Is there a mechanism for introducing acid hydrolases into liver lysosomes that is independent of mannose 6-phosphate recognition? evidence from I-cell disease

Abstract During granulocyte differentiation in the bone marrow (BM), neutrophilic leukocyte precursors synthesize large amounts of lysosomal enzymes. These enzymes are sequestered into azurophilic storage granules until used days later for digestion of phagocytized microorganisms after leukocyte emigration to inflamed tissues. This azurophil granule population has previously been defined as a primary lysosome, ie, a membrane-bound organelle containing acid hydrolases that have not entered into a digestive event. In this study, azurophil granules were purified and shown to contain large amounts of mannose 6-phosphate-containing glycoproteins (Man 6-P GP) but little lysosome-associated membrane proteins (LAMP). In addition, the fine structural localization of Man 6-P GP and LAMP was investigated at various stages of maturation in human BM and blood. Man 6-P GP were present within the azurophilic granules at all stages of maturation and in typical multivesicular bodies (MVB) as well as in multilaminar compartments (MLC), identified by their content of concentric arrays of internal membranes. LAMP was absent in all identified granule populations, but was consistently found in the membranes of vesicles, MVB, and MLC. The latter compartment has not been previously described in this cell type. In conclusion, the azurophilic granules, which contain an abundance of lysosomal enzymes and Man 6-P GP, lack the LAMP glycoproteins. By current criteria, they therefore cannot be classified as lysosomes, but rather may have the functional characteristics of a regulated secretory granule. Rather, the true lysosomes of the resting neutrophil are probably the MVB and MLC. Finally, the typical “dense bodies” or mature lysosomes described in other cells are not present in resting neutrophils.

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Mannose 6-phosphate receptor-mediated endocytosis of acid hydrolases: internalization of beta-glucuronidase is accompanied by a limited dephosphorylation.

The Journal of Cell Biology ◽

10.1083/jcb.103.5.1817 ◽

1986 ◽

Vol 103 (5) ◽

pp. 1817-1827 ◽

Cited By ~ 21

Author(s):

C A Gabel ◽

S A Foster

Keyword(s):

Sialic Acid ◽

Single Species ◽

Sialic Acid Residue ◽

Acid Hydrolases ◽

Chase Period ◽

L Cells ◽

High Mannose ◽

Mannose 6 Phosphate ◽

The One ◽

Input Form

Endocytosis of acid hydrolases via the cell surface mannose 6-phosphate (Man 6-P) receptor results in the delivery of the enzymes to lysosomes. To examine the fate of the ligand-associated phosphorylated high mannose oligosaccharides, we have analyzed the asparagine-linked oligosaccharides attached to beta-glucuronidase after uptake and processing by Man 6-P receptor-positive mouse L cells. beta-Glucuronidase, double-labeled with [2-3H]mannose and [35S]methionine, was isolated from the growth medium of mouse P388D1 cells. 80% of the [3H]mannose associated with the secreted enzyme was recovered as high mannose-type oligosaccharides, and 24-37% of these units were phosphorylated. Three species of phosphorylated oligosaccharides were identified; high mannose-type units containing either one or two phosphomonoesters, and hybrid-type units containing one phosphomonoester and one sialic acid residue. After endocytosis by the L cells, the beta-glucuronidase molecules migrated faster on an SDS gel, suggesting that the enzymes had been processed within lysosomes. Examination of the cell-associated beta-glucuronidase molecules indicated that: (a) the percentage of phosphorylated oligosaccharides remained comparable to the input form of the enzyme, even after a 24-h chase period, (b) the presence of a single species of phosphorylated oligosaccharide that contained one phosphomonoester, and (c) the positioning of the phosphate within the intracellular monophosphorylated species was comparable to the positioning of the phosphate within the two phosphomonoester species originally secreted by the P388D1 cells. Therefore, the internalized beta-glucuronidase molecules undergo a limited dephosphorylation; oligosaccharides containing two phosphomonoesters are converted to monophosphorylated species, but the one phosphomonoester forms are conserved. A comparison of the phosphorylated oligosaccharides recovered from ligands internalized by the L cells at 37 degrees and 20 degrees C indicated that: (a) molecules internalized at 20 degrees C retain a higher percentage of phosphorylated structures; and (b) at both temperatures the predominant phosphorylated oligosaccharide contains a single phosphomonoester group. The results indicate that the Man 6-P recognition marker persists after endocytosis and delivery to lysosomes and support the possibility that the limited dephosphorylation of the oligosaccharides may occur en route to these organelles.

