Dexamethasone up-regulates mannose receptor activity by increasing mRNA levels.

The macrophage mannose receptor is highly susceptible to modulation by a variety of inflammatory and anti-inflammatory agents. Previous studies have demonstrated that mannose receptor activity is dramatically enhanced in rat bone marrow macrophages following treatment with dexamethasone. In the present study we have investigated potential mechanisms that might be involved in this up-regulation. Uptake of ligands by the mannose receptor was increased 2.5-fold in a dose- and time-dependent manner. Maximal stimulation was seen following treatment of macrophages with 0.1-1.0 microgram/ml of dexamethasone for 24-48 h. Dexamethasone treatment increased both the number of cell surface binding sites and total cellular binding activity to 250% of control levels. In addition, total receptor protein as measured by immunoprecipitation was increased 2.5-fold. Neither the maturation rate nor the turnover rate of the protein was altered by dexamethasone treatment. Using an oligonucleotide probe derived from sequence data from the cloned human receptor cDNA, we investigated the effect of dexamethasone on the expression of mannose receptor mRNA. Following incubation with dexamethasone for 12-24 h, the level of mRNA was significantly increased. These results demonstrate that dexamethasone treatment of rat bone marrow macrophages induces synthesis of new receptor protein through an increase in the level of mannose receptor mRNA.     

Does the induction of macrophage lysosomal enzyme secretion by zymosan involve the mannose receptor?

Secretion of the lysosomal enzyme hexosaminidase induced by zymosan is inhibited by mannose and by high concentrations of mannose-6-phosphate and 2-deoxy-glucose but not by mannan. Secretion of hexosaminidase from cells storing previously endocytosed zymosan is unaffected by mannose. Exposure of the cells to mannose does not affect secretion caused by subsequent exposure to zymosan. These findings suggest a role for the mannose-glycoprotein receptor in initiation of lysosomal enzyme secretion by zymosan.     

Binding of cathepsin D to the mannose receptor on rat peritoneal macrophages

Adherent cultures of rat peritoneal macrophages secrete lysozyme and the lysosomal marker enzymes beta-glucuronidase, beta-N-acetylglucosaminidase and acid phosphatase; the levels of secreted lysosomal cathepsin D, however, were found to be insignificant. Incubation of the cells at 4 degrees C for 15 min with yeast mannan or with 50 mM mannose, methyl alpha-glucopyranoside, or N-acetylglucosamine caused the concentration of cathepsin D in the culture medium to increase 30-40-fold; mannose-6-phosphate had no effect. 125I-labeled cathepsin D was prepared and the binding constant to the macrophage cell surface was determined to be KD = 27 nM. The data suggest that cathepsin D binds to the mannose receptor of macrophages and that binding to this receptor is not in equilibrium with the bulk medium.     

Mannose-specific oligosaccharide recognition by mononuclear phagocytes

Glycoproteins terminating in mannose are recognized by receptors on macrophages. The mannose receptor is expressed by a variety of macrophages but expression is closely regulated. Activated macrophages, for example, express little mannose receptor activity. Kinetic and fractionation experiments suggest that cell surface mannose receptors recycle to and from an acidic, pre-lysosomal compartment. Preliminary evidence suggests that the mannose receptor is a large polypeptide and that it is structurally related to the mannose binding protein found in serum. The mannose receptor may, among other possibilities, regulate the extracellular levels of lysosomal hydrolases.     

Phosphomannosyl-enzyme receptors in rat liver. Subcellular distribution and role in intracellular transport of lysosomal enzymes

beta-Hexosaminidase B purified from human fibroblast secretions was used as a ligand to study phosphomannosyl-enzyme receptors in membranes from rat tissues. Enzyme binding to rat liver membranes was saturable, competitively inhibited by mannose 6-phosphate, not dependent on calcium, and destroyed by prior treatment of the hexosaminidase with either alkaline phosphatase or endoglycosidase H. Most (90%) of the phosphomannosyl-enzyme receptors were found in endoplasmic reticulum, Golgi apparatus, and lysosomes; 9.5% in the plasma membrane, and less than 1% in nuclei and mitochondria. Receptors were vesicle-enclosed in all fractions except plasma membrane. Receptors in the endoplasmic reticulum apparently were occupied by endogenous ligands, but most receptors in lysosomes and plasma membrane were unoccupied. Most of the endogenous beta-hexosaminidase was in lysosomes and was released from vesicles by detergent treatment. Displacement of the residual receptor-bound endogenous beta-hexosaminidase (mostly in endoplasmic reticulum and Golgi apparatus) from detergent-treated membranes by mannose 6-phosphate released high uptake enzyme with properties expected for phosphomannosyl-enzymes. Mannose 6-phosphate-inhibitable enzyme receptor activity was found in nine rat organs and correlated roughly with their lysosomal enzyme content. These data support a general model for lysosomal enzyme transport in which the phosphomannosyl-enzyme receptor acts as a vehicle for delivery of newly synthesized acid hydrolases from the endoplasmic reticulum to lysosomes.     

