributed to 27% cathepsin E, 63% cathepsin D, and 10% other enzymes. The purified enzymes showed that cathepsin E (90 kDa) is a dimer of 45 kDa subunits whereas cathepsin D is a monomer of 42 kDa. Other biochemical properties of epidermal cathepsins E and D were similar to those reported from other tissue sources. Immunologically cathepsins E and D were distinct from each other and localization of the two enzymes differed in both rat and human skin by immunohistochemistry. Cathepsin E was distributed diffusely in the cytoplasm of almost all epidermal cells, though its concentration increased above suprabasal cells, whereas cathepsin D appeared in particulate form only in cells of the granular layer. The findings indicate that two aspartic proteinases that have similar enzymatic properties exist in the epidermis. They are, however, differentially distributed in the organ, presumably for different functions during the process of keratinization.
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PMID:Purification and immunohistochemical localization of aspartic proteinases in rat epidermis. 845 2

A specific rabbit anti-human serum was used selectively to localize the aspartic proteinase cathepsin E to follicle associated epithelium (FAE) of human and rat intestine, including jejunum, ileum, appendix, colon and rectum, as well as of human palatine, pharyngeal and lingual tonsils. Coexpression of class II histocompatibility antigen HLA-DR antigen has been observed in some of the cathepsin E-positive epithelial cells. In addition, cathepsin E has been detected in a few mononuclear cells of intestinal lymphoid structures and tonsils resembling interdigitating reticulum cells of lymph nodes. Another aspartic proteinase, cathepsin D, has been found to be poorly represented in FAE and intensely expressed by macrophages. Electron immunocytochemistry localized cathepsin E to endosomal vesicles and endoplasmic reticulum of M cells in rat and human ileum as well as of M-like cells in human palatine tonsil. The results suggest a possible role of endosomal cathepsin E in the processing of macromolecules and microorganisms transported by M cells and related epithelial cells to mucosal associated lymphoid tissue (MALT).
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PMID:Cathepsin E in follicle associated epithelium of intestine and tonsils: localization to M cells and possible role in antigen processing. 849 74

Age-related and dexamethasone (DEX)-induced changes in the cellular levels, distributions, and molecular forms of two distinct intracellular aspartic proteinases, cathepsin E (CE) and cathepsin D (CD), were investigated in rat thymus and spleen by immunohistochemical and quantitative analyses. In the thymus, CE was predominantly restricted to thymocytes and macrophage-like cells, whereas CD was associated mainly with the stromal cells. The increased thymic CE level observed in young rats up to 8 weeks of age was markedly decreased in aged rats (78-80 weeks of age), in accordance with the involution of the thymus, while there was little difference in the thymic CD level between young and aged rats. Subcutaneous administration of DEX also caused a marked decrease of the thymic CE level in response to the depletion of thymocytes. In contrast, a great accumulation of CD occurred in the thymic stromal cells after DEX treatment. Immunoblotting analyses revealed that CE in thymocytes isolated from young rats consisted predominantly of a 46-kDa proform which was greatly converted into a 42-kDa mature form in DEX-treated thymocytes. This conversion, however, was scarcely observed during the normal aging process. In the spleen, CE was also abundant in macrophage-like cells and lymphocytes and its level was not significantly changed between young and aged rats. However, DEX treatment caused a marked decrease of the splenic CE and CD levels in accordance with the depletion of the white pulp. Among the lymphoid cell types examined, splenic B cells were the most abundant in CE. The CE level in thymocytes and splenic T-cells was more than twice that in circulating lymphocytes. We concluded that CE is related to the process of activation-induced lymphocyte depletion.
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PMID:Age-related and dexamethasone-induced changes in cathepsins E and D in rat thymic and splenic cells. 880 73

Age-related changes in the expression and localization of two distinct intracellular aspartic proteinases, cathepsin E (CE) and cathepsin D (CD), were investigated in the rat cerebral cortex and the brainstem by immunocytochemical and quantitative methods using discriminative antibodies specific for each enzyme. Nonlysosomal CE was barely detectable in these two brain tissues in the embryonic stages, whereas relatively high expression of lysosomal CD was observed in embryonic tissues. After birth, CE was increasingly expressed in these tissues with aging to attain maximal levels at 30 months of age. Western blot analyses revealed that CE existed predominantly as the mature enzyme at 2 and 17 months of age, whereas it was present as not only the mature enzyme but also the proenzyme at 30 months of age. On the other hand, CD was mainly present in the mature form throughout development, although its level in these tissues was also significantly increased with aging. The CE-positive cortical and brainstem neurons of the aged rat corresponded well with cells emitting autofluorescence for lipopigments. By the double-staining technique, most of the CE-positive cortical and brainstem neurons of the aged rat were also positive for antibody to the carboxyl-terminal fragments of amyloid precursor protein (APP634-695), intracellular accumulation of which is thought to be associated with age-related changes in the endosome/lysosome system. It is important that electron microscopy revealed that CE in brainstem neurons of the aged rat colocalized with CD in the lipofuscin-containing lysosomes. These results indicate that aging results in the increased expression and lysosomal localization of CE in cortical and brainstem neurons and changes in the endosomal/lysosomal proteolytic system, which may be related to lipofuscinogenesis and altered intracellular APP metabolism.
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PMID:Increased expression of cathepsins E and D in neurons of the aged rat brain and their colocalization with lipofuscin and carboxy-terminal fragments of Alzheimer amyloid precursor protein. 900 65

