Lysosomes in Tetrahymena pyriformis. I. Some properties and lysosomal localization of acid hydrolases

In homogenates of Tetrahymena pyriformis, five hydrolases — phosphatase, ribonuclease, deoxyribonuclease, proteinase, amylase — with acid pH optima were found. Over 75% of their activity is sedimentable with a centrifugal force of 250,000 g. min. Only 17% of the acid phosphatase and ribonuclease is active when assayed in the presence of 0.25 M sucrose at 0°. Exposure to a lowered osmotic pressure, freezing and thawing, and incubation at temperatures over 0° result in activation of the latent phosphatase and ribonuclease. After isopycnic centrifugation in a sucrose density gradient the hydrolases show a broad distribution which differs greatly from those of enzymes associated with mitochondria (succinate dehydrogenase) or with peroxisomes (catalase). The results are interpreted as evidence that the five acid hydrolases studied are localized in lysosomes which represent a distinct population of subcellular particles in Tetrahymena.     

Isolation of monkey aortic lysosomes using Percoll density gradient

A novel technique involving the Percoll density gradient and 0.01M phosphate buffer has been employed for the first time on aortic tissue for isolation of lysosomes. The purity of the lysosomes has been established by marker-enzymes, acid phosphatase and N-acetyl-beta-D-glucosaminidase and latent activities of lysosomal hydrolases. The heavier fraction (density 1.08) obtained after Percoll density gradient centrifugation showed high specific activities of lysosomal hydrolases and these enzymes were markedly latent. Moreover this heavier (lysosome rich) fraction has been noted to be free of other sub-cellular contaminants.     

Assay and subcellular localization of the arylsulphatases in rat brain

—The properties and subcellular localization of type I (nitrophenyl) and type II (nitrocatechol) arylsulphatases were investigated in brain tissue of the rat, and optimal assay conditions were established. Sulphate, phosphate and sulphite ions inhibited the nitrocatechol sulphatases; nitrophenyl sulphatase was inhibited only by sulphite. The presence of latent enzyme activity was demonstrated for the nitrocatechol sulphatases, beta-glucuronidase, and beta-glycerophosphatase in rat and mouse brain homogenates. These hydrolases were highly sensitive to mechanical and osmotic damage; and Triton X-100 was very effective in releasing their latent (bound) activities, a finding suggestive of a lysosomal localization. Activity of nitrophenyl sulphatase was unaffected by osmotic changes or Triton X-100, characteristics suggesting a membranous association for this enzyme. Total activity of nitrophenyl sulphatase was approximately twice as great in canine gray matter as in canine white matter; the converse obtained for beta-glucuronidase activity. Values for total enzymic activity of the nitrocatechol sulphatases in canine white and gray matter were similar. Fractionation of homogenates from rat brain by differential centrifugations and separation of crude mitochondrial fractions by sucrose density gradient centrifugations revealed the following: (1) most of the nitrocatechol sulphatase activity (93 per cent) and all of the nitrophenyl sulphatase activity were sedimentable; (2) crude mitochondrial fractions exhibited the highest relative specific activity (RSA = 1·38) for the nitrocatechol sulphatases, whereas microsomal fractions displayed the highest RSA for nitrophenyl sulphatase (1·89); (3) the lightest fraction (A + B) and the densest fraction (E) from the sucrose density gradient contained most of the activity for both the type I and type II arylsulphatases, whereas the RSA of cytochrome oxidase was greatest in the intermediate density regions (fractions C and D); (4) the highest RSA for beta-glucuronidase and beta-glycerophosphatase occurred in gradient fraction C; (5) appreciable activity of beta-glycerophosphatase was found in a nerve ending fraction (M₃). It is suggested that the hydrolases in heterogeneous tissue like brain might be associated with lysosomal particles of differing enzyme compositions and varying populations, and that the data on distribution lend credence to the concept of bimodal and possible trimodal particle affinity for the hydrolases of brain tissues.     