Iodinated fibroblast beta-glucuronidase as a ligand for receptor-mediated endocytosis.

Antibodies raised to human placental beta-glucuronidase were shown to cross-react with the beta-glucuronidase secreted by mouse 3T3 fibroblasts, but did not react with other lysosomal enzymes. The beta-glucuronidase secreted by 3T3 cells was purified 15000-fold by chromatography on an affinity column made from this antibody and resolved into a single component, of Mr 68000, by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Iodinated samples of purified enzyme were taken up into mouse peritoneal macrophages by receptor-mediated endocytosis at a rate similar to that calculated previously for unlabelled enzyme, and uptake was competitively inhibited by yeast mannan. Binding of beta-glucuronidase to macrophages was saturable, with a Kd of 7 X 10(-9)l/mol, an affinity comparable with that calculated for the binding of mannosylated bovine serum albumin (Kd 1.3 X 10(-9)l/mol), a ligand specific for mannose receptors. Four times as many molecules of mannosylated albumin (12000) as of beta-glucuronidase (3000), however, bound to each cell. This purification and iodination procedure did not therefore have any adverse effect on the uptake properties of secreted beta-glucuronidase, and provides a ligand with which to investigate binding and specific endocytosis into a range of different types of cell.     

Secretion of the lysosomal acid triacylglycerol hydrolase precursor by J774 macrophages

J774, thioglycollate-elicited mouse peritoneal and BCG-induced rabbit alveolar macrophages all contain high levels of a triacylglycerol hydrolase (EC 3.1.1.3) (TGase) with optimal activity at pH 6.5. The J774 macrophages, a cell line deficient in the calcium-independent mannose 6-phosphate receptor, were found to secrete large quantities of the TGase into the culture medium. In contrast, mouse peritoneal and rabbit alveolar macrophages, which are both mannose 6-phosphate receptor-competent cell types, secreted much lower amounts of neutral TGase. The enzyme was localized in the lysosomes of rabbit alveolar macrophages. Addition of 25 mM NH4Cl induced a 6-fold increase in TGase secretion by alveolar macrophages, while 50 mM NH4Cl induced a 12-fold increase in TGase secretion. NH4Cl had no effect on TGase secretion by J774 macrophages. The TGase secreted by J774 macrophages was internalized by I-cell disease fibroblasts, increasing the cellular content of TGase 10-fold after 8 h. Internalization was inhibited 70% by the addition of 2 mM mannose 6-phosphate to the culture medium, but was not affected by 2 mM mannose or glucose 6-phosphate. After internalization, the neutral TGase was converted to a TGase with a pH optimum of 5.1. These data are consistent with the spontaneous release of a lysosomal enzyme precursor from a calcium-independent mannose 6-phosphate receptor-deficient cell line, indicating that the neutral TGase previously reported in several types of macrophages may be the precursor of the lysosomal acid TGase.     

Modulation of macrophage mannose receptor affects the uptake of virulent and avirulent Leishmania donovani promastigotes.

The effect of oxidants and the anti-inflammatory steroid dexamethasone on the attachment and internalization of virulent and avirulent Leishmania donovani promastigotes by the macrophage mannosyl fucosyl receptor was examined. Oxidants and dexamethasone are known to down- and upregulate the expression of the mannose receptor. Macrophages, when treated with 500 microM H2O2 at 37 C for 30 min, stimulate about 45% inhibition in uptake of an avirulent strain (UR6), and 30 and 25% inhibition for virulent strains AG-83 and GE-I, respectively. Treatment of macrophages with dexamethasone for 20 hr resulted in a stimulation in uptake of the parasite. When UR6 was used, a 3-fold increase in uptake was observed compared with the controls. Parasite uptake was also inhibited by the H2O2-generating system, glucose/glucose oxidase; inhibition was blocked by catalase. Treatment of macrophages either with H2O2 or dexamethasone did not affect the binding of the advanced glycosylation end product-bovine serum albumin (AGE-BSA), the ligand for AGE receptor of macrophages. Similarly, indirect evidence also shows that both types 1 and 3 complement receptors (CR1, CR3) are not affected by these treatments, indicating that, besides the mannosyl fucosyl receptor, other receptors are minimally altered in the identified condition. These results suggest that the up- and downregulation of the mannose receptor of macrophages may play a role in affecting L. donovani infection.     

