Immunocytochemical localization of lysosomal acid phosphatase in normal and "I-cell" fibroblasts

This study represents the first example of immunological localization of lysosomal acid phosphatase. The intracellular localization of lysosomal acid phosphatase was investigated with immunocytochemical methods at the light and electron microscopical level in cultured fibroblasts obtained from normal subjects and from a patient with I-cell disease. Double-labeling studies using fluorescence microscopy showed that acid phosphatase is present in the same organelles as other hydrolases. At the electron microscopic level in control fibroblasts acid phosphatase was found in the rough endoplasmic reticulum, lysosomes, at the plasma membrane, in vesicles just below the plasma membrane and in multivesicular bodies. This localization was comparable with that of other lysosomal enzymes tested (acid alpha-glucosidase, N-acetyl-beta-hexosaminidase, beta-galactosidase). Acid phosphatase labeling was mainly found in association with the lysosomal membrane and with membranous material present within the lysosome. In I-cell fibroblasts the label was present in the same subcellular organelles but always associated with membranous structures. We suggest that the association of acid phosphatase with membranes might explain the normal enzyme activity found in I-cell fibroblasts.     

Changes in acid phosphatase activity in rat liver after ischemia

The effect of ischemia on the stability, i.e. the permeability of the lysosomal membrane of rat liver has been studied using quantitative histochemical analysis of acid phosphatase activity. Ischemia in vitro was performed for 0-240 min at 37 degrees C and ischemia in vivo for 60 min was followed by 1, 5, 24 and 48 h of reperfusion. Acid phosphatase activity was demonstrated in cryostat sections using naphthol AS-BI phosphoric acid as substrate and polyvinyl alcohol was added to the incubation medium to counteract diffusion phenomena. Ischemia in vitro up to 240 min did not affect the localization nor the total activity of acid phosphatase activity. After 60-min ischemia in vivo followed by 1-h reperfusion distinct areas showed decreased acid phosphatase activity. A further decrease in activity was observed after 5 h reperfusion. Final reaction product generated by acid phosphatase activity was rather diffusely distributed in border zones between normal and damaged tissue after 24 and 48 h of reperfusion following 60 min ischemia in vivo. It is concluded that not ischemia itself but rather reperfusion affects the stability of the lysosomal membrane due to the occurrence of oxygen-derived free radicals and/or imbalanced Ca2+ concentration. Restoration of the blood flow causes leakage of acid phosphatase from the lysosomes into the cytoplasm of liver parenchymal cells and from there to the blood.     

Changes in acid phosphatase activity in rat liver after ischemia

Summary The effect of ischemia on the stability, i.e. the permeability of the lysosomal membrane of rat liver has been studied using quantitative histochemical analysis of acid phosphatase activity. Ischemia in vitro was performed for 0–240 min at 37° C and ischemia in vivo for 60 min was followed by 1, 5, 24 and 48 h of reperfusion. Acid phosphatase activity was demonstrated in cryostat sections using naphthol AS-BI phosphoric acid as substrate and polyvinyl alcohol was added to the incubation medium to counteract diffusion phenomena. Ischemia in vitro up to 240 min did not affect the localization nor the total activity of acid phosphatase activity. After 60-min ischemia in vivo followed by 1-h reperfusion distinct areas showed decreased acid phosphatase activity. A further decrease in activity was observed after 5 h reperfusion. Final reaction product generated by acid phosphatase activity was rather diffusely distributed in border zones between normal and damaged tissue after 24 and 48 h of reperfusion following 60 min ischemia in vivo. It is concluded that not ischemia itself but rather reperfusion affects the stability of the lysosomal membrane due to the occurrence of oxygen-derived free radicals and/or imbalanced Ca²⁺ concentration. Restoration of the blood flow causes leakage of acid phosphatase from the lysosomes into the cytoplasm of liver parenchymal cells and from there to the blood.     

