EC:3.4.23.5 - FACTA Search

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 functioning of the endocytic pathway is influenced by a distinct set of rab GTPases, including rab5a, which regulates homotypic fusion of early endosomes. Expression of a dominant active, GTPase-defective rab5a accelerates endosome fusion, causing the formation of a greatly enlarged endocytic compartment. Here we present evidence that rab5a also regulates trafficking between endosomes and lysosomes and may play a role in lysosome biogenesis. The GTPase defective rab5aQ79L mutant was inducibly expressed as an EGFP fusion in HEK293 cells, and the distribution of lysosome proteins and endocytic markers then assessed by deconvolution fluorescence microscopy. During expression of EGFP-rab5aQ79L, the lysosome proteins LAMP-1, LAMP-2 and cathepsin D were found in dilated EGFP-rab5aQ79L-positive vesicles, which also rapidly labeled with transferrin Texas Red. Exogenous tracers that normally traffic to lysosomes after prolonged chase (dextran Texas Red and DiI-LDL) also accumulated in these vesicles. Dextran Texas Red preloaded into lysosomes localized with subsequently expressed EGFP-rab5a Q79L, suggesting the existence of lysosome to endosome traffic. Cells expressing EGFP-rab5a wt or the dominant negative EGFP-rab5aS34N did not exhibit these abnormalities. Despite the dramatic alterations in lysosome protein distribution caused by expression of EGFP-rab5a Q79L, there was little change in the endocytosis or recycling of a cell-surface receptor (beta2-adrenergic receptor). However, there was a deficiency of dense beta-hexosaminidase-containing lysosomes in cells expressing EGFP-rab5aQ79L, as assessed by Percoll gradient fractionation. These results suggest that expression of a GTPase-defective rab5a affects lysosome biogenesis by alteration of traffic between lysosomes and endosomes.
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PMID:Lysosome proteins are redistributed during expression of a GTP-hydrolysis-defective rab5a. 1179 15

Nramp2 (DMT1) is a pH-dependent divalent cation transporter that acts as the transferrin-independent iron uptake system at the intestinal brush border and also transports iron released from transferrin across the membrane of acidified endosomes. In this study, RAW264.7 macrophages and 2 independently derived murine Sertoli cells lines, TM4 and 15P-1, were used to further study the subcellular localization of Nramp2/DMT1 in phagocytic cells, including possible recruitment to the phagosomal membrane. Nramp2/DMT1 was localized primarily to the EEA1-positive recycling endosome compartment, with some overlapping staining with Lamp1-positive late endosomes. After phagocytosis, immunofluorescence analysis and in vitro biochemical studies using purified latex bead-containing phagosomes indicated Nramp2/DMT1 recruitment to the membrane of Lamp1, cathepsin D, and rab7-positive phagosomes. Nramp2/DMT1 was also found associated with erythrocyte-containing phagosomes in RAW macrophages and with the periphery of sperm-containing phagosomes in Sertoli cells. These results suggest that, as for the macrophage-specific Nramp1 protein, Nramp2/DMT1 may transport divalent metals from the phagosomal space.
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PMID:Iron transporter Nramp2/DMT-1 is associated with the membrane of phagosomes in macrophages and Sertoli cells. 1223 76

Small GTPase Rho and its downstream effectors, ROCK family of Rho-associated serine-threonine kinases, are thought to participate in cell morphology, motility, and tumor progression through regulating the rearrangement of actin cytoskeleton. Here we present evidence that transfection of human breast cancer cells with cDNA encoding a dominant active mutant of ROCK causes dispersal of lysosomal vesicles throughout the cytoplasm without perturbing the machinery of the endocytic pathway. The intracellular distribution of lysosomes and endocytosed transferrin, an early endosomal marker, were further assessed by confocal immunofluorescence microscopy. In the active ROCK transfected cells the lysosomal proteins, cathepsin D, LIMPII, and LAMP1, were found throughout the cytoplasm in dispersed small vesicles, which were accessible to the endocytosed Texas Red-labeled transferrin. 3D-image analysis of lysosomal distribution in the active ROCK transfectants revealed abundant punctate signals in the peripheral region of the basal plasma membrane. Cells expressing vector alone did not exhibit these alterations. Wortmannin, a phosphatidylinositol 3-kinase inhibitor, induced LIMPII-positive/ transferrin negative large vacuoles in the perinuclear region, and disappearence of the dispersed small vesicular structures. To our knowledge, this is the first evidence that increasing ROCK expression contributes to selective cellular dispersion of lysosomes in invasive breast cancer cells.
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PMID:Overexpression of ROCK in human breast cancer cells: evidence that ROCK activity mediates intracellular membrane traffic of lysosomes. 1285 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