The fate of an N-formylated chemotactic peptide in stimulated human granulocytes. Subcellular fractionation studies

Experiments were performed to examine how human granulocytes process the chemotactic peptide N-formyl-Met-Leu-Phe after stimulation by the same peptide. Purified human granulocytes were stimulated with 50 nM N-formyl-Met-Leu-[3H]Phe at 37 degrees C for various times, washed, lysed by N2 cavitation, and fractionated by isopycnic sucrose density gradient sedimentation. The major subcellular fractions identified were plasma membrane, Golgi, granules, endoplasmic reticulum, and mitochondria. After 1 min of stimulation, radioactivity was found only in the plasma membrane (sedimentable) and cytosol (soluble) fraction. At 5, 10, and 25 min, radioactivity also appeared in a sedimentable, low density fraction (25-28% sucrose) enriched in galactosyl transferase activity and containing Golgi structures. The accumulation in the sedimentable fractions was maximal after 5 min but continued to increase linearly in the cytosol fraction. Incorporation of radioactivity into cells or membrane and soluble fractions was 60 to 85% specific and was inhibited if incubation with N-formyl-Met-Leu-[3H]Phe was performed at 4 degrees C. 80-90% of the radiolabel in the plasma membrane or Golgi-containing fractions remained sedimentable despite freeze thawing or sonication. Solubilization of these fractions in Triton X-100 followed by Sepharose 4B column chromatography revealed that the radiolabel eluted in the void volume. Our results are consistent with internalization which proceeds by passage of an occupied receptor in a high affinity, supramolecular complex from the plasma membrane to the Golgi followed by accumulation of peptide in the cytosol.     

Changes in electronegativity of lysosomal hydrolases during intracellular transport. An isoelectric-focusing study in subcellular fractions of rat kidney.

Isoelectric focusing was used to investigate the multiple forms of acid phosphatase, arylsulfatase, beta-glucuronidase, beta-galactosidase and beta-N-acetylhexosaminidase in the following, previously characterized subcellular fractions from rat kidney: a special rough microsomal fraction, enriched up to 9-fold over the homogenate in acid hydrolases; a smooth microsomal fraction; a Golgi membrane fraction enriched about 2.5-fold in acid hydrolases and 10- to 20-fold in several glycosyl transferases; and a lysosomal fraction enriched up to 25-fold in acid hydrolases. The electro-focusing behavior of the hydrolases in these fractions was markedly sensitive to the autolytic changes that occur under acidic conditions, even at 4 degrees C. Autolysis was minimized by extracting fractions in an alkaline medium (0.2% Triton X-100, 0.1 M sodium glycinate buffer, pH 10, 0.1 % p-nitrophenyloxamic acid) and adding p-nitrophenyloxamic acid (0.1 %), AN INHIBITOR OF LYSOSOMAL NEURAMINIDASE AND cathepsin D, to the pH gradient. The enzymes in the lysosomal fraction displayed a characteristic bimodal or trimodal distribution. Arylsulfatase, beta-glucuronidase and beta-N-acetylhexosaminidase occurred in an acidic form with an isoelectric point of 4.4, and a basic form with an isoelectric point of 6.2, 6.7 and 8.0, respectively. Acid phosphatase and beta-galactosidase occurred in an acidic, intermediate and basic form with isoelectric points of about 4. 1, 5.6 and 7.4, respectively. In the special rough microsomal fraction these enzymes were mostly in a basic form with isoelectric points between 7.5 and 9; these were 1-2 units higher than the corresponding basic forms in the lysosomal fraction. Treatment of extracts of the rough microsomal fraction with bacterial neuraminidase raised the isoelectric points of all five hydrolases by 1-2.5 units, indicating the presence of some N-acetylneuraminic acid residues in these basic glycoenzymes. The hydrolases in the Golgi fraction were largely in an acidic form with isoelectric points similar to or lower than those of the corresponding acidic components in the lysosomal fraction. The hydrolases in the smooth microsomal fraction showed isoelectric-focusing patterns intermediate between those in the rough microsomal and the Golgi fractions. These findings support the following scheme for the synthesis, transport and packaging of the lysosomal enzymes. Each hydrolase is synthesized in a restricted portion of the r     

Novel glycopeptides,containing desmosine and isodesmosine,isolated from porcine aorta

Intima-media of porcine thoracic aorta were digested with pronase, after extraction of the saline-soluble matters and fat. A glycopeptide fraction was precipitated with 90% (vol/vol) ethanol from the 80% ethanol-soluble fraction of the trichloroacetic acid (7%)-soluble fraction of the pronase digest. The glycopeptide fraction was fractionated by affinity chromatography on concanavalin A (Con A)-Sepharose 4B, yielding 4 fractions (FA, FB, FC and FD). The most carbohydrate-rich fraction (FB) was further purified to a homogeneous state. The purified FB (FB-0.1) and all other fractions contained desmosine and isodesmosine. The major sugars in the fractions without or with low affinity for Con A (FA, FB, and FB-0.1) were glucosamine, galactose, mannose and sialic acid, while those in the fractions with high affinity for this lectin (FC and FD) were glucosamine, glucose and mannose. All the fractions contained glycine, aspartic acid (and/or asparagine), serine, proline, threonine, glutamic acid (and/or glutamine) and alanine as the major amino acids, amounting to approximately 80% of the total.     