Quantitative histochemical study of acid phosphatase activity in rat liver using a semipermeable membrane technique

Acid phosphatase activity has been demonstrated in rat liver with the semipermeable membrane technique using naphthol AS-BI phosphate as substrate and hexazotized pararosaniline (HPRA) as simultaneous coupling agent. With this method the final reaction product (FRP) appeared in rat liver as intensely colored red granules in liver parenchymal cells and in Küpffer cells. The absorbance spectrum of the FRP peaks between 510 and 550 nm. A nonspecific reaction product, as has been found in skeletal muscle, did not occur in rat liver. A substrate concentration of 5 mM and a HPRA concentration of 10 mM result in optimum localization and activity. We concluded from the results with different enzyme inhibitors that lysosomal acid phosphatase was demonstrated. The mean absorbance of the FRP increased linearly with incubation time (15-60 min). Furthermore, we found a linear increase of the FRP with increasing section thickness (4-10 micron). When the simultaneous coupling method was replaced by a post-coupling technique, the colored reaction product was diffusely located throughout the cytoplasm. In conclusion, the simultaneous coupling technique in combination with the semipermeable membrane method is a valuable tool for detecting and quantifying lysosomal acid phosphatase activity in rat liver. We demonstrated that acid phosphatase activity is 1.2 times higher periportally than pericentrally in rat liver, and that 24 hr fasting before the experiments did not change the acid phosphatase activity.     

Evaluation of histochemical observations of activity of acid hydrolases obtained with semipermeable membrane techniques: a combined histochemical and biochemical investigation 2. The biochemical investigation and comparison with the histochemical observations.

The reliability of enzyme histochemical semipermeable membrane techniques for the demonstration of acid hydrolases was investigated with a combined histochemical and biochemical study. In part 1 the histochemical findings were presented. In this communication the biochemical findings are reported and compared with the histochemical findings. In m. soleus, m. plantaris, m. gastrocnemius and diaphragm of vitamin E deficient rabbits the activity of the lysosomal acid hydrolases, cathepsin D, acid maltase, acid phosphatase and beta-glucuronidase is significantly increased. This increase in activity of the investigated acid hydrolases was equal for muscles with an aerobic or an anaerobic metabolism. By means of statistical calculations the activity of the enzymes demonstrated with histochemical techniques was compared with the enzyme activity determined with biochemical techniques. From the results of this investigation it can be concluded that the histochemical semipermeable membrane techniques for the demonstration of activity of acid hydrolases are very reliable. Considering the fact that these techniques are also tissue-saving, they are therefore extremely suitable for the study of catabolic wasting processes in skeletal muscle tissues of patients with inherited or acquired muscular diseases.     

Demonstration of lysosomal and extralysosomal sites for acid phosphatase in mouse kidney tubule cells with p-nitrophenylphosphate lead-salt technique.

Dual localization of acid phosphatase in lysosomal and extralysosomal sites of the tubule epithelial cells of normal mouse kidney was observed at the light and electron microscope level using a modified Gomori lead-salt method with p-nitrophenylphosphate (pNPP) as substrate. Based on previous biochemical and cytochemical findings, we developed optimal conditions for the enzyme activity in extralysosomal sites. The conditions used for the light microscopic level consisted of 1.5 mM PNPP, 2.0 MM Pb(NO3)2 and 0.05 M acetate buffer (pH 5.8). Those for the electron microscopic study required 3.0 mM PNPP, 3.6 MM Pb(NO3)2 and 0.1 M acetate buffer (pH 5.8). This modified lead-salt technique was highly specific and provided a suitable method for the demonstration of nonlysosomal as well as lysosomal sites of acid phosphatase activity in the tubule epithelial cells of normal mouse kidney. As expected, the enzyme activity appeared in the lysosomes, but the prominent reaction in the brush border, the rough endoplasmic reticulum and basal infolding plasma membranes was not anticipated. We were able to demonstrate in situ organelle precursors of microsomal acid phosphatase such as endoplasmic reticulum, plasma membrane and basal infolding membranes showing the same substrate preference, which had been observed previously in biochemical studies in our laboratory. Since the possible participation of alkaline phosphatases, K+-pNPPase or Na+-K+-adenosine triphosphatase was ruled out by use of appropriate inhibitors, the enzyme-reactive sites can be interpreted as reflecting nonspecific acid phosphatase.     