We show that insulin-dependent signals regulate azurophil granule-selective macroautophagy in human myeloid cells. Depletion of insulin from an insulin-transferrin-supplemented serum-free medium caused growth retardation of myeloblastic HL-60 cells, in which sequestration of electronic-dense cytoplasmic materials by autophagosomes was observed. Positive immunoreactivity with anti-CD68, anti-cathepsin D, and anti-myeloperoxidase antibodies indicated that the sequestrated materials were azurophil granules, the granulocyte/macrophage lineage-specific lysosome-like particles. By contrast, other organelles, including the mitochondria, endoplasmic reticulum, and Golgi apparatus remained intact, indicating that the macroautophagy selectively targeted azurophil granules. The addition of insulin induced rapid activations of p70S6K and Akt, and the cells were rescued from macroautophagy. Rapamycin, an inhibitor of mammalian target of rapamycin, did not block the insulin-mediated rescue from macroautophagy, although it nullified the activation of p70S6K and cell growth. Low doses of LY294002, a phosphatidyl-inositol-3-kinase inhibitor, which abolished cell growth and p70S6K activity but did not influence Akt activity, did not block the insulin-mediated rescue either. By contrast, low doses of Akt-specific inhibitors, which inhibited neither cell growth nor p70S6K activity, completely blocked the insulin-mediated rescue from macroautophagy. Thus, insulin-dependent signals are responsible for the control of azurophil granule-selective macroautophagy via Akt-dependent pathways, while p70S6K-dependent pathways promote cell growth.
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PMID:Insulin-dependent signaling regulates azurophil granule-selective macroautophagy in human myeloblastic cells. 1296 Feb 28

Polyglutamine expansion in the N terminus of huntingtin (htt) causes selective neuronal dysfunction and cell death by unknown mechanisms. Truncated htt expressed in vitro produced htt immunoreactive cytoplasmic bodies (htt bodies). The fibrillar core of the mutant htt body resisted protease treatment and contained cathepsin D, ubiquitin, and heat shock protein (HSP) 40. The shell of the htt body was composed of globules 14-34 nm in diameter and was protease sensitive. HSP70, proteasome, dynamin, and the htt binding partners htt interacting protein 1 (HIP1), SH3-containing Grb2-like protein (SH3GL3), and 14.7K-interacting protein were reduced in their normal location and redistributed to the shell. Removal of a series of prolines adjacent to the polyglutamine region in htt blocked formation of the shell of the htt body and redistribution of dynamin, HIP1, SH3GL3, and proteasome to it. Internalization of transferrin was impaired in cells that formed htt bodies. In cortical neurons of Huntington's disease patients with early stage pathology, dynamin immunoreactivity accumulated in cytoplasmic bodies. Results suggest that accumulation of a nonfibrillar form of mutant htt in the cytoplasm contributes to neuronal dysfunction by sequestering proteins involved in vesicle trafficking.
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PMID:Huntingtin bodies sequester vesicle-associated proteins by a polyproline-dependent interaction. 1471 59

Aquaporin-2 (AQP2) is one of the water-channel proteins expressed in principal cells of kidney collecting ducts, where it is stored in the intracellular compartment. Previous studies have demonstrated that AQP2 vesicles constitute a distinct intracellular compartment partially overlapping with early endosomes. In this report, we performed in vitro experiments using the renal epithelial cell line, Madin-Darby canine kidney (MDCK) cells, stably expressing AQP2 (MDCK-hAQP2). In nonpolarized cells, AQP2 vesicles were scattered in the cytoplasm and did not colocalize with Golgi 58K or TGN38. Small portions of AQP2 vesicles were positive for the lysosome marker cathepsin D. An early endosome antigen (EEA1) localized around AQP2 vesicles in close proximity, suggesting involvement of the endosomal system in the trafficking of AQP2. AQP2 vesicles are distinct from other recycling molecules, such as glucose transporter 4 (GLUT4) and endocytosed transferrin. In polarized MDCK-hAQP2 cells, AQP2 vesicles were localized in the subapical recycling compartment and distinct from the Golgi apparatus, trans-Golgi network, lysosome, and early endosome in the nonstimulated state. When the cells were treated with forskolin, translocation of AQP2 to the apical membrane was observed. Washout of forskolin induced retrieval of AQP2 into the cytoplasm, and AQP2 was transiently colocalized with EEA1-positive endosomes. Then, AQP2 moved from EEA1-positive endosomes to the subapical AQP2-storage compartment, which is sensitive to wortmannin and LY294002. These results suggest that AQP2 resides in a recycling compartment at the apical side in polarized MDCK-hAQP2 cells, and its retrieval uses the apical endosomal system and the phosphatidylinositol 3-kinase-dependent pathway.
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PMID:Aquaporin-2 is retrieved to the apical storage compartment via early endosomes and phosphatidylinositol 3-kinase-dependent pathway. 1515 71