Subcellular Localization of the Enzymes of the Arginine Dihydrolase Pathway in Trichomonas vaginalis and Tritrichomonas foetus

The enzymes of the arginine dihydrolase pathway were demonstrated in Tritrichomonas foetus and their subcellular localization determined for both T. foetus and Trichomonas vaginalis. Ornithine carbamyltransferase (anabolic and catabolic activities), ornithine decarboxylase and carbamate kinase activity were localized predominately (56–80%) in the non sedimentable fraction of both species. A large proportion (35–40%) of the arginine deiminase was, however, recovered in the large granular fraction, and this distribution was unchanged by increasing the ionic strength of the buffer. Upon density gradient centrifugation the particles containing arginine deiminase activity had an isopycnic density of 1.09 g/ml in percoll, and separated from hydrogenosomes (1.18 g/ml) and lysosomes (1.12 g/ml). Arginine deiminase was also the only enzyme of the dihydrolase pathway which demonstrated latency upon treatment of the 1.09 g/ml fraction with non-ionic detergents. The results demonstrate the presence of the arginine dihydrolase pathway in T. foetus and indicate that at least a portion of the arginine deiminase in trichomonads is membrane associated.     

Acid hydrolases in the suckling rat small intestine I. Fractionation of mucosal homogenates

Synopsis Small intestine mucosal homogenates of suckling rats have been fractionated by centrifugation and analyzed for acid hydrolases and for biochemical markers of subcellular organelles. The results indicate that the acid hydrolases are associated with particles having sedimentation properties similar to those of mitochrondria. The acid hydrolases exhibited latent activity. Subfractionation on a continuous density gradient of sucrose in deuterium oxide demonstrated that these enzymes are associated with particles distinct from other subcellular organelles. Electron micrographs of the acid hydrolase-rich region of the gradient show the presence of numerous small electron dense bodies bounded by a unit membrane.     

Cathepsin D of mouse leukemia L1210 cells. Unusual intracellular localization and biochemical properties.

Mouse leukemia L1210 cells contain lysosomes, but cathepsin D, a typical lysosomal enzyme, has an unusual localization. After fractionation of homogenates of L1210 cells by isopycnic density gradient centrifugation, most of the activity for all of the acid hydrolases studied, except cathepsin D, is sedimentable and shows a similar density distribution around a peak having a modal density of 1.16. In contrast, much more of the total activity for cathepsin D is not sedimentable, while the sedimentable activity has a distribution around a peak at a higher density of 1.18. After chromatography on Sephadex G-100 of cell extracts, two molecular weight forms of cathepsin D are found. One has an apparent molecular weight of approx. 45,000, similar to rat liver cathepsin D, while the apparent molecular weight of the second form is approx. 95,000. Both forms are 4-5 times more active than rat liver cathepsin D. The high molecular weight L1210 cathepsin D converts to the low molecular weight form with no loss in activity after treatment with beta-mercaptoethanol. In all respects the unusual intracellular localization and molecular weight forms of cathepsin D in mouse leukemia L1210 cells are similar to the situation found for rat thoracic duct lymphocytes.     

Subcellular Distribution of Enzymes in Ochromonas malhamensis*

SYNOPSIS. The activity and distribution of 7 enzymes in Ochromonas malhamensis were studied. Subcellular organelles were separated by centrifugation at 648,000 g min to precipitate the larger particles; the resulting supernatant was centrifuged at 5,560,000 g min to separate the microsomal fraction from the supernatant. Sixty-four percent of the cytochrome oxidase (1.9.3.1 ferrocytochrome c:oxygen oxidoreductase, 81% of the catalase (1.11.1.6 hydrogen-peroxide: hydrogen-peroxide oxidoreductase) and 70% of the urate oxidase (1.7.3.3 urate:oxygen oxidoreductase) activity was associated with the larger particles, altho only 20% of the total protein was found in this fraction. Three acid hydrolases, cathepsin (3.4.4.9 cathepsin C, acid phosphatase (3.1.3.2 orthophosphoric monoesterphosphohydrolase) and acid ribonuclease (2.7.7.17 ribonucleate nucleotido-2′-transferase) were found mostly in the supernate (50-60%, yet their latency and their similar subcellular distribution indicated the presence of lysosomes. After 2.5 hr centrifugation in a sucrose density gradient (ρ= 1.08–1.25, the acid hydrolases showed a broad distribution which differed greatly from cytochrome oxidase associated with mitochondria. Catalase, which could not be separated from cytochrome oxidase by centrifuging on this gradient, had a different distribution after centrifugation on a kinetic gradient. Urate oxidase had a similar distribution to catalase and both these enzymes were latent, indicating the presence of peroxisomes.     