Histochemical study of a number of hydrolases,including a new acid phosphatase,in various tissues of men and mice

Summary Two acid phosphatases have been demonstrated histochemically in mouse ventral prostate, seminal vesicles, coagulating glands, and liver and in human prostate. The first is the lysosomal acid phosphatase demonstrable by the Gomori technique. The second differs from thisβ-glycerophosphatase in that it splits naphthol AS phosphates but notβ-glycerophosphate; it has a different histochemical pH optimum and it is not inhibited by MoO₄ or NaF. The enzyme does not represent the “tail” of alkaline phosphatase activity as it is not inhibited by inhibitors of alkaline phosphatase and it has a different localization in liver and in human prostate. The enzyme may be membrane-bound but a lysosomal localization has still to be confirmed.     

A quantitative method for measurement of lysosomal acid phosphatase latency in cultured rat heart cells with 210Pb

Synopsis A method is described for measuring the latency of lysosomal acid phosphatase in cultured rat heart endotheloid cells.²¹⁰Pb was added to a medium used to demonstrate acid phosphatase activity by the Gomori lead method, and the amount of lead deposited was measured with a liquid scintillation counter. Deposition rates were measured after enzyme activation pretreatments with acetate buffer (pH 5.0) at various osmolalities, and after formaldehyde fixation. Formaldehyde, alloxan, or fluoride in the Gomori medium were evaluated for their differential effects on lysosomal and non-lysosomal acid phosphatase. The method was found to provide a sensitive, rapid and quantitative evaluation of acid phosphatase latency and should be useful for studying the integrity of lysosomes within cells.     

Effect of 2-deoxyglucose on lysosomal enzymes in cultured human skin fibroblasts

Addition of 2-deoxyglucose, an inhibitor of glycosylation of proteins, to the medium of confluent cultures of human skin fibroblasts prevents the increase in specific activity of lysosomal enzymes that normally occurs after confluence. Maximal inhibition is obtained at a concentration of about 1 mM 2-deoxyglucose. The inhibition by 2-deoxyglucose is reversible. The K_m, pH dependence and electrophoretic mobility of the acid hydrolases tested was the same in cells cultured with or without 2-deoxyglucose. In homogenates of cultured human skin fibroblasts, about 95% of the β-hexosaminidase and α-galactosidase activity and about 65 % of the acid phosphatase activity with β-glycerolphosphate as substrate binds to concanavalin A (ConA); 2-deoxyglucose affects only the activity able to bind to ConA. In cells cultured in the presence of 2-deoxyglucose, the specific activity of alkaline phosphodiesterase I, a plasma membrane glycoprotein is lowered. 2-Deoxyglucose has no effect on the specific activity of succinate dehydrogenase, lactate dehydrogenase or total cellular protein.     

Lead induced injury on in vitro cultured rat fibroblasts

Summary The mechanism for lead induced cellular injury was studied on in vitro cultured rat fibroblasts, treated with lead in a dose that caused demonstrable cellular alterations within a couple of days. The changes were studied by means of methods for the histochemical demonstration of heavy metals and lysosomal membrane latency.The lead, added to the cultivation medium, was quickly incorporated into presumed secondary lysosomes of the fibroblasts and caused regressive cellular changes such as cytoplasmic vacuolization, nuclear pycnosis and eventually cell death. The lead exposure resulted in reduced lysosomal membrane latency and signs of enzyme and lead leakage to the cytoplasm.The cell damage might be mediated through lysosomal membrane alteration resulting in reduced latency and presumably leakage of lytic enzymes.Supported by the Swedish Medical Research Council (grant no 12 X-2037).     

