Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Lysosomal enzymes can, under certain circumstances, be secreted in large amounts. One example is uteroferrin (Uf), an iron-containing, purple-colored acid phosphatase secreted by the uterus of the pig during pregnancy. Uf is identical to the intracellular tartrate-resistant acid phosphatase of pig spleen, yet is the major protein component of uterine secretions. To investigate possible regulatory mechanisms that might direct Uf along a secretory pathway, we expressed Uf in Chinese hamster ovary (CHO) cells under the control of the SV40 early promoter using an expression construct, pX/Uf. The proportion of Uf secreted into the medium relative to the amount retained intracellularly increased as total Uf expression was increased. At transfection doses of 15 micrograms pX/Uf per 10(6) cells, over 80% of the Uf produced in 48 h was secreted. A parallel situation was observed when human cathepsin D was overexpressed in CHO cells. Thus, high production of Uf, as occurs in the uterus in response to progesterone, may overwhelm the intracellular enzymatic and receptor systems that are normally employed to target acid hydrolases to lysosomes, resulting in secretion. Both Uf and cathepsin D secreted by CHO cells possess N-linked, phosphorylated high-mannose oligosaccharide chains. However, the phosphate groups on the oligosaccharide chains of Uf, unlike those on cathepsin D, cannot be readily removed by alkaline phosphatase treatment. These results suggest that the phosphate groups on Uf are masked at least partially by covering N-acetylglucosamine residues and that two mechanisms may contribute to hypersecretion of Uf in the uterus: 1) very high rates of synthesis and 2) partial masking of the mannose 6-phosphate recognition signal.
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PMID:Overexpression of uteroferrin, a lysosomal acid phosphatase found in porcine uterine secretions, results in its high rate of secretion from transfected fibroblasts. 828 14

The human 46-kDa mannose 6-phosphate receptor (MPR46) is phosphorylated in its cytoplasmic domain at serine residues. Substitution of cytoplasmic serines (at positions 35 and 56) with alanine, expression of mutant receptors in baby hamster kidney cells, and phosphopeptide mapping revealed that serine 56 is phosphorylated. Mutant MPR46 and wild-type MPR46 were found to be similarly distributed between the cell surface and intracellular membranes. Phosphate incorporation in the presence of cycloheximide indicates that phosphorylation occurred on pre-existing MPR46. Similar half-lives for the wild-type and mutant receptor proteins (approximately 43 h) and the receptor-associated phosphate (1.4 h) were found. The mutant receptors were internalized at the same rate as the wild-type receptors. Expression of mutant MPR46 and wild-type MPR46 in mouse L-cells deficient in 300-kDa mannose 6-phosphate receptors did not affect the sorting of newly synthesized cathepsin D to lysosomes. Phosphorylation of cytoplasmic serine 56 is therefore essential neither for stability nor for cell-surface expression and transport activities of MPR46.
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PMID:Phosphorylation of the human 46-kDa mannose 6-phosphate receptor in the cytoplasmic domain at serine 56. 834

Chinese hamster ovary cells transfected with human lysozyme cDNA encoding Asn instead of Gly22 synthesize a mutant lysozyme, [Asn22]lysozyme, with about 60% of the molecules bearing carbohydrate. This carbohydrate is predominantly of the complex type and contains a varied number of lactosamine repeats. In this study we show that the glycosylation of [Asn22] lysozyme fused to human cathepsin D is altered relative to [Asn22]lysozyme alone. The fusion protein is synthesized as a 66-kDa precursor that is cleaved to enzymatically active and antigenically positive cathepsin D and lysozyme. As compared with [Asn22]lysozyme the lysozyme moiety of the fusion protein shows an increased N-glycosylation and a decreased synthesis of lactosamine repeats. Cleavage of the precursor with cathepsin L has revealed that the lysozyme portion of the secreted fusion protein bears a complex type carbohydrate. The intracellularly released lysozyme portion of the fusion protein contains trimmed oligosaccharides. In the presence of NH4Cl the lysosomal targeting of the fusion protein is inhibited. The secreted protein is then enriched in molecules bearing phosphorylated high mannose oligosaccharides in their lysozyme moiety. Our results indicate that carbohydrate processing in [Asn22]lysozyme, including the synthesis of mannose 6-phosphate residues and of lactosamine repeats, is altered by the attached cathepsin D. The phosphorylation of the carbohydrate on the lysozyme portion results in a very efficient lysosomal targeting of the concerned fusion protein molecules.
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PMID:Synthesis of phosphorylated oligosaccharides in lysozyme is enhanced by fusion to cathepsin D. 836 10

