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)

The determinants on the cytoplasmic tail of the cation-dependent mannose 6-phosphate receptor (CD-MPR) required for lysosomal enzyme sorting have been analyzed. Mouse L cells deficient in the mannose 6-phosphate/insulin-like growth factor-II receptor were transfected with normal bovine CD-MPR cDNA or cDNAs containing mutations in the 67-amino acid cytoplasmic tail and assayed for their ability to target the lysosomal enzyme cathepsin D to lysosomes. Cells expressing the wild-type bovine CD-MPR sorted 67 +/- 2% of newly synthesized cathepsin D compared with the base-line value of 47 +/- 1%. The presence of mannose 6-phosphate in the medium did not affect the efficiency of cathepsin D sorting, indicating that the routing of the ligand-receptor complex is completely intracellular. Mutant receptors with the carboxyl-terminal His-Leu-Leu-Pro-Met67 residues deleted or replaced with alanines sorted cathepsin D below the base-line value. A mutant receptor with the outermost Pro-Met residues replaced with alanines sorted cathepsin D better than the wild-type receptor, indicating that the essential residues for sorting are the His-Leu-Leu sequence. Disruption of a putative casein kinase II phosphorylation site at Ser57 had no detectable effect on sorting. The mutant receptor with the five-amino acid deletion was able to bind to a phosphopentamannose affinity column, proving that its ligand binding site was grossly intact. Resialylation experiments showed that this mutant receptor recycled from the cell surface to the Golgi at a rate similar to the normal CD-MPR, indicating that the defect in sorting is at the level of the Golgi.
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PMID:A His-Leu-Leu sequence near the carboxyl terminus of the cytoplasmic domain of the cation-dependent mannose 6-phosphate receptor is necessary for the lysosomal enzyme sorting function. 132 23

The membrane association of the lysosomal enzymes cathepsin D and glucocerebrosidase and its naturally occurring sphingolipid activating protein was studied in HepG2 cells. We differentially permeabilized cells with low concentrations of saponin, at which secretory proteins rinsed out completely, whereas integral membrane proteins were not released. All relevant intracellular compartments were shown to be permeabilized by saponin. Metabolic labeling showed that early precursors of cathepsin D, sphingolipid activating protein, and glucocerebrosidase were completely released from the cells, whereas more than 80% of the high molecular mass intermediates were retained by the cells. Treatment of permeabilized cells with 10 mM mannose 6-phosphate released only 50% of the cell-associated cathepsin D. Glucocerebrosidase remained membrane-associated, but cathepsin D and sphingolipid activating protein were released from the cells after proteolytic processing. Sphingolipid activating proteins and cathepsin D behaved similarly during biosynthesis and showed similar sensitivity to mannose 6-phosphate. The membrane association of the intermediate form of cathepsin D was independent of the presence of N-linked oligosaccharides. Subcellular fractionation on sucrose gradients showed that the lysosomal proteins became membrane-associated probably in the Golgi complex, and that both mannose 6-phosphate-dependent and mannose 6-phosphate-independent membrane association occur in the same compartments. We conclude that, in HepG2 cells, cathepsin D, sphingolipid activating protein, and glucocerebrosidase exhibit MPR-independent membrane association which is acquired in the same compartments beyond the rough endoplasmic reticulum.
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PMID:Mannose 6-phosphate-independent membrane association of cathepsin D, glucocerebrosidase, and sphingolipid-activating protein in HepG2 cells. 184 27

Epithelial cells in situ can internalize their desmosomes. This can be induced in cell cultures after removal of calcium ions from the cell medium. To study this endocytic process, a nontumorigenic human breast epithelial cell line, HMT-3522, was used. HMT-3522 cells were grown in serum-free, chemically defined medium, containing epidermal growth factor (EGF). Removal of EGF from the medium led to growth arrest and a kind of epithelial differentiation process in which adjacent cells interdigitated and formed more desmosomes than in the proliferating state. Growth-inhibited HMT-3522 cells dissociated following EGTA treatment, the desmosomes divided in a symmetrical fashion, and the desmosomal plaques (half-desmosomes) on the cell surface became internalized. The internalization was independent of clathrin, since immunogold labeling of ultracryosections never showed clathrin on desmosomal plaque-associated membrane domains. Moreover, cytosol acidification, which selectively inhibits endocytosis from clathrin-coated pits, practically blocked the uptake of transferrin, whereas internalization of desmosomal plaques continued. In contrast, actin filaments appeared to be involved in the desmosomal internalization. Thus, depolymerization of actin filaments by cytochalasin D significantly reduced endocytosis of half-desmosomes. Immunogold labeling showed that the vesicles with desmosomal plaques were not enriched in MPR (cation-independent mannose-6-phosphate receptor), cathepsin D or the lysosome-associated membrane protein lamp-1. In addition, the morphology was different. Thus, the endocytic vesicles with desmosomal plaques represent a special compartment, distinct from typical endosomes and lysosomes.
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PMID:Endocytosis of desmosomal plaques depends on intact actin filaments and leads to a nondegradative compartment. 792 92