Identification of mannose 6-phosphate receptors in rabbit alveolar macrophages

Mannose 6-phosphate is an important recognition site involved in transport of newly synthesized lysosomal enzymes from the endoplasmic reticulum to lysosomes. The current study is the first demonstration of functional mannose phosphate receptors in macrophages. The receptor appears to be similar in many respects to that expressed in fibroblasts. Binding at 4 degrees C of a mannose-6-P-containing ligand, alpha-mannosidase from Dictyostelium discoideum, was specific and saturable (KD = 1.6 nM). In the presence of permeabilizing agents (saponin and digitonin), macrophage mannose-6-P receptors gave a distribution of 15-20% on the surface and 80-85% inside. Uptake studies gave a Kuptake value of 4.9 nM. Mannose-6-P, Hansenula holstii phosphomannan, and fructose 1-phosphate were effective inhibitors of alpha-mannosidase uptake. Inhibitors of mannose uptake, such as beta-glucuronidase, mannose-bovine serum albumin, fucose-bovine serum albumin, or mannan had no effect on alpha-mannosidase uptake. Likewise, an inhibitor (fucoidin) of the macrophage receptor which recognizes negatively charged proteins did not inhibit alpha-mannosidase uptake. Uptake was linear over 90 min and inhibited by chloroquine, suggesting that surface receptors recycle. These data demonstrate that macrophages contain receptors which specifically recognize mannose-6-P units and are distinct from the well characterized mannose receptors. The finding that the mannose-6-P receptors play a role at the surface, together with the fact that most of the receptors are intracellular (similar to the mannose receptor) suggests that both carbohydrate receptors play a regulatory role at the surface and intracellularly in transport of lysosomal enzymes.     

Leukocyte complement: interleukin-like properties of factor Bb

It has been previously shown that the activated form of Factor B (Factor Bb) of the alternative pathway of complement activation stimulates monocyte spreading and killing of xenogenic erythrocytes and staphylococci. Factor Bb also stimulates lymphocyte blastogenesis in vitro, and native (uncleaved) Factor B is a major constitutive product of murine macrophages. To evaluate the possible "monokine" or "lymphokine"-like properties of Factor Bb, a radioimmunoassay was developed to measure the quantities of Factor B in phytohemagglutinin (PHA)-mitogen-stimulated cultures of human peripheral blood mononuclear cells. Nonstimulated mononuclear cell cultures from human peripheral blood (containing 10-14% monocytes and greater than 85% lymphocytes) at a density of 3 X 10(6) cells/ml (in serum-free medium) released less than 7 X 10(-10) M/liter (60 ng/ml) of Factor B antigen in 24 hr at 37 degrees C, and when mononuclear cells were stimulated with PHA mitogen in serum-free medium, the levels of Factor B antigen in media at 24 hr were significantly higher 1-3 X 10(-8) M/liter (0.9-2.8 micrograms/ml). The molecular size of Factor B in these media was 50-65 kDa by immunoprecipitation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a size appropriate for Factor Bb (60 kDa). Since pathological effects of macrophages in autoimmune disease may result from the release of lysosomal hydrolases, the effects of purified Factor Bb on mononuclear phagocytes were investigated in an in vitro system of murine peritoneal exudate macrophages. Factor Bb induced secretion of marker lysosomal hydrolases N-acetyl-beta-D-glucosaminidase (hexosaminidase) and beta-glucuronidase from thioglycollate-elicited murine peritoneal exudate macrophages in a dose-response and kinetic manner. Hydrolase release was induced in serum-free medium without a known particulate activator at a concentration of 80-200 nM (5-13 micrograms/ml) Factor Bb. Maximal release occurred in 3-5 hr at 37 degrees C and extracellular enzyme activity of hexosaminidase and glucuronidase increased as intracellular enzyme levels decreased, suggesting that Factor Bb triggers release of these enzymes from intracellular lysosomal pools. These results provide an example of a complement protein which is synthesized, released, and activated during mononuclear cell culture and which induces release of lysosomal enzymes from macrophages. In conventional terminology, Factor B or Factor Bb might be termed a "lymphokine," "monokine," or "interleukin".     