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I-cell disease (mucolipidosis II): Resolution of N-acetyl-β-d-glucosaminidase and α-l-fucosidase components by DEAE-cellulose chromatography

Clinical Science ◽

10.1042/cs0490543 ◽

1975 ◽

Vol 49 (6) ◽

pp. 543-550

Author(s):

R. B. Ellis ◽

P. Willcox ◽

A. D. Patrick

Keyword(s):

Deae Cellulose ◽

Minor Component ◽

Relative Increase ◽

Tissue Type ◽

Cell Disease ◽

Acid Hydrolases ◽

Cultured Fibroblasts ◽

Normal Plasma ◽

Before And After ◽

Serum Type

1. In a patient with I-cell disease the activities of several acid hydrolases were elevated in plasma and reduced in cultured fibroblasts when compared with normal values. Normal activities for the enzymes were found in leucocytes. These findings agree with reports on other cases. 2. N-Acetyl-β-d-glucosaminidase was resolved into its component forms by chromatography on microcolumns of DEAE-cellulose coupled with continuous automated assay of activity in the column effluent. Cultured skin fibroblasts from three patients showed a profound deficiency of glucosaminidase component A and a relative increase in the activity of a form eluted earlier than A. 3. In the one patient studied, the elution profile of plasma glucosaminidase was similar to that of normal plasma, but treatment with neuraminidase revealed a minor component which did not appear in control specimens. 4. Chromatographic resolution of glucosaminidase secreted by normal fibroblasts into the culture medium showed that component A comprised two forms, a serum-type and a tissue-type, whereas only a serum-type was found in I-cell medium. 5. Different forms of α-l-fucosidase were shown to occur in normal plasma and fibroblasts. This is the second lysosomal hydrolase for which differences between intracellular and extracellular forms have been described and might reflect a general phenomenon. 6. The major acidic component of fucosidase from normal fibroblasts was not detected in I-cell fibroblasts. Elution profiles of fucosidase activity in normal and I-cell plasma were indistinguishable, both before and after treatment with neuraminidase. 7. On the basis of the above findings, we suggest that for several acid hydrolases there is a common biosynthetic reaction, which produces forms of these enzymes destined for incorporation into primary lysosomes rather than secretion by the cell. In cultured fibroblasts from patients with I-cell disease, the enzyme catalysing the reaction leading to the production of intracellular forms is deficient or defective, whereas the synthesis of precursor and secreted forms is unaffected.

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Azurophilic Granules of Human Neutrophilic Leukocytes Are Deficient in Lysosome-Associated Membrane Proteins but Retain the Mannose 6-Phosphate Recognition Marker

Blood ◽

10.1182/blood.v91.3.1044.1044_1044_1058 ◽

1998 ◽

Vol 91 (3) ◽

pp. 1044-1058 ◽

Cited By ~ 1

Author(s):

A.-M. Cieutat ◽

P. Lobel ◽

J.T. August ◽

L. Kjeldsen ◽

H. Sengeløv ◽

...