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

Up to 4% of the human 46-kDa mannose 6-phosphate receptor (MPR46) expressed in Madin-Darby canine kidney (MDCK) cells are localized at the cell surface. At steady state, the expression of MPR46 on the apical surface of filter-grown MDCK cells is about sixfold lower than on the basolateral surface. The cytoplasmic domain of the MPR46 is phosphorylated on serine 56 at low stoichiometry. By expressing mutant MPR46 we have shown that the MPR46 phosphorylation site is required for delivery to the plasma membrane. In addition, mutant MPR46 expressed in MPR-deficient mouse embryonic fibroblasts were not detected at the cell surface and their ability to sort newly synthesized cathepsin D was not altered. Since the loss of MPR46 phosphorylation correlates with the lack of cell surface expression, phosphorylation of serine 56 may either function as a direct plasma membrane targeting signal or inhibit MPR46 recycling from endosomes to Golgi, resulting in trafficking to the cell surface.
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PMID:Serine phosphorylation site of the 46-kDa mannose 6-phosphate receptor is required for transport to the plasma membrane in Madin-Darby canine kidney and mouse fibroblast cells. 924 38

Stable BHK cell lines inducibly expressing wild-type or dominant negative mutant forms of the rab7 GTPase were isolated and used to analyze the role of a rab7-regulated pathway in lysosome biogenesis. Expression of mutant rab7N125I protein induced a dramatic redistribution of cation-independent mannose 6-phosphate receptor (CI-MPR) from its normal perinuclear localization to large peripheral endosomes. Under these circumstances approximately 50% of the total receptor and several lysosomal hydrolases cofractionated with light membranes containing early endosome and Golgi markers. Late endosomes and lysosomes were contained exclusively in well-separated, denser gradient fractions. Newly synthesized CI-MPR and cathepsin D were shown to traverse through an early endocytic compartment, and functional rab7 was crucial for delivery to later compartments. This observation was evidenced by the fact that 2 h after synthesis, both markers were more prevalent in fractions containing light membranes. In addition, both were sensitive to HRP-DAB- mediated cross-linking of early endosomal proteins, and the late endosomal processing of cathepsin D was impaired. Using similar criteria, the lysosomal membrane glycoprotein 120 was not found accumulated in an early endocytic compartment. The data are indicative of a post-Golgi divergence in the routes followed by different lysosome-directed molecules.
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PMID:Mutant Rab7 causes the accumulation of cathepsin D and cation-independent mannose 6-phosphate receptor in an early endocytic compartment. 949 Jul 21

The two mannose 6-phosphate (Man-6-P) binding sites of the insulin-like growth factor-II/mannose 6-phosphate receptor (IGF-II/MPR) have been localized to domains 1-3 and 7-9, and studies have shown that Arg435 in domain 3 and Arg 1334 in domain 9 are essential for Man-6-P binding. To determine whether the IGF-II/MPR containing a single Man-6-P binding site is functional, clonal mouse L cell lines stably transfected with either mutant bovine IGF-II/MPR cDNA, containing substitutions at position 435 and/or 1334, or the wild type receptor cDNA were assayed for their ability to sort lysosomal enzymes to the lysosome. Mutant receptors containing a single Man-6-P binding site were approximately 50% less efficient than the wild type receptor in the overall targeting of lysosomal enzymes to the lysosome. Mutant receptors containing a substitution at Arg1334 (Dom9(Ala)), in contrast to those containing a substitution at Arg435 (Dom3(Ala)), were unable to target cathepsin D and beta-hexosaminidase to the lysosome. Equilibrium binding assays using 125I-labeled beta-glucuronidase demonstrated that Dom3(Ala) and Dom9(Ala) had a Kd of 2.0 and 4.3 nM, respectively. In addition, Dom3(Ala), unlike Dom9(Ala), was unable to completely dissociate from ligand under acidic pH conditions. These data indicate that the two Man-6-P binding sites of the IGF-II/MPR are not functionally equivalent.
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PMID:The two mannose 6-phosphate binding sites of the insulin-like growth factor-II/mannose 6-phosphate receptor display different ligand binding properties. 971 56