Ecto-ganglioside-sialidase activity of herpes simplex virus-transformed hamster embryo fibroblasts

Cellular location of ganglioside-sialidase activity was determined in confluent hamster embryo fibroblasts transformed with herpes simplex virus type 2. Approximately equal specific activities of ganglioside-sialidase activity were found to be associated with the crude lysosomal and crude plasma membrane fractions isolated from whole cell homogenates. Whole transformed cells hydrolyzed exogenous ganglioside substrate, suggesting a partial location of the cellular sialidase on the outer surface of the plasma membrane of these cells. Intact cells were treated with the diazonium salt of sulfanilic acid, a nonpenetrating reagent inhibitory to ecto-enzymes (DePierre, J.W., and M. L. Karnovsky. 1974. J. Biol. Chem. 249:7111-7120). Cytoplasmic lactate dehydrogenase activity was not inhibited by this treatment, and mitochondrial succinate dehydrogenase activity was inhibited only 10%, indicating that intracellular enzymes were not affected. 5'-Nucleotidase activity was diminished 90%, and sialidase very rapidly lost 40% of its exogenously directed activity. These results show that, in herpes simplex virus-transformed fibroblasts, ganglioside-sialidase is both a lysosomal and a plasma membrane enzyme. The plasma membrane sialidase is capable of acting on endogenous plasma membrane sialolipids and also functions in the cultured transformed cell as an ecto-enzyme which can attack exogenous substrates.     

Hepatotoxic effect of metallic pollutants on enzyme histochemical activities of yellow-legged gull Larus cachinnans michahellis liver.

We studied the hepatotoxic effect of heavy metals (cadmium, mercury, copper) on Mg2+ -ATPase, NADH diaphorase, succinic dehydrogenase and acid phosphatase of yellow-legged gull liver, using enzyme histochemical methods. The lysosomal enzyme activity of acid phosphatase was increased in all cases. However, the other enzyme activities appeared to be insensitive to the different metallic pollutants and to their respective levels, in contrast with literature experimental data showing plasma membrane and mitochondrial alterations. This controversy could be explained by the differences in dietary conditions and metal overloads. The molecular basis of the toxicities of metallic pollutants is discussed.     

Cytochemical determination of acid phosphatase activity in isolated rat hepatocytes during starvation-induced proteolysis

Summary Acid phosphatase activity in isolated rat liver parenchymal cells has been investigated with quantitative histochemical means during short-term starvation, which leads to a considerable loss in protein mass in the parenchyma. Animals trained to a meal-feeding regime in which food was available during 1 h only per 24 h (using an automatic food dispensing machine), were sacrified 6, 12, 18, 24 and 36 h after food had been withheld at the time point (23.00 h) of meal feeding. Acid phosphatase activity was analysed cytophotometrically in isolated hepatocytes incorporated into polyacrylamide gels before the enzyme reaction technique with the post-azo coupling was carried out. No indication could be found for any significant changes in the amount of acid phosphatase activity per individual hepatocyte during the entire period of fasting, as compared with two time points (11.00 and 23.00 h) before the theoretical onset of fasting. It is concluded that the considerable enhancement of protein degradation in the lysosomal apparatus during fasting is not reflected by changes in the cellular acid phosphatase activity.     

Adult forms of glycogenosis type II. A defect in an early stage of acid alpha-glucosidase realization

The activity of acid alpha-glucosidase in cultured fibroblasts from adult patients with the lysosomal storage disease glycogenosis type II is only 10% of normal. A normal activity per molecule is found for the mature as well as for the precursor form of acid alpha-glucosidase in adult mutant fibroblasts. Excessive lysosomal breakdown of mature enzyme purified from mutant fibroblasts and taken up by acceptor cells does not occur. However, the NH4Cl-stimulated secretion of a precursor form of acid alpha-glucosidase by adult mutant fibroblasts is markedly reduced. The results are indicative of a defect during the production of acid alpha-glucosidase.     

Soluble and membrane-bound enzyme-active antigens of rat-liver lysosomes.