The lysosomes of earthworm chloragocytes: biochemical and morphological characterization

Nine latent and sedimentable acid hydrolases have been detected in the homogenates of earthworm chloragocytes. Their full activity was revealed by treatment with Triton X-100, a Waring blender treatment, freezing and thawing, hypotonic media or incubation at pH 5 and 25 degrees C. Solubilization paralleled the activation of the enzymes. Together with kinetic studies, these results indicate that the acid hydrolases of the chloragocytes are inside typical lysosome-like particles whose membrane is impermeable to their substrates. It could be shown by density equilibration centrifugation that the lysosomes of those cells constitute a heterogeneous population of subcellular particles distinct from the chloragosomes. Moreover, their digestive function has been directly demonstrated by the capture and degradation of serum albumin. The lysosomes of the chloragocytes have been clearly identified as polyvesicular bodies by electron microscopic analysis of the fractions obtained by density equilibration centrifugation and by examination of the whole tissue, as such or after endocytosis of serum albumin or ferritin. Finally, our results do not support a possible relationship between the lysosomes and the chloragosomes of the chloragocytes.     

Distribution of acid hydrolases in subcellular fractions of proliferating vs non-proliferating fibroblasts

We have employed colloidal silica (Percoll) density-gradient subcellular fractionation technique to examine the distribution of lysosomal hydrolases between intermediate vesicles (primary lysosomes) and secondary lysosomes in contact-inhibited non-proliferating vs proliferating chicken embryo fibroblasts. We find that the activities of lysosomal specific enzymes from both phases of growth are distributed within two peaks; however, the relative amounts differ markedly. In normal, non-proliferating cells approx. 60% of the total activities of cathepsin B, beta-mannosidase, alpha-fucosidase, beta-galactosidase and hexosaminidase is recovered in the heavier density fraction corresponding to secondary lysosomes, while less than 9% of the enzyme activities are recovered in the light-density peak. With transformed cells, between 16 and 22% of activity for these enzymes are recovered in the lighter density intermediate vesicle fraction, when less than 40% of the enzyme activities recovered in the heavy density fraction. beta-Glucuronidase distribution was different from that of the above enzymes. First, a more even distribution between the two lysosomal fractions was found with non-proliferating normal cells (33% in heavy-density fraction and 21% in light-density fraction), whereas more than 40% of the total enzyme activity was recovered in the lighter density fraction from transformed cells. Also, the amount of cathepsin B contained in the vesicle fractions is increased severalfold relative to that of contact-inhibited normal cells. However, the apparent differences in enzyme distribution between confluent normal and transformed cells are not found when vesicles are prepared from subconfluent, actively proliferating cultures. We have also compared the Percoll density gradient patterns of membrane vesicles from proliferating and non-proliferating human fibroblasts, since most earlier studies utilized this system. Again, we find that the majority of beta-hexosaminidase activity (41%) of contact-inhibited, confluent cells is recovered in the heavier density fraction with less than 15% in the lighter density fraction. Also, the distribution of beta-hexosaminidase between the heavy density and light density vesicle fractions is altered in homogenates from exponentially growing cells, being 22% and 26% respectively. We conclude that the distribution of lysosomal hydrolases between the two vesicle populations is growth-phase dependent and is markedly heterogeneous in proliferating cells.     