Keyword(s):

Membrane Proteins ◽

Lysosomal Enzymes ◽

Acid Hydrolases ◽

Structural Localization ◽

Dense Bodies ◽

Neutrophilic Leukocytes ◽

Azurophil Granule ◽

Membrane Bound ◽

Storage Granules ◽

Mannose 6 Phosphate

During granulocyte differentiation in the bone marrow (BM), neutrophilic leukocyte precursors synthesize large amounts of lysosomal enzymes. These enzymes are sequestered into azurophilic storage granules until used days later for digestion of phagocytized microorganisms after leukocyte emigration to inflamed tissues. This azurophil granule population has previously been defined as a primary lysosome, ie, a membrane-bound organelle containing acid hydrolases that have not entered into a digestive event. In this study, azurophil granules were purified and shown to contain large amounts of mannose 6-phosphate-containing glycoproteins (Man 6-P GP) but little lysosome-associated membrane proteins (LAMP). In addition, the fine structural localization of Man 6-P GP and LAMP was investigated at various stages of maturation in human BM and blood. Man 6-P GP were present within the azurophilic granules at all stages of maturation and in typical multivesicular bodies (MVB) as well as in multilaminar compartments (MLC), identified by their content of concentric arrays of internal membranes. LAMP was absent in all identified granule populations, but was consistently found in the membranes of vesicles, MVB, and MLC. The latter compartment has not been previously described in this cell type. In conclusion, the azurophilic granules, which contain an abundance of lysosomal enzymes and Man 6-P GP, lack the LAMP glycoproteins. By current criteria, they therefore cannot be classified as lysosomes, but rather may have the functional characteristics of a regulated secretory granule. Rather, the true lysosomes of the resting neutrophil are probably the MVB and MLC. Finally, the typical “dense bodies” or mature lysosomes described in other cells are not present in resting neutrophils.

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An arrested late endosome-lysosome intermediate aggregate observed in a Chinese hamster ovary cell mutant isolated by novel three-step screening

Journal of Cell Science ◽

10.1242/jcs.112.8.1125 ◽

1999 ◽

Vol 112 (8) ◽

pp. 1125-1138 ◽

Cited By ~ 2

Author(s):

M. Ohashi ◽

I. Miwako ◽

K. Nakamura ◽

A. Yamamoto ◽

M. Murata ◽

...

Keyword(s):

Chinese Hamster Ovary Cell ◽

Chinese Hamster Ovary ◽

Chinese Hamster ◽

Membrane Dynamics ◽

Endocytic Pathway ◽

Ovary Cell ◽

Acid Hydrolases ◽

Microtubule Organizing Center ◽

Late Endosomes ◽

Mannose 6 Phosphate

Chinese hamster ovary cell mutants defective in the post-uptake degradation of low-density lipoprotein (LDL) in lysosomes were selected from mutagenized cells by novel three-step screening. First, in the presence of LDL, clones sensitive to an inhibitor of the rate-limiting enzyme of the cholesterol biosynthetic pathway, 3-hydroxy-3-methylglutaryl-CoA reductase, were isolated. Second, from the selected clones, those lacking in the degradation of a constituent of a fluorescent LDL were qualitatively screened by microscopy. Third, the clones were further screened by previously established quantitative analytical flow cytometry that detects the early-phase disintegration of LDL by lysosomal acid hydrolases. One of the isolated mutant clones, LEX1 (Lysosome-Endosome X 1), was a recessive mutant, and exhibited a specific disorder in the late endocytic pathway. LEX1 cells showed an unusual perinuclear aggregate of vesicles, heterogeneously positive for lysosomal glycoprotein-B/cathepsin D and rab7, yet negative for the cation-independent mannose 6-phosphate receptor. The aggregate was formed around the microtubule organizing center, and was disrupted by nocodazole treatment. Internalized octadecyl rhodamine B-labeled LDL (R18-LDL) was accumulated in the perinuclear rab7-positive vesicles. In a Percoll density gradient, neither internalized R18-LDL nor internalized horseradish peroxidase was efficiently chased into heavy lysosomal fractions positive for beta-hexosaminidase. LEX1 cells showed differences in the activity and subcellular distribution of lysosomal enzymes. These characteristics of LEX1 cells are consistent with the ideas that the perinuclear vesicle aggregate is an arrested intermediate of direct fusion or divergence between lysosomes and rab7-positive, cation-independent mannose 6-phosphate receptor-negative late endosomes, and that equilibrium between the lysosomes and the late endosomes is shifted towards the late endosomes in LEX1 cells. Such fusion or divergence between the late endosomes and the lysosomes would determine an appropriate equilibrium between them, and might thereby play an important role for proper lysosomal digestive functions. LEX1 mutant cells would be helpful for the dissection of the as yet unrevealed details of the late endocytic membrane dynamics and for the identification of factors involved in the process arrested by the mutation.

