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)

Laboratory dogs were vaccinated subcutaneously with 3 different recombinant fusion proteins, each precipitated with alum or calcium phosphate. The vaccinated dogs were then challenged orally with 400 third-stage infective larvae (L3) of the canine hookworm, Ancylostoma caninum. The 3 A. caninum antigens selected were Ac-TMP, an adult-specific secreted tissue inhibitor of metalloproteases; Ac-AP, an adult-specific secreted factor Xa serine protease inhibitor anticoagulant; and Ac-ARR-1, a cathepsin D-like aspartic protease. Each of the 3 groups comprised 6 male beagles (8 +/- 1 wk of age). A fourth group comprised control dogs injected with alum. All of the dogs vaccinated with Ac-TMP or Ac-APR-1 exhibited a vigorous antigen-specific antibody response, whereas only a single dog vaccinated with Ac-AP developed an antibody response. Dogs with circulating antibody responses exhibited 4.5-18% reduction in the numbers of adult hookworms recovered from the small intestines at necropsy, relative to alum-injected dogs. In contrast, there was a concomitant increase in the number of adult hookworms recovered from the colon. The increase in colonic hookworms was as high as 500%, relative to alum-injected dogs. Female adult hookworms were more likely to migrate into the colon than were males. Anti-enzyme and anti-enzyme inhibitor antibodies correlated with an alteration in adult hookworm habitat selection in the canine gastroinntestinal tract.
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PMID:Effect of vaccinations with recombinant fusion proteins on Ancylostoma caninum habitat selection in the canine intestine. 1219 14

In LAMP-2-deficient mice autophagic vacuoles accumulate in many tissues, including liver, pancreas, muscle, and heart. Here we extend the phenotype analysis using cultured hepatocytes. In LAMP-2-deficient hepatocytes the half-life of both early and late autophagic vacuoles was prolonged as evaluated by quantitative electron microscopy. However, an endocytic tracer reached the autophagic vacuoles, indicating delivery of endo/lysosomal constituents to autophagic vacuoles. Enzyme activity measurements showed that the trafficking of some lysosomal enzymes to lysosomes was impaired. Immunoprecipitation of metabolically labeled cathepsin D indicated reduced intracellular retention and processing in the knockout cells. The steady-state level of 300-kDa mannose 6-phosphate receptor was slightly lower in LAMP-2-deficient hepatocytes, whereas that of 46-kDa mannose 6-phosphate receptor was decreased to 30% of controls due to a shorter half-life. Less receptor was found in the Golgi region and in vesicles and tubules surrounding multivesicular endosomes, suggesting impaired recycling from endosomes to the Golgi. More receptor was found in autophagic vacuoles, which may explain its shorter half-life. Our data indicate that in hepatocytes LAMP-2 deficiency either directly or indirectly leads to impaired recycling of 46-kDa mannose 6-phosphate receptors and partial mistargeting of a subset of lysosomal enzymes. Autophagic vacuoles may accumulate due to impaired capacity for lysosomal degradation.
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PMID:Role of LAMP-2 in lysosome biogenesis and autophagy. 1222 Nov 39

The transfer of macrophage-secreted arylsulphatase A (ASA) to enzyme-deficient brain cells is part of the therapeutic concept of bone marrow transplantation in lysosomal storage diseases. Here we have investigated this transfer in vitro. The uptake of (125)I-labelled recombinant human ASA purified from ASA-overexpressing mouse embryonic fibroblasts deficient for mannose 6-phosphate (M6P) receptors in a mouse ASA-deficient astroglial cell line was completely inhibited by M6P. In contrast, when ASA-deficient astroglial cells were incubated with secretions of [(35)S]methionine-labelled human macrophages or mouse microglia, containing various lysosomal enzymes, neither ASA nor cathepsin D (CTSD) were detected in acceptor cells. Co-culturing of metabolically labelled macrophages with ASA-deficient glial cells did not result in an M6P-dependent transfer of ASA or CTSD between these two cell types. In secretions of [(33)P]phosphate-labelled macrophages no or weakly phosphorylated ASA and CTSD precursor polypeptides were found, whereas both intracellular and secreted ASA from ASA-overexpressing baby hamster kidney cells displayed (33)P-labelled M6P residues. Finally, the uptake of CTSD from secretions of [(35)S]methionine-labelled macrophages in rat hepatocytes was M6P-independent. These data indicated that lysosomal enzymes secreted by human macrophages or a mouse microglial cell line cannot be endocytosed by brain cells due to the failure to equip newly synthesized lysosomal enzymes with the M6P recognition marker efficiently. The data suggest that other mechanisms than the proposed M6P-dependent secretion/recapture of lysosomal enzymes might be responsible for therapeutic effects of bone marrow transplantation in the brain.
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PMID:Secretion of phosphomannosyl-deficient arylsulphatase A and cathepsin D from isolated human macrophages. 1229 71