Studies on the structure-bound sedimentability of some rat liver lysosome hydrolases

1. Lysosome-rich fractions from rat liver were subjected to several disruptive procedures: osmotic lysis or freezing and thawing in different media, shearing forces in a high-speed blender, treatment with Triton X-100. 2. The soluble and particulate phases were then separated by high-speed centrifugation and assayed for their content of acid phosphatase, β-galactosidase, β-N-acetylglucosaminidase, acid proteinase, acid ribonuclease, acid deoxyribonuclease and protein. 3. The degree of elution of these hydrolases appeared to depend on both the enzyme species and the treatment. The resulting patterns of solubilization were rather complex, so that a clear-cut discrimination between soluble and structure-bound enzymes could not always be traced. 4. Although only β-galactosidase was readily solubilizable after all treatments, acid proteinase could also be extensively eluted from the sedimentable material in the presence of EDTA and acid phosphatase was fully extracted by Triton X-100. On the other hand, considerable proportions of the other activities could not be solubilized by any of the procedures used. 5. In other experiments, the adsorbability of hydrolases on subcellular structures was investigated by measuring the partition between sedimentable particles and soluble fraction of solubilized enzymes added to `intact' liver homogenates. 6. Large proportions of acid proteinase, ribonuclease and deoxyribonuclease, and almost all of β-N-acetylglucosaminidase, were found to be adsorbed on the particulate material.     

Partial purification and properties of microsomal phosphatidate phosphohydrolase from rat liver.

Microsomal phosphatidate phosphohydrolase (phosphatidate phosphatase EC 3.1.3.4) was solubilized and fractionated to yield at least two distinct enzymatically active fractions. One, denoted FA, was non-specific, had a relatively high Km for phosphatidic acid and was insensitive to inhibition by diacylglycerol. The second fraction, FB, was specific for phosphatidates, had a low Km, and was inhibited, non-competitively, by diacylglycerol. FA exhibited a sigmoid substrate-activity curve. The isolated FB aggregated to particles of about 10(6) in the absence of salts and could be dissociated by the addition of monovalent cations at ionic strength 0.4-0.6 to about 2-10(5) daltons and thereby doubled its activity. Dissociation was time- and temperature-dependent. F- was inhibitory. Divalent ions were not required for the activity of FA or FB and inhibited at concentrations exceeding 1 mM.     

Biochemical studies of taste sensation XI. Isolation,characterization and taste ligand binding activity of plasma membranes from catfish taste tissue

Plasma membranes were isolated from taste receptor-containing epithelium of the channel catfish, Ictalurus punctatus. The membranes were prepared by ultracentrifugation of a sedimentable fraction in sucrose, using either a discontinous density gradient or a continous linear density gradient. The plasma membranes were characterized by their increased content of 5′-nucleotidase and by electron microscopy, as well as by a greatly diminished content of NADH-cytochrome c reductase and succinate-cytochrome c reductase. The recovery of binding activity for taste ligands was low, because of the long time-period required for ultracentrifugation, but of the recovered activity 80% occurred in the plasma-membrane preparation. Binding of seven chemostimulatory amino acids was demonstrated and found to correspond reasonably well with earlier binding data obtained using a less pure sedimentable fraction. The data provide direct evidence supporting the long-standing hypothesis that taste receptor sites are localized to the plasma membranes.     

Biochemical characterization of lysosomes in unfertilized eggs of Xenopus laevis.

Relations between lysosomes and yolk platelets of amphibian eggs have been suggested. This work demonstrates the presence of acid hydrolases in oocytes induced to ovulate in vitro. About 40% of the acid hydrolases are found in a sedimentable fraction, and, in accordance with the lysosomal concept, they display structural latency. Biochemical data did not indicate any association between lysosomal enzymes and yolk platelets. The mechanism of yolk resorption is discussed and it is suggested that the fusion of lysosomes and yolk platelets might be one of the mechanisms involved in yolk digestion.     

Selective release of lysosomal hydrolases from phagocytic cells by cytochalasin B

1. Cytochalasin B (10mug/ml) enhances the release of rabbit polymorphonuclear leucocyte lysosomal acid hydrolases induced by retinol (vitamin A alcohol). 2. This effect is seen at doses of the vitamin that cause selective release of acid hydrolases and those causing more general enzyme release indicated by the loss of lactate dehydrogenase. 3. Cytochalasin B (2-50mug/ml) has no effect on the release of sedimentable acid hydrolases of intact granules obtained from disrupted polymorphonuclear leucocytes. 4. Cytochalasin B (2-10mug/ml) causes a time- and dose-dependent release of mouse peritoneal macrophage acid hydrolases. 5. This effect is selective at all doses of cytochalasin B used, since no release of lactate dehydrogenase, malate dehydrogenase and leucine 2-naphthylamidase was detected. 6. Treatment with cytochalasin B at doses of up to 10mug/ml for as long as 72h did not significantly change the total activities of any of the enzymes measured. 7. The lack of toxicity of cytochalasin B was shown by dye-exclusion tests and its failure to release radioactive colloidal gold stored in secondary lysosomes.     