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Mice Lacking Mannose 6-Phosphate Uncovering Enzyme Activity Have a Milder Phenotype than Mice Deficient for N-Acetylglucosamine-1-Phosphotransferase Activity

Molecular Biology of the Cell ◽

10.1091/mbc.e09-05-0398 ◽

2009 ◽

Vol 20 (20) ◽

pp. 4381-4389 ◽

Cited By ~ 18

Author(s):

Marielle Boonen ◽

Peter Vogel ◽

Kenneth A. Platt ◽

Nancy Dahms ◽

Stuart Kornfeld

Keyword(s):

Insertional Mutagenesis ◽

Lysosomal Storage Diseases ◽

Mannose Receptor ◽

Lysosomal Storage ◽

Acid Hydrolases ◽

Weak Binding ◽

Targeting Signal ◽

Mannose 6 Phosphate ◽

Tissue Abnormalities ◽

Mucolipidosis Type

The mannose 6-phosphate (Man-6-P) lysosomal targeting signal on acid hydrolases is synthesized by the sequential action of uridine 5′-diphosphate-N-acetylglucosamine: lysosomal enzyme N-acetylglucosamine-1-phosphotransferase (GlcNAc-1-phosphotransferase) and GlcNAc-1-phosphodiester α-N-acetylglucosaminidase (“uncovering enzyme” or UCE). Mutations in the two genes that encode GlcNAc-1-phosphotransferase give rise to lysosomal storage diseases (mucolipidosis type II and III), whereas no pathological conditions have been associated with the loss of UCE activity. To analyze the consequences of UCE deficiency, the UCE gene was inactivated via insertional mutagenesis in mice. The UCE −/− mice were viable, grew normally and lacked detectable histologic abnormalities. However, the plasma levels of six acid hydrolases were elevated 1.6- to 5.4-fold over wild-type levels. These values underestimate the degree of hydrolase hypersecretion as these enzymes were rapidly cleared from the plasma by the mannose receptor. The secreted hydrolases contained GlcNAc-P-Man diesters, exhibited a decreased affinity for the cation-independent mannose 6-phosphate receptor and failed to bind to the cation-dependent mannose 6-phosphate receptor. These data demonstrate that UCE accounts for all the uncovering activity in the Golgi. We propose that in the absence of UCE, the weak binding of the acid hydrolases to the cation-independent mannose 6-phosphate receptor allows sufficient sorting to lysosomes to prevent the tissue abnormalities seen with GlcNAc-1-phosphotranferase deficiency.

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Lysosomal enzyme trafficking in mannose 6-phosphate receptor-positive mouse L-cells: demonstration of a steady state accumulation of phosphorylated acid hydrolases.

The Journal of Cell Biology ◽

10.1083/jcb.102.3.943 ◽

1986 ◽

Vol 102 (3) ◽

pp. 943-950 ◽

Cited By ~ 14

Author(s):

C A Gabel ◽

S A Foster

Keyword(s):