It has been shown that the treatment with 3beta-[2-(diethylamino)ethoxy] androst-5-en-17-one (U18666A) causes the accumulation of cholesterol and the cation-independent mannose 6-phosphate receptor (CIMPR) in late endosomal/lysosomal compartments in BHK cells. The present study reports on a study of the effect of U18666A on CIMPR distribution in more detail in HeLa cells. When cells were treated with U18666A for 20 h, the intense perinuclear signal for CIMPR corresponding to the trans-Golgi network (TGN) disappeared and lamp1-negative punctate signals, scattered in the perinuclear region were detected. CIMPR then began to accumulate in lamp1-positive compartments 48 h after addition of the drug. Double immunofluorescence microscopy showed that U18666A-induced mannose 6-phosphate receptor-containing compartments (U-MPRCs), which were formed in the early phase of the redistribution, contained no marker for the TGN, late endosomes or lysosomes. Approximately half of the structures contained transferrin that had been internalized for 20 min, and cathepsin D, the majority of which appeared to be its precursor form. Immunoelectron-microscopic analysis revealed that U-MPRCs are composed of multivesicular bodies, irregularly shaped structures, and vesicular structures adjacent to the multivesicular bodies. These results suggest that U18666A treatment primarily suppresses the CIMPR transport pathways to late endosomes and from transferrin-containing endosomes, both of which may be dependent on cholesterol function.
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PMID:Early-phase redistribution of the cation-independent mannose 6-phosphate receptor by U18666A treatment in HeLa cells. 1532 7

LIM kinase (LIMK) plays a critical role in stimulus-induced remodeling of the actin cytoskeleton by linking signals from the Rho family GTPases to changes in cofilin activity. Recent studies have shown an important role for LIMK1 signaling in tumor cell invasion through regulating actin dynamics. In this study, we investigate the role of LIMK1 in intracellular vesicle trafficking of lysosomes/endosomes. We analyzed by confocal immunofluorescence microscopy the cellular distribution of lysosomal proteins and the endocytosis of an endocytic tracer, epidermal growth factor (EGF), in LIMK1-transfected cells. We found in these cells an abnormal dispersed translocation of lysosomes stained for LIMPII and cathepsin D throughout the cytoplasm. The small punctate structures that stained for these lysosomal proteins were redistributed to the periphery of the cell. Computational 3D-image analysis of confocal immunofluorescence micrographs further demonstrated that these vesicles did not colocalize with the transferrin receptor, an early endosomal marker. Furthermore, LIMPII-positive lysosomes did not colocalize with early endosomes labeled with endocytosed Texas red-transferrin. These results indicate that there is no mixing between dispersed lysosomes and early endosomes in the LIMK1-transfected cells. Moreover, LIMK1 overexpression resulted in a marked retardation in the receptor-mediated internalization of Texas red-labeled EGF in comparison with mock-transfected cells. At 30 min after internalization, most of the Texas red-EGF staining overlapped with LIMPII-positive late endosomes/lysosomes in mock-transfected cells, whereas in LIMK1 transfectants only a small fraction of internalized EGF colocalized with LIMPII-positive structures in the perinuclear region. Taken together, the findings presented in this paper suggest that LIMK1 has a role in regulating vesicle trafficking of lysosomes and endosomes in invasive tumor cells.
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PMID:LIM kinase 1: evidence for a role in the regulation of intracellular vesicle trafficking of lysosomes and endosomes in human breast cancer cells. 1550 60

Aftiphilin is a protein that was recently identified in database searches for proteins with motifs that interact with AP-1 and clathrin, but its function is unknown. Here we demonstrate that aftiphilin has a second, atypical clathrin binding site, YQW, that colocalizes with AP-1 by immunofluorescence, and that is enriched in clathrin-coated vesicles (CCVs), confirming that it is a bona fide component of the CCV machinery. By gel filtration, aftiphilin coelutes with two other AP-1 binding partners, p200a and gamma-synergin. Antibodies against any one of these three proteins immunoprecipitate the other two, and knocking down any of the three proteins by siRNA causes a reduction in the levels of the other two, indicating that they form a stable complex. Like AP-1-depleted cells, aftiphilin-depleted cells missort a CD8-furin chimera and the lysosomal enzyme cathepsin D. However, whereas AP-1-depleted cells recycle endocytosed transferrin more slowly than untreated cells, aftiphilin-depleted cells accumulate endocytosed transferrin in a peripheral compartment and recycle it more rapidly. These observations show that in general, the aftiphilin/p200/gamma-synergin complex facilitates AP-1 function, but the complex may have additional functions as well, because of the opposing effects of the two knockdowns on transferrin recycling.
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PMID:The aftiphilin/p200/gamma-synergin complex. 1575 25

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