Isolation and partial characterization of chick brain synaptic plasma membranes.

An isolation procedure for synaptic plasma membranes from whole chick brain is reported that uses the combined flotation-sedimentation density gradient centrifugation procedure described by Jones and Matus (Jones, D. H. and Matus, A. I. (1974) Biochim. Biophys. Acta 356, 276-287) for rat brain. The particulate of the osmotically shocked and sonicated crude mitochondrial fraction was used for a flotation-sedimentation gradient step. Four fractions were recovered from the gradient after 30 min centrifugation. The fractions were identified and characterized by electron microscopy and by several markers for plasma membrane and other subcellular organelles. Fraction 2 was recovered from the 28.5-34% (w/v) sucrose interphase and contained the major part of the activities of the neuronal plasma membrane marker enzymes. The specific activities of the (Na+ +K+)-activated ATPase (EC 3.6.1.3), acetylcholinesterase (EC 3.1.1.7) and 5'-nucleotidase (EC 3.1.3.5) were, respectively, 4.5, 2.0 and 1.2 times higher than in the homogenate. However, Fraction 2 also contained considerable amounts of activities of putative lysosomal and microsomal markers in addition to lower amounts of mitochondrial and myelin markers. Although no prepurification of synaptosomes from the crude mitochondrial fraction was performed, the synaptic plasma membranes obtained showed many properties analogous to similar preparations from rat brain described in recent years.     

A study of some acid hydrolases in the liver of the larval and adult lamprey

Summary The authors studied the behaviour of two acid hydrolases (phosphatase and proteinase) in the liver of the larval form (ammocoetes), of the starved larva, and of the adult lamprey (Lampetra zanandreai, Vladykov). In the homogenates of liver of ammocoetes in 0.25 M sucrose the enzymatic activities are largely sedimentable (phosphatase 67%; proteinase 56%). In the starved ammocoetes and in the adult lamprey the percentage of sedimentable activity gradually falls (phosphatase 46% and proteinase 52% in the starved ammocoetes; phosphatase 44% and proteinase 49% in the adult lamprey) whilst there is a corresponding gradual increase in free activity (phosphatase: from 24% in the normal ammocoetes to 39% in the starved ammocoetes and 50% in the adult lamprey; proteinase: from 25% in the normal ammocoetes to 35% in the starved ammocoetes and 54% in the adult lamprey). The action of detergent Triton X-100 causes an equal distribution of hydrolases activity in the three conditions of the liver.Only 25% of the sedimentable acid glycerophosphatase is accessible to the substrate in the ammocoetes, whilst in the starved ammocoetes and in the adult lamprey accessibility rises to 80%.The results we have discussed show that at metamorphosis and during fasting the lysosomes undergo such changes as to determine an actual intracellular release of the acid hydrolases studied.This work is dedicated to the memory of Prof. Giuseppe Zanandrea S. J., who greatly helped us with his advice.     

Calcium transport in isolated bone cells. I. Bone cell isolation procedures

Differential centrifugation of homogenates of Harding-Passey melanoma demonstrated that aryl sulfatase A and β-glucuronidase sediment with particles (i.e., lysosomes) distinct from those particles bearing tyrosinase (i.e., melanosomes). The sedimentation curves for the lysosomal enzymes and tyrosinase, however, demonstrated that an adequate separation of these particle types could not be obtained by differential centrifugation. Isopycnic density gradient centrifugation was used to obtain the necessary resolution. The results of the density gradient studies demonstrated that lysosomes and melanosomes could be separated by this technique, as judged by enzyme distribution among the fractions recovered from the gradients and from electron microscopic examination of the melanosome fractions. It was further evident that the purified and washed melanosomes contained significant amounts of both acid hydrolase activities. Indeed 24% to 27% of the total acid hydrolase activities recovered from the density gradients were associated with the melanosome fractions. The acid hydrolases associated with the melanosomes could not be solubilized by treatment with 0.1% (v/v) Triton X-100, nor by exposure to hypo-osmotic shock. The melanoma lysosomes, however, did release most of both their hydrolase activities into soluble form after treatment with the same percentage of detergent. The lysosomes were, however, very resistant to rupture by exposure to hypo-osmotic conditions.