The role of the mannose/N-acetylglucosamine receptor in the pinocytosis of horseradish peroxidase by mouse peritoneal macrophages

Saccharomyces cerevisiae mannan inhibits the pinocytosis of horseradish peroxidase (HRP) by resident, thioglycollate-,proteose peptone-, and Corynebacterium parvum-elicited macrophages from 30 to 70% when 1 mg/ml HRP is used, and 65 to 87% when 250 micrograms/ml HRP is used. In contrast, HRP uptake by J774 cells, a macrophage cell line reported to have little mannose receptor activity, is inhibited only about 25% by mannan. HRP uptake by resident and thioglycollate-elicited (thio) macrophages is also inhibited 34 and 66% by addition of EGTA to the medium and 55 and 79% by trypsin treatment of the macrophages, respectively. The inhibitory effect of EGTA can be reversed by 1 mM excess Ca2+. High extracellular concentrations of Ca2+, in the range of 10-20 mM, however, inhibit pinocytosis in resident macrophages by about 50%. Sucrose uptake by resident macrophages is not appreciably affected by mannan. These results support the hypothesis that HRP uptake is mediated by the macrophage mannose/N-acetylglucosamine receptor. PMA stimulates fluid-phase pinocytosis of HRP by thio macrophages but does not affect receptor-mediated uptake of HRP, while the combination of adenosine, homocysteine, and erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA) selectively inhibits bulk-phase uptake by thio macrophages.     

Intercellular exchange of lysosomal hydrolases between mutant human fibroblasts and other cell types

Human fibroblasts with a genetic deficiency of a single lysosomal enzyme and fibroblasts from a patient with ‘I-cell’ disease with a multiple deficiency of lysosomal hydrolases were used as recipient cells in studies on recognition and uptake of β-N-acetylhexosaminidase (hexosaminidase), β-glucuronidase and β-galactosidase. Normal human fibroblasts, and fibroblasts, hepatocytes and hepatoma cells from the rat were used as donor cells. The release of hexosaminidase was found to be similar among these different cell types, but the extracellular activities of β-glucuronidase and β-galactosidase were much higher in the rat cell cultures than in cultures of normal human fibroblasts. The enzymes released by rat fibroblasts were ingested by deficient human fibroblasts; enzyme from normal human fibroblasts was shown to be taken up by rat fibroblasts by means of electrophoresis. This indicates that reciprocal transfer of lysosomal hydrolases occurs between human and rat fibroblasts. Rat hepatocytes released hydrolases that were poorly taken up by human recipient fibroblasts and uptake of human fibroblast enzyme was not detected in the hepatocytes. Rat hepatoma cells, on the other hand, released lysosomal enzymes that were taken up by human deficient cells with a higher efficiency than those from fibroblasts. The uptake was subject to competitive inhibition by mannose 6-phosphate, the kinetics of which were comparable with those reported for ‘high-uptake’ forms of lysosomal enzymes [1–2]. Electrophoretic studies showed that rat hepatoma cells were not only capable of ingesting hexosaminidase from normal human fibroblasts, but also defectively processed enzyme [4–5] released by ‘I-cells’. These findings make rat hepatoma cells a useful model for the study of recognition and uptake of lysosomal enzymes.     

A macrophage receptor for liver lysosomal beta-glucosidase

beta-Glucosidase was purified from lysosomal membranes isolated from rat liver. Binding and uptake of the purified beta-glucosidase were mediated via an apparently single binding site on rat peritoneal macrophages. The number of sites and the Kd were 4.20 X 10(4)/cell and 1.00 X 10(-7) M, respectively. Neither of the processes was inhibited by ligands for mannose/fucose receptors, mannose 6-phosphate receptors, or scavenger receptors, or by other glycoproteins and sugar compounds. A portion of the beta-glucosidase taken up into the macrophages was degraded rapidly. These results suggested that liver lysosomal beta-glucosidase was endocytosed via a receptor not previously described.     