PC12 cells express well cation-independent mannose 6-phosphate receptors (CI-MPR), but not cation-dependent (CD)-MPR as much. To examine CD-MPR dependency of transport of cathepsins B and D to lysosomes in PC12 cells, we prepared the cells overexpressing CD-MPR. Immunoreactivity for cathepsin B became more distinct and larger in size in the transfected cells than in wild-type cells. No difference in the distribution of cathepsin D was seen between these two cells. The viability of the cells following serum deprivation was significantly higher in the transfected cells than in wild-type cells. This increased viability of the transfected cells was blocked by CA074, a specific inhibitor of cathepsin B, while pepstatin A suppressed the action of CA074. The results suggest that CD-MPR preferentially transport cathepsin B in PC12 cells, and cathepsins B and D participate in the regulation of PC12 cell apoptosis.
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PMID:Overexpression of cation-dependent mannose 6-phosphate receptor prevents cell death induced by serum deprivation in PC12 cells. 979 Sep 31

Viable mice nullizygous in genes encoding the 300 kDa and the 46 kDa mannose 6-phosphate receptors (MPR 300 and MPR 46) and the insulin like growth factor II (IGF II) were generated to study the trafficking of lysosomal enzymes in the absence of MPRs. The mice have an I-cell disease-like phenotype, with increase of lysosomal enzymes in serum and normal activities in tissues. Surprisingly, the ability of MPR-deficient cells to transport newly synthesized lysosomal enzymes to lysosomes and the underlying mechanisms were found to depend on the cell type. MPR-deficient thymocytes target newly synthesized cathepsin D to lysosomes via an intracellular route. In contrast, hepatocytes and fibroblasts secrete newly synthesized cathepsin D. In fibroblasts recapture of secreted lysosomal enzymes, including that of cathepsin D, is limited and results in lysosomal storage, both in vivo and in vitro, whereas recapture by hepatocytes is remarkably effective in vivo and can result in lysosomal enzyme levels even above normal.
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PMID:Alternative mechanisms for trafficking of lysosomal enzymes in mannose 6-phosphate receptor-deficient mice are cell type-specific. 1021 52

Chinese hamster ovary (CHO) cell mutants defective in the disintegration of endocytosed low-density lipoprotein (LDL) were isolated from mutagenized cells by repeated flow-cytometric cell sorting. After seven rounds of cell sorting, we obtained mutant pools, from which nine mutant clones were established. These mutant strains were all recessive, and were categorized into three complementation groups A, B, and C. The previously established CHO mutant, LEX1 (Lysosome-Endosome X1), fell into the complementation group A. One of the newly isolated mutants, LEX2, fell into the complementation group B, and showed slower degradation of RET-LDL than LEX1 cells. LEX2 showed prominence of well-elaborated multivesicular bodies (MVBs), positive for lysosomal glycoprotein-B/cathepsin D and cation-independent mannose 6-phosphate receptor (CI-MPR), yet negative for transferrin receptor or rab7. Endocytosed intact LDL accumulated in these CI-MPR-positive structures starting at 10-15 minutes of internalization and the accumulation reached completion at 20 minutes. Intermixing of separately internalized fluorescent LDLs between the LEX2 MVBs was slow and saturable at a lower level than observed between late endosomes/lysosomes in wild-type or in LEX1 cells. The receptor recycling pathway to the plasma membrane and the acidification of intracellular compartments were normal in LEX2 cells. These results are consistent with the idea that LEX2 cells are defective in the segregation and sequestration of contents at compartments equivalent to the transport intermediates, previously referred to as endosomal carrier vesicles or maturing MVBs. This MVB stage is likely to be an earlier stage than rab7-positive, lysosome-interacting late endosomes observed in LEX1 cells. Thus, LEX1 and LEX2 mutations could be considered as landmarks for these distinct late endocytic stages, and use of these cells in biochemical and molecular genetic analyses would help to understand the as yet unidentified details of late endocytic pathways including the MVB dynamics.
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PMID:Arrested maturing multivesicular endosomes observed in a Chinese hamster ovary cell mutant, LEX2, isolated by repeated flow-cytometric cell sorting. 1082 92


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