B lymphocytes from patients with I-cell disease (ICD) maintain normal cellular levels of lysosomal enzymes despite a deficiency of the enzyme UDP-N-acetylglucosamine: lysosomal enzyme N-acetylglucosamine-1-phosphotransferase. We find that an ICD B lymphoblastoid cell line targets about 45% of the lysosomal protease cathepsin D to dense lysosomes. This targeting occurs in the absence of detectable mannose 6-phosphate residues on the cathepsin D and is not observed in ICD fibroblasts. The secretory protein pepsinogen, which is closely related to cathepsin D in both amino acid sequence and three-dimensional structure, is mostly excluded from dense lysosomes, indicating that the lymphoblast targeting pathway is specific. Carbohydrate residues are not required for lysosomal targeting, since a non-glycosylated mutant cathepsin D is sorted with comparable efficiency to the wild type protein. Analysis of a number of cathepsin D/pepsinogen chimeric proteins indicates that an extensive polypeptide determinant in the cathepsin D carboxyl lobe can confer efficient lysosomal sorting when introduced into the pepsinogen sequence. This determinant overlaps but is not identical to the recognition marker for phosphotransferase. These results indicate that a specific protein recognition event underlies Man-6-P-independent lysosomal sorting in ICD lymphoblasts.
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PMID:Mannose 6-phosphate-independent targeting of lysosomal enzymes in I-cell disease B lymphoblasts. 840 10

The transport of proteins from the secretory to the endocytic pathway is mediated by carrier vesicles coated with the AP-1 Golgi assembly proteins and clathrin. The mannose 6-phosphate receptors (MPHs) are two major transmembrane proteins segregated into these transport vesicles. Together with the GTPase ARF-1, these cargo proteins are essential components for the efficient translocation of the cytosolic AP-1 onto membranes of the trans-Golgi network, the first step of clathrin coat assembly, MPR-negative fibroblasts have a low capacity of recruiting AP-1 which can be restored by re-expressing the MPRs in these cells. This property was used to identify the protein motif of the cation-dependent mannose 6-phosphate receptor (CD-MPR) cytoplasmic domain that is essential for these interactions. Thus, the affinity of AP-1 for membranes and in vivo transport of cathepsin D were measured for MPR-negative cells re-expressing various CD-MPR mutants. The results indicate that the targeting of lysosomal enzymes requires the CD-PDR cytoplasmic domain that are different from tyrosine-based endocytosis motifs. The first is a casein kinase II phosphorylation site (ESEER) that is essential for high affinity binding of AP-1 and therefore probably acts as a dominant determinant controlling CD-MPR sorting in the trans-Golgi network. The second is the adjacent di-leucine motif (HLLPM), which, by itself, is not critical for AP-1 binding, but is absolutely required for a downstream sorting event.
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PMID:A casein kinase II phosphorylation site in the cytoplasmic domain of the cation-dependent mannose 6-phosphate receptor determines the high affinity interaction of the AP-1 Golgi assembly proteins with membranes. 856 75

In many mammalian cells, the transport of newly synthesized or externally added lysosomal enzymes to lysosomes is depend on their specific recognition by receptors for mannose 6-phosphate (Man-6-P). The physiological importance of this pathway was confirmed by the finding that fibroblasts from patients with mucolipidosis type II (ML-II ; I - cell disease) fail to phosphorylate mannose residues on their newly synthesized lysosomal enzymes, which results in the secretion of a large percentage of their acid hydrolases into the culture medium. However, lysosomal enzymes themselves do not contain the any consensus amino acid sequences for acquiring the Man-6-P recognition marker. Kornfeld et al revealed using cathepsin D-pepsinogen chimera proteins that UDP-N-acetylglucosamine: lysosomal enzyme N-acetylglucosamine-1-phosphotransferase recognizes not only oligosaccharides but also the three-dimensional structure of the lysosomal enzymes when transfers N-acetylglucosamine-1-phosphate to lysosomal acid hydrolases.
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PMID:[Lysosomal hydrolases have specific conformational domains for acquisition of mannose-6-phosphate]. 857 31

The membrane-association of early biosynthetic form of cathepsin D has been demonstrated in hepatoma cells, and this membrane-association is not mediated by mannose 6-phosphate residues, implying that a mannose 6-phosphate receptor-independent mechanism operates in the sorting of cathepsin D. In this paper, to demonstrate whether cathepsin D is associated with the lysosomal membranes, an in vitro binding experiment was carried out employing lysosomal cathepsin D or microsomal procathepsin D isolated from rat liver. Immunoblotting analysis revealed that an intermediate form of cathepsin D was associated with the lysosomal membranes; this lysosomal membrane-associated cathepsin D was released from the membranes by washing with Na2CO3 (pH 10.6) but not with solutions containing mannose 6-phosphate. This suggested that cathepsin D associates with the membranes by ionic-interaction, and that the membrane-associated cathepsin D resides as a peripheral membrane protein in the lysosomal membrane fraction. To confirm that the intermediate form of cathepsin D specifically interacts with the lysosomal integral membrane proteins, the lysosomal membrane fraction was treated with trypsin and the binding experiment was conducted. The result showed that the binding capacity of cathepsin D to the lysosomal membranes was apparently abolished and cathepsin D did not rebind to the membranes. These data suggest that the intermediate form of cathepsin D is preferentially recognized by the lysosomal membranous protein which complements the mannose 6-phosphate receptor-dependent intracellular sorting mechanism.
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PMID:Cathepsin D associates with lysosomal membranous protein. 859 33