Fibroblast chemotaxis and prolidase activity modulation by insulin-like growth factor II and mannose 6-phosphate

Chemotactic locomotion of fibroblasts requires extensive degradation of extracellular matrix components. The degradation is provided by a variety of proteases, including lysosomal enzymes. The process is regulated by cytokines. The present study shows that mannose 6-phosphate and insulin-like growth factor II (IGF-II) enhance fibroblast chemotaxis toward platelet-derived growth factor (PDGF). It is suggested that lysosomal enzymes (bearing mannose 6-phosphate molecules) are involved in chemotactic activity of the cells. The suggestion is supported by the observation that a-mannosidase and cathepsin D inhibitor - pepstatin are very potent inhibitors of fibroblast chemotaxis. Simultaneously, mannose 6-phosphate stimulates extracellular collagen degradation. The final step in collagen degradation is catalyzed by the cytosolic enzyme - prolidase. It has been found that mannose 6-phosphate stimulates also fibroblast prolidase activity with a concomitant increase in lysosomal enzymes activity. The present study demonstrates that the prolidase activity in fibroblasts may reflect the chemotactic activity of the cells and suggests that the mechanism of cell locomotion may involve lysosomal enzyme targeting, probably through IGF-II/mannose 6-phosphate receptor.     

Mannose-receptor-mediated clearance of lysosomal alpha-mannosidase in scavenger endothelium of cod endocardium.

Mannose-receptor-mediated clearance of circulating glycoproteins was studied in Atlantic cod (Gadus morhua). Distribution studies with radioiodinated and fluorescently labelled ligands showed that cod liver lysosomal alpha-mannosidase and yeast invertase were rapidly eliminated from blood via a mannose specific pathway in liver parenchymal cells and endocardial endothelial cells of atrium and ventricle. Asialo-orosomucoid, a galactose-terminated glycoprotein, was cleared by liver only. In vitro studies were performed with primary cultures of atrial-endocardial endothelial cells (AEC), incubated at 12 degrees C in a serum free medium. Cod AEC endocytosed mannose-terminated glycoproteins (125I-alpha-mannosidase, 125I-invertase, 125I-mannan, 125I-ovalbumin and unlabelled lysosomal alpha-mannosidase), whereas 125I-asialo-orosomucoid was not recognised. Uptake of radiolabelled mannose-terminated ligands was inhibited 80-100% in the presence of excess amounts of mannan, invertase, D-mannose, L-fucose or EGTA. Our results suggest that the cod endocardial endothelial cells express a specific Ca(2+)-dependent mannose receptor, analogous to the mannose receptor on mammalian macrophages and liver sinusoidal endothelial cells.     

Amphotericin B stimulates secretion of beta-hexosaminidase from mouse adherent spleen cells.

Secretion of the lysosomal enzyme hexosaminidase is induced by amphotericin B in mouse spleen adherent cells that show a significant increase in their candidacidal activity. The stimulation of beta-hexosaminidase is both time and dose dependent. Amphotericin B treatment did not change hexosaminidase expression that is represented mainly by "A-type" hexosaminidase in macrophages, on the basis of its biochemical properties.     

Purification and characterization of lysosomal alpha-glucosidase secreted by eukaryote Tetrahymena

A large amount of lysosomal acid hydrolases was released into the medium by Tetrahymena pyriformis strain W during growth. An extracellular lysosomal acid alpha-glucosidase has been purified 500-fold with a 41% yield to homogeneity, as judged by polyacrylamide gel electrophoresis. It was found to be a glycoprotein and to consist of a single 110,000-dalton polypeptide chain. The carbohydrate content of the alpha-glucosidase was equivalent to 2.8% of the total protein content, and the oligosaccharide moiety was composed of mannose and N-acetylglucosamine in a molar ratio of 6.7:2. The optimal pHs for hydrolysis of maltose and p-nitrophenyl-alpha-glucopyranoside, maltose, isomaltose, and glycogen were 1.1 mM, 2.5 mM, 33.0 mM, and 18.5 mg/ml, respectively. This purified enzyme appears to have alpha-1,6-glucosidase as well as alpha-1,4-glucosidase activity. Turanose has a noncompetitive inhibitory effect on the hydrolysis of maltose. The antibody raised against Tetrahymena acid alpha-glucosidase inhibited the hydrolysis of all substrates tested. These properties of Tetrahymena acid alpha-glucosidase were found to be similar to those of the human liver lysosomal alpha-glucosidase.     