EpsinR is a clathrin-coated vesicle (CCV) enriched 70-kD protein that binds to phosphatidylinositol-4-phosphate, clathrin, and the gamma appendage domain of the adaptor protein complex 1 (AP1). In cells, its distribution overlaps with the perinuclear pool of clathrin and AP1 adaptors. Overexpression disrupts the CCV-dependent trafficking of cathepsin D from the trans-Golgi network to lysosomes and the incorporation of mannose-6-phosphate receptors into CCVs. These biochemical and cell biological data point to a role for epsinR in AP1/clathrin budding events in the cell, just as epsin1 is involved in the budding of AP2 CCVs. Furthermore, we show that two gamma appendage domains can simultaneously bind to epsinR with affinities of 0.7 and 45 microM, respectively. Thus, potentially, two AP1 complexes can bind to one epsinR. This high affinity binding allowed us to identify a consensus binding motif of the form DFxDF, which we also find in gamma-synergin and use to predict that an uncharacterized EF-hand-containing protein will be a new gamma binding partner.
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PMID:EpsinR: an AP1/clathrin interacting protein involved in vesicle trafficking. 1253 41

The effects of grepafloxacin on the release of cytokines, chemical mediators, hydrolytic enzyme activities, and lipoxygenation in zymogen A- or Staphylococcus aureus-stimulated human THP-1 monocytes were evaluated. Initially, consistent with stimulation of phagocytic mechanisms of the monocytes, increases in cyclic adenosine monophosphate (cAMP) release, nitric oxide [NO] release, and hydrogen peroxide [H(2)O(2)] release, with a small decrease in cellular pH, occurred within 2 h. Enzymatic activities associated with oxygen burst of phagocytic cells (e.g., protein kinase C and nicotinamide adenine dinucleotide phosphate, reduced (NADPH) oxidase) were elevated, suggesting that monocytes attempted to destroy the invading organism through an innate phagocytic cidal immunologic mechanism. After 1-2 h of exposure to grepafloxacin, the oxygen burst and the release of proinflammatory cytokines and chemical mediators were suppressed. After 4 h, suppression of n-acetyl glucosaminidase (NAG) and cathepsin D activities and lipid peroxidation occurred, suppressing the pathogen-induced spread of infection and inflammation. Release of tumor necrosis factor (TNFalpha), interleukin (IL)-1, IL-6, and IL-8 was inhibited by grepafloxacin in a concentration-dependent manner, suggesting a reduction in the acute-phase inflammatory responses initiated by cytokine release from monocytes. Later, S. aureus were killed through inhibition of DNA synthesis, consistent with a bacteriostatic effect. Drug action against invading organisms appears to occur through multiple processes. Modulation of the innate immune system occurs within the first hour, causing the activation of cytokines, chemical mediators, and hydrolytic enzymes. A second phase between 2-4 h appears to involve the suppression of cellular components involved in inflammation and the spread of the infection. The third response, an apparent bacteriostatic inhibition of DNA synthesis, causes bacterial death.
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PMID:In-vitro anti-inflammatory and immunomodulatory effects of grepafloxacin in zymogen A- or Staphylococcus aureus-stimulated human THP-1 monocytes. 1282 12

It has been reported that an accumulation of cholesterol within late endosomes/lysosomes in Niemann-Pick type C (NPC) fibroblasts and U18666A-treated cells causes impairment of retrograde trafficking of the cation-independent mannose 6-phosphate/IGF-II receptor (MPR300) from late endosomes to the trans-Golgi network (TGN). In apparent conflict with these results, here we show that as in normal fibroblasts, MPR300 localizes exclusively to the TGN in NPC fibroblasts as well as in normal fibroblasts treated with U18666A. This localization can explain why several lysosomal properties and functions, such as intracellular lysosomal enzyme activity and localization, the biosynthesis of cathepsin D, and protein degradation, are all normal in NPC fibroblasts. These results, therefore, suggest that the accumulation of cholesterol in late endosomes/lysosomes does not affect the retrieval of MPR300 from endosomes to the TGN. Furthermore, treatment of normal and NPC fibroblasts with chloroquine, which inhibits membrane traffic from early endosomes to the TGN, resulted in a redistribution of MPR300 to EEA1 and internalized transferrin-positive, but LAMP-2-negative, early-recycling endosomes. We propose that in normal and NPC fibroblasts, MPR300 is exclusively targeted from the TGN to early endosomes, from where it rapidly recycles back to the TGN without being delivered to late endosomes. This notion provides important insights into the definition of late endosomes, as well as the biogenesis of lysosomes.
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PMID:Distribution and trafficking of MPR300 is normal in cells with cholesterol accumulated in late endocytic compartments: evidence for early endosome-to-TGN trafficking of MPR300. 1286 41

Neuronal ceroid lipofuscinoses are a group of diseases characterized by accumulation of hydrophobic proteins in lysosomes of neurons and other types of cells. NCLs are caused by at least 8 mutant genes (CLN1-CLN8), though CLN4 and CLN7 have not yet been identified. Except for Cln1p, the protein encoded by CLN1, the defective proteins are associated with lysosomal accumulation of mitochondrial ATP synthase subunit c. Cln1p and Cln2p are soluble lysosomal enzymes, targeted to lysosomes in a mannose 6-phosphate dependent manner. Mutations in the lysosomal protease cathepsin D cause another NCL. Cln3p, Cln5p, Cln6p and Cln8p are thought to be transmembrane proteins. Cln3p and Cln5p are localized in the endosome-lysosomal compartment. Deficiency of endosomal membrane protein CLC-3, a member of the chloride channel family, causes NCL-like phenotype and lysosomal storage of subunit c. Herein, we review the features of NCL and NCL-related proteins and discuss the involvement of the proteins in lysosomal degradation of subunit c.
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PMID:The intracellular location and function of proteins of neuronal ceroid lipofuscinoses. 1499 40

