Lymphocytes transfer only the lysosomal form of alpha-D-mannosidase during cell-to-cell contact

We have examined the changes in the activities of the different types of alpha-D-mannosidase when fibroblasts from patients deficient in the lysosomal form of the enzyme are cultured together with normal lymphocytes. Our results show that whereas the mannosidosis cells acquired high levels of this enzyme, the activities of both the Golgi and the endoplasmic reticulum forms of alpha-D-mannosidase remained the same as in the fibroblasts cultured alone in the absence of lymphocytes. The increase in the activity of the lysosomal enzyme in the cocultured fibroblasts was not affected by the presence of mannose 6-phosphate or alpha-methyl mannoside, inhibitors of receptor- and lectin-mediated uptake of lysosomal enzymes, respectively, but it did require cell-to-cell contact. Ion-exchange HPLC and electrophoresis in polyacrylamide gradient gels showed that the acquired enzyme had the same elution profile and molecular size as the lysosomal form of the enzyme present in the lymphocytes. Immunoprecipitation studies using antibody specific for the lymphocyte type of lysosomal alpha-D-mannosidase confirmed that the increased activity in the cocultured mannosidosis cells resulted from the acquisition of the lymphocyte enzyme. Cytochemical examination revealed, however, that the transferred lymphocyte enzyme was localized in cytoplasmic organelles in the peripheral regions of the recipient fibroblasts. These results show that lymphocytes transfer only the lysosomal form of alpha-D-mannosidase during cell-to-cell contact with mannosidosis cells.     

Changes in phosphofructokinase isozymes during development of myoblasts to myotubes

The regulation of phosphofructokinase during development of C2C12 myoblasts to myotubes was investigated. Enzyme activity was markedly increased during myogenic development. The increase was observed when enzyme activity was measured under optimal conditions and was not due to changes in the allosteric kinetic properties of the enzyme. Immunoprecipitation of phosphofructokinase from [