Isolation and characterization of a mannose-specific endocytosis receptor from rabbit alveolar macrophages.

Rabbit alveolar macrophages express a plasma-membrane receptor that recognizes glycoprotein ligands bearing terminal mannose, fucose or N-acetylglucosamine residues. Macrophage membranes were washed extensively with buffers containing high salt and mannose or EDTA to remove endogenously bound ligand, before Triton X-100 extraction. The extracts were chromatographed on mannose-Sepharose. Elution with mannose, followed by dialysis and a second mannose-Sepharose step with EDTA elution, produced a preparation that migrated as single protein band of Mr 175,000 on SDS/polyacrylamide-gel electrophoresis. The purified protein binds mannose-BSA (bovine serum albumin) with a dissociation constant of 1.9 X 10(-8) M. Ligand binding is Ca2+ and pH-dependent, with maximal binding at neutral pH and low binding below pH 6.0. The binding of 125I-mannose-BSA is inhibited by ligands bearing high-mannose oligosaccharides, such as mannan or beta-glucuronidase, as well as the monosaccharides mannose, fucose and N-acetylglucosamine. Galactose, galactosylated BSA, glucose and mannose 6-phosphate are non-inhibitory. Amino acid compositional analyses indicate that the receptor contains high concentrations of aspartate/asparagine and glutamate/glutamine, and low amounts of methionine. The carbohydrate composition was studied by lectin overlays of electrophoretically transferred receptor, and the results indicate the presence of N-linked complex and O-linked sialylated oligosaccharides. A protein of Mr 175,000 was immunoprecipitated from radio-iodinated macrophage membranes with an antibody generated against purified rabbit lung mannose receptor.     

Mechanisms of host defense against Candida species. I. Phagocytosis by monocytes and monocyte-derived macrophages

We studied the biochemical basis of phagocytosis of Candida albicans, a serious pathogen, and Candida parapsilosis, which is rarely pathogenic, by human monocytes (Mo) and monocyte-derived macrophages (MDM). Optimal phagocytosis of both species by Mo required the presence of extracellular Ca2+ and opsonization through both the classic and alternative complement pathways. Serum-opsonized Candida were ingested equally by Mo and MDM; unopsonized Candida were phagocytosed only by macrophages, and uptake began slowly. This opsonin-independent phagocytosis required Ca2+ and could be blocked by yeast mannan or mannose-BSA conjugate, suggesting a role for the mannose receptor. Opsonized Candida elicited a vigorous increase in the concentration of [Ca2+]i in Mo and MDM, but no Ca2+ transient was detected in MDM stimulated with unopsonized Candida. Pretreatment of MDM with ionomycin to increase [Ca2+]i had no effect on phagocytosis of unopsonized Candida. Addition of 5 mM EGTA completely inhibited changes in [Ca2+]i in Mo and MDM, suggesting that the Ca2+ transient induced by opsonized Candida is due to an influx of extracellular Ca2+. Differences in pathogenicity between the two Candida species could not be explained by differences in any aspect of phagocytosis. Uptake mediated by the macrophage mannose receptor could play a role in clearance of Candida under opsonin-poor conditions.     

I-cell disease: deficiency of extracellular hydrolase phosphorylation

The content of ³²P-phosphorylated residues of purified extracellular N-acetyl-β-hexosaminidase obtained from the fibroblasts of I-cell disease patients was compared to that of control cells hydrolase. The analyses indicated a 60-fold decrease of the radioactivity per unit enzyme activity in the hydrolase synthesized by the patient's fibroblasts compared to the normal enzyme. Electrofocusing demonstrated again a marked decrease in the ³²P-content of the I-cell hydrolase while the control enzyme showed the presence of radioactivity in both isozymes, namely hexosaminidase A and hexosaminidase B. Most of the radioactivity could be removed from the hydrolase following incubation with alkaline phosphatase, thus indicating its phosphoester linkage.Since phosphorylated sugar residues on lysosomal enzymes function as recognition marker for their transport to the lysosomal compartment and for their specific uptake by fibroblasts, the deficiency of phosphorylated residues on the I-cell hydrolase explains the low intracellular and high extracellular lysosomal enzyme levels observed in this disease.