The N-acetylglucosaminyl-1-phosphotransferase (termed phosphotransferase) catalyzes the initial step in the formation of mannose 6-phosphate (M6P) residues required for the efficient transport of soluble lysosomal enzymes. The phosphotransferase is a multisubunit enzyme composed of three subunits (alpha2beta2gamma2) that are products of two genes. The gene encoding the gamma-subunit (GNPTAG) appears to be defective in patients with mucolipidosis type III (ML III). We have analyzed the GNPTAG gene in two siblings with ML III showing elevated activities of several lysosomal enzymes in cultured fibroblasts serum and diminished activities in cultured fibroblasts. Immunoprecipitation of metabolically labeled cathepsin D (CtsD) from fibroblasts revealed that the sorting/transport of this lysosomal protease was affected. Addition of ammonium chloride inhibiting pH-dependent processes, such as the CtsD-M6P receptor interaction, indicated that 15 to 20% of the newly synthesized CtsD is transported in ML III fibroblasts in an M6P-dependent manner. By direct sequencing a novel homozygous mutation, c.347_349delACA (p.Asn116del), was identified affecting a potential N-linked glycosylation site. Western blot analysis of extracts from control fibroblasts detect a 97 kDa glycosylated dimer whereas ML III cells contain a GNPTAG dimer of reduced molecular mass. These data suggest that the loss of the used glycosylation site in the gamma subunit may affect the intracellular localization of GNPTAG and the overall efficiency of M6P formation.
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PMID:A novel mutation in UDP-N-acetylglucosamine-1-phosphotransferase gamma subunit (GNPTAG) in two siblings with mucolipidosis type III alters a used glycosylation site. 1553 26

The cDNA encoding human cystatin C (HCC) was subjected to site-specific substitution of alanine for serine at the position 37, to obtain the Asn(35)-Lys(36)-Ser(37) sequence that is a signal for asparagine-linked (N-linked) glycosylation of protein in eukaryotes, and was transformed into Pichia pastoris X33. As a result, 1.2 mg/L oligomannosyl HCC with a carbohydrate chain of Man(10)GlcNAc(2) was produced by the Pichia transformant. The oligomannosyl HCC was more stable at the low ionic strength condition of 50 mM potassium phosphate buffer, pH 7.0, than the wild-type. In addition, the oligomannosylation substantially improved the molecular stability of cystatin against an aspartic proteinase, cathepsin D, in which the susceptibility decreased to less than 50% of nonglycosylated one. The anti-rotavirus activity of HCC was substantially enhanced by the site-directed glycosylation using the yeast expression system. A MA-104 cell line was used as a host cell for human rotavirus type-2 Wa strain in this study, to which both the wild-type and oligomannosyl HCCs did not show cytotoxicity at a concentration of 100 mug/mL. More than 80% viability of the host cell infected with 1.0 x 10(5) PFU/mL of rotavirus was conserved under the condition coexisting with 75 mug/mL of the oligomannosyl HCC, which was 15.2% higher than that of wild-type HCC. Thus, the in vitro anti-rotavirus assay indicated that the supplement of a proper amount of the oligomannosyl HCC could be used as an anti-rotavirus agent.
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PMID:Enhanced anti-rotavirus action of human cystatin C by site-specific glycosylation in yeast. 1554 95

Vitellin (VT) is a lipoglycophosphoprotein stored inside the eggs of every oviparous organism during oogenesis. In the blood-sucking bug Rhodnius prolixus, VT is deposited inside growing oocytes together with two acid hydrolases: acid phosphatase (AP) and cathepsin D (CD). Egg fertilization triggers AP activity and VT proteolysis in vivo [Insect Biochem. Mol. Biol. 2002 (32) 847]. Here, we show that CD is the main protease targeting VT proteolysis during egg development. CD activity in total egg homogenates is blocked by the classical aspartyl protease inhibitor, pepstatin A. Surprisingly, AP inhibitors such as NaF, Na+/K+ tartrate, and inorganic phosphate also block VT proteolysis, whereas this effect is not observed when tyrosine phosphatase inhibitors such as vanadate and phenylarsine oxide or an inhibitor of alkaline phosphatases such as levamisole are used in a VT proteolysis assay. NaF concentrations that block isolated AP activity do not affect the activity of partially purified CD. Therefore, a specific repressor of VT proteolysis must be dephosphorylated by AP in vivo. In conclusion, these results demonstrate for the first time that acid hydrolases act cooperatively to promote yolk degradation during egg development in arthropods.
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PMID:Cathepsin D-mediated yolk protein degradation is blocked by acid phosphatase inhibitors. 1579 37


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