Secondary lysosomes were isolated from rat liver and separated into a soluble and a membrane fraction. Plasma membranes and microsomes were also isolated and antisera against the various fractions were prepared in rabbits. Lysosomal content and detergent-solubilized membrane fractions were analysed in two-dimensional immunoelectrophoresis (crossed immunoelectrophoresis). The immunoprecipitates were stained by histochemical procedures for different enzyme activities such as phosphatases, non-specific esterase, arylsulphatase, glycosidases and L-leucyl-beta-naphthylamidase. When lysosomal content was tested against its corresponding antiserum, 17 different precipitates could be seen. Most of the enzyme activities tested were shown to reside separately in one or a few precipitates each. In contrast, when the membrane extracts were investigated, a more polymorphic pattern of enzyme-active precipitates appeared. Thus, when lysosomal membrane extracts were reacted with homologous antiserum 11 precipitates with acid phosphatase activity were obtained. Several of the antigens were electrophoretically different and immunologically non-identical. As expected from the biology of secondary lysosomes, many of their antigens were also found in microsomes and/or plasma membranes, but several antigens unique for lysosomes were detected concomitantly. Closer analysis of these results indicated that several seemingly identical enzyme-active proteins occurred both in soluble and membrane-associated forms. However, while many of the membrane antigens expressed 2-4 different enzyme activities, only one activity was detected in individual precipitates of the lysosomal content. Thus, acid phosphatase activity was found together with esterase activity in three membrane-associated antigens. The precipitates formed by two of these also stained for arylsulphatase and nucleoside tri-, di- and monophosphatase activities. L-Leucyl-beta-naphthylamidase activity was found in one additional acid-phosphatase-active precipitate.     

A comparison between osmiophilic reagents and the Gomori lead method for the electron cytochemical demonstration of two lysosomal enzymes in oral epithelium

Synopsis Osmiophilic reagents were used to study the histochemical localization of acid phosphatase and non-specific esterase in the keratinized oral mucosa of rat. The reaction product from both enzymes was found in the epithelium and in cells of the corium as discrete granules, suggestive of a lysosomal localization. Treatment with E-600 before incubation for non-specific esterase did not change this localization. The osmium black end-product, due to acid phosphatase activity, was examined with the electron microscope and compared with the localization obtained by the Gomori lead phosphate technique. Both methods produced a reaction product in membrane-bounded bodies resembling lysosomes, as described in other tissues. These organelles were present in the basal prickle and granular cell layers of the epithelium. In the keratinized layer the reaction product was localized between the cell membranes of the deeper cells and no deposits were present in the cells. It is suggested that the osmiophilic reagents provide a good alternative to the Gomori method for the localization of lysosomal acid phosphatase at both the light and electron microscope levels.     

Electrophoretic abnormalities of lysosomal enzymes in mucolipidosis fibroblast lines.

Electrophoretic properties of eight lysosomal hydrolases and 36 nonlysosomal enzymes were investigated in cultured fibroblasts from children with the inherited storage disease mucolipidosis II (ML II); fibroblasts from a child with a related disorder, mucolipidosis III (ML III); and two obligate heterozygous cell lines from parents of a ML II child. Cell homogenates of ML II fibroblast lines showed altered mobilities for lysosomal beta-hexosaminidase, acid phosphatase2, and alpha-mannosidase and deficient activity for the esterase-A4 and lysosomal alpha-mannosidase-B electrophoretic phenotypes. Altered mobility was also detected for the nonlysosomal enzyme adenosine deaminase-d. Deficient activities of other lysosomal enzymes were observed as previously reported. In a single ML III fibroblast line, only beta-hexosaminidase showed an abnormal electrophoretic pattern suggesting a difference between these cells and ML II fibroblasts. Thirty-five nonlysosomal enzymes associated with other cellular organelles and metabolic pathways were electrophoretically normal in all mucolipidosis cell lines. Heterozygous ML II cells showed normal expression for all enzymes. Two major patterns of altered lysosomal enzymes and adenosine deaminase were demonstrated in ML II cell lines, suggesting that at least two genetic forms of this disorder may exist. Neuraminidase treatment of ML II homogenates converted altered forms of acid phosphatase2 and adenosine deaminase-d and in two ML II lines, recovered the previously undetected lysosomal alpha-mannosidase band. These results are consistent with the mucolipidosis defect(s) being associated with abnormal post-translatinal processing of multiple lysosomal enzymes and adenosine deaminase-d.     