Degradation of protein antigens by cellular proteases is a crucial step in the initiation of a T-cell-mediated immune response. But still little is known about the enzymes responsible for the processing of antigens, including their specificity. In this paper, we show that the combination of automated N-terminal sequencing with a newly developed method for C-terminal sequencing of peptide pools generated by the aspartic proteases cathepsins D and E is a fast and easy method to obtain detailed information of the substrate specificity of these endopeptidases. Using a 15-residue synthetic peptide library and a native protein as substrates, we confirm and extend the knowledge about the cleavage motif of cathepsin E where positions P1 and P1' of the substrate must be occupied exclusively by hydrophobic amino acids with aromatic or aliphatic side chains. However, Val and Ile residues are not allowed at position P1. Position P2' accepts a broad range of amino acids, including charged and polar ones. Additional requirements concerning the substrate positions P3' and P4' were also defined by pool sequencing. Furthermore, pool sequencing analysis of melittin digests with the aspartic proteases cathepsin D and E provided evidence that both enzymes share the same cleavage motif, identical to the one derived from the peptide library and the native protein. Therefore, pool sequencing analysis is a valuable and fast tool to determine the substrate specificity of any endopeptidase.
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PMID:Substrate specificity of cathepsins D and E determined by N-terminal and C-terminal sequencing of peptide pools. 936 69

Cathepsin E is an aspartic proteinase that has been implicated frequently in Ag processing for presentation on class II MHC molecules, but no information exists on its cleavage specificity within Ags in relation to known T cell epitopes. We have analyzed the processing by cathepsin E of a large C-terminal domain of tetanus toxin (residues 872-1315), and we have compared the processing products with those liberated by cathepsin D, a related aspartic proteinase also thought to be involved in class II MHC-restricted Ag processing. Processing products were analyzed by N-terminal Edman degradation and mass spectrometry following reverse-phase HPLC separation of peptides. A total of 28 cleavage sites was identified, 11 of which were recognized by both cathepsins E and D. Most, although not all, sites were between pairs of hydrophobic residues and were located within the 200-amino-acid C terminal region known to contain several human T cell epitopes. Previously described T cell epitopes, for example, between residues 1273 and 1284, were flanked by cathepsin E and D cleavage sites. These data are consistent with an important role for cathepsins E and/or D in Ag processing in the human immune system.
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PMID:Natural processing sites for human cathepsin E and cathepsin D in tetanus toxin: implications for T cell epitope generation. 936 92

Molecular cloning of a cDNA for a pepsin inhibitor in the round worm, Ascaris suum, was achieved. The ORF was found to encode a 20-residue potential signal peptide and a 149-residue inhibitor moiety. Northern analysis showed the mRNA for the inhibitor to be expressed in the body wall and not in the viscera. To obtain the active inhibitor, we constructed a yeast expression vector, pYES2API, containing the inducible galactosidase promoter and a DNA fragment encoding a fusion protein of the yeast alpha-factor leader and the Ascaris pepsin inhibitor. The active inhibitor was secreted in the culture medium, the yield being approximately 3 mg x l(-1) x day(-1), and purified by a two-step procedure that included HPLC. The inhibitor inactivated pepsin A and cathepsin E almost completely at amounts equimolar with the enzymes, but was 100-fold less effective against pepsin C and did not act on cathepsin D and renin. Ki values for the inhibition of pepsin A and cathepsin E were in the nanomolar range below pH 5. Since the inhibitor activity was lost by modification of specific Lys residues, including Lys110, an electrostatic interaction between these Lys residues and Asp/Glu residues of pepsin A or cathepsin E was thought to be essential for the inhibition.
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PMID:Molecular cloning, expression and characterization of an Ascaris inhibitor for pepsin and cathepsin E. 965 82


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