Steady State ◽

Gradient Centrifugation ◽

Human Fibroblasts ◽

Absolute Number ◽

Acid Hydrolases ◽

Chase Period ◽

L Cells ◽

High Mannose ◽

Mannose 6 Phosphate ◽

Enzyme Deficient

During their transport from the endoplasmic reticulum to lysosomes, newly synthesized acid hydrolases are phosphorylated in the Golgi apparatus to generate a common recognition marker, mannose 6-phosphate (Man 6-P). The phosphorylated acid hydrolases then bind to the Man 6-P receptor and are transported by an unknown route to lysosomes. To learn more about the delivery pathway, we examined the fate of the phosphorylated oligosaccharides synthesized by a Man 6-P receptor-positive line of mouse L-cells. In contrast to the rapid degradation of the recognition marker previously observed in mouse lymphoma cells (Gabel, C. A., D. E. Goldberg, and S. Kornfield. 1982. J. Cell Biol., 95:536-542), the number of high mannose oligosaccharides phosphorylated by the L-cells after a 30-min pulse labeling with [2-3H]mannose increased continuously during a subsequent 4-h chase period to a maximum of 9.3% of the total cell-associated structures. After 19 h of chase the absolute number of phosphorylated oligosaccharides declined, but the loss was accompanied by a general loss of cellular oligosaccharides such that 7.4% of the cell-associated high mannose oligosaccharides remained phosphorylated. The longevity of the Man 6-P recognition marker in the L-cells was verified by analyzing the ability of an individual acid hydrolase, beta-glucuronidase, to serve as a ligand for the Man 6-P receptor. At least 60% of the steady state beta-glucuronidase molecules isolated from the L-cells could undergo receptor-mediated endocytosis into enzyme-deficient human fibroblasts. Dense lysosomal granules isolated by metrizamide gradient centrifugation from [3H]mannose-labeled L-cells were found to be highly enriched in their content of phosphomonoester-containing oligosaccharides. The data indicate that acid hydrolases may retain their Man 6-P recognition markers within lysosomes, and suggest the possibility that dephosphorylation occurs at a nonlysosomal location through which the newly synthesized enzymes pass en route to lysosomes.

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Lysosomal acid hydrolases in lymphocytes of I-cell disease

Clinica Chimica Acta ◽

10.1016/0009-8981(79)90370-x ◽

1979 ◽

Vol 95 (2) ◽

pp. 285-290 ◽

Cited By ~ 8

Author(s):

E. Kato ◽

T. Yokoi ◽

N. Taniguchi

Keyword(s):

Cell Disease ◽

Acid Hydrolases ◽

Lysosomal Acid

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Evidence for NAD Nucleosidase in Rabbit-Liver Lysosomes

Canadian Journal of Biochemistry ◽

10.1139/o75-022 ◽

1975 ◽

Vol 53 (2) ◽

pp. 143-148 ◽

Cited By ~ 6

Author(s):

A. Mellors ◽

A. K. L. Lun ◽

O. N. Peled

Keyword(s):

Plasma Membrane ◽

Maximum Activity ◽

Adenyl Cyclase ◽

Rabbit Liver ◽

Acid Hydrolases ◽

Nad Glycohydrolase ◽

Triton Wr 1339 ◽

Liver Lysosomes ◽

Secondary Lysosomes

A method is described for the isolation of secondary lysosomes from homogenates of rabbit liver. The uptake of Triton WR-1339 by rabbit-liver lysosomes when administered by intraperitoneal injection was used to decrease the density of secondary lysosomes. Lysosomal fractions prepared by this method contain an NAD nucleosidase (NAD glycohydrolase, EC 3.2.2.5), an enzyme which has previously been considered to be associated with other subcellular fractions. The enzyme has maximum activity at pH 6 and cleaves both NAD and NADP. It is inhibited by nicotinamide (Ki = 4.5 mM) and by HgCl2. Both nucleosidase and 2′-nucleotidase show in-vitro latency typical of lysosomal acid hydrolases. Rabbit-liver plasma-membrane fractions were isolated which contained most 5′-nucleotidase but relatively little nucleosidase, whereas rabbit liver lysosomes contain both 5′-nucleotidase and nucleosidase enzymes but little adenyl cyclase.

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