Sodium butyrate induced alterations in lysosomal enzyme activity

Summary Treatment of cultured HeLa cells with 5 mM sodium butyrate causes an inhibition of growth as well as extensive chemical and morphological differentiation. Lysosomal enzyme activity changes have been associated with both normal and neoplastic growth as well as many aspects of the neoplastic process. The comparative ultrastructural results show that the butyrate-treated cells have a more extensive internal membraneous system than the untreated cells, whereas other organelles seem unaffected by the butyrate treatment. Methods for the histochemical localization of lysosomal acid phosphatase show a twofold increase in particulate reaction product in the butyrate-treated HeLa cells. Isolation of lysosomes followed by a comparative enzyme analysis shows a two to three fold increase in acid phosphatase activity per cell after 24 h of butyrate treatment, as well as three to four fold increase in β-glucuronidase activity. These increases reverse within 24 h of removal of the butyrate from the culture medium. These results as interpreted suggest that butyrate treatment may be preventing sublethal autolysis by arresting the leakage of the lysosomal enzymes from the lysosome into the cytosol and thus allowing the cell to chemically and morphologically differentiate. This work was supported by National Institute of Health Grant HD 14085-03.     

Induction of apoptosis in human replicative senescent fibroblasts

Cellular senescence is an irreversible growth phase characteristic of normal cells. We have found that human senescent fibroblasts can be induced to undergo programmed cell death (apoptosis) by ceramide, TNF-alpha, or okadaic acid. The most profound effects were induced by TNF-alpha and okadaic acid treatment. In the present study, we also evaluated the contribution of lysosomal activation as a possible mechanism underlying the induction of apoptosis. Four lysosomal enzyme activities were measured: beta-galactosidase, alpha-galactosidase A, beta-glucoronidase, and acid phosphatase. Using an in situ assay, we have found that the activity of beta-galactosidase, which is also a biochemical marker of senescence, is induced in young proliferating fibroblasts following exposure to all three apoptotic inducing agents. The other enzymes were not significantly induced in young fibroblasts following exposure to agents that induce apoptosis. During replicative senescence, three of the four lysosomal enzymes tested (beta-galactosidase, alpha-galactosidase A, and beta-glucoronidase) are constitutively expressed at high levels. TNF-alpha was the only agent that induced lysosomal activity in senescent fibroblasts, of which only alpha-galactosidase A activity was induced. Our studies show that senescent fibroblasts can be induced to undergo apoptosis in a signal-dependent manner. However, the lysosomal enzymes examined do not appear to be correlated with apoptotic induction.     

Histochemical and biochemical studies on the localization and activity of lysosomal enzymes in fracture callus

Summary Quantitative biochemical studies on the activities of four lysosomal hydrolases during different stages of fracture healing in the rat were performed, and the results obtained were integrated with those of histochemical observations relating to changes in the localization of acid phosphatase in the same tissue.The findings showed presence of all the four lysosomal enzymes assayed in the callus; during early callus formation the enzyme activities calculated on a DNA basis increased up to about 12 days after the fracture. The enzyme activities appeared to be roughly reflected histochemically by the acid phosphatase staining. The increasing activity during early callus formation seemed to depend on the presence of numerous macrophage-like cells in the tissue containing many large lysosomes. A decrease in enzyme activity was found after day 12. Comparison with the histochemical and ultrastructural findings suggested that this decrease was due to a reduction in the number of macrophage-like cells and a concomitant increase in osteogenic cells with a lower enzyme content.