We studied the biogenesis of the acrosome in sperm cells in immunogold-labeled ultrathin cryosections of rat testis, using a variety of antibodies against endosomal/lysosomal marker protein and acrosin, the major secretory protein of sperm cells. As expected, acrosomes and proacrosomal vesicles in the trans-Golgi region contained abundant acrosin. Rat lysosomal membrane glycoprotein (lgp) 120 and mouse lysosome-associated membrane protein-1 were not detectable in the acrosomal membrane. Similarly, the late endosomal markers cation-dependent and -independent mannose 6-phosphate receptors were absent from the acrosome and proacrosomal vesicles. Therefore, acrosomes do not exhibit these endosomal/lysosomal features. Apart from (pro) acrosomal vesicles, both spermatocytes and spermatids contained classical lysosomes (positive for rat lgp 120, mouse lysosome-associated membrane protein-1, and cathepsin D) that were negative for acrosin. Quantitative analysis of the immunogold labeling showed that spermatocytes express more mannose 6-phosphate receptors and lgp 120 than spermatids, whereas the opposite situation existed for acrosin. These data indicate differential synthetic activity of lysosomal and acrosomal constituents in different states of sperm differentiation. Together, our observations argue against a lysosomal /endosomal origin of the acrosome.
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PMID:Evidence for a nonlysosomal origin of the acrosome. 860 90

The localization and intracellular transport of major histocompatibility complex (MHC) class II molecules nd lysosomal hydrolases were studied in I-Cell Disease (ICD) B lymphoblasts, which possess a mannose 6-phosphate (Man-6-P)-independent targeting pathway for lysosomal enzymes. In the trans-Golgi network (TGN), MHC class II-invariant chain complexes colocalized with the lysosomal hydrolase cathepsin D in buds and vesicles that lacked markers of clathrin-coated vesicle-mediated transport. These vesicles fused with the endocytic pathway leading to the formation of "early" MHC class II-rich compartments (MIICs). Similar structures were observed in the TGN of normal beta lymphoblasts although they were less abundant. Metabolic labeling and subcellular fractionation experiments indicated that newly synthesized cathepsin D and MHC class II-invariant chain complexes enter a non-clathrin-coated vesicular structure after their passage through the TGN and segregation from the secretory pathway. These vesicles were also devoid of the cation-dependent mannose 6-phosphate (Man-6-P) receptor, a marker of early and late endosomes. These findings suggest that in ICD B lymphoblasts the majority of MHC class II molecules are transported directly from the TGN to "early" MIICs and that acid hydrolases cam be incorporated into MIICs simultaneously by a Man-6-P-independant process.
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PMID:The biogenesis of the MHC class II compartment in human I-cell disease B lymphoblasts. 860 11

A previous observation that insulin-like growth factor II (IGF-II) inhibits the cellular uptake of a lysosomal enzyme by inhibiting binding to the IGF-II/mannose 6-phosphate receptor led to the proposal that, in a cell producing IGF-II, the routing of lysosomal enzymes might be altered. To test this hypothesis MCF-7 breast cancer cells were transfected with pRc/CMV vector only (CMV) or vector containing IGF-II complementary DNA encoding either mature (M-II) or precursor (P-II) IGF-II, and the routing of cathepsin D, a predominant lysosomal enzyme in this cell line, was examined. The concentration of IGF-II in media conditioned by P-II clones (11.2 +/- 4.3 micrograms/ml) was much higher than in media conditioned by M-II clones (1.3 +/- 1.5 micrograms/ml). Metabolic labeling experiments were performed with 10 mM mannose 6-phosphate present in the medium to block reuptake of lysosomal enzymes. Cell extracts (C) and media (M) were immuno-precipitated with a cathepsin D antiserum, and immunoprecipitates were analyzed by SDS-PAGE. The mean of the C/M ratio of cathepsin D for the seven P-II clones (1.60 +/- 0.13) was significantly lower than for the six CMV clones (3.47 +/- 0.48). Similar results were obtained when conditioned M and C were examined by immunoblotting after a 48-h incubation. The mean of the C/M ratio for the seven P-II clones (11.4 +/- 1.6) was significantly lower than for the six CMV clones (24.9 +/- 5.2). There was also a strong negative correlation between the ratio of intracellular cathepsin D to extracellular cathepsin D and relative cathepsin D synthesis (r = 0.843), consistent with increased cathepsin D production in cells overexpressing IGF-II. It is concluded that endogenous IGF-II modulates the routing of cathepsin D in MCF-7 cells.
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PMID:Insulin-like growth factor II modulates the routing of cathepsin D in MCF-7 breast cancer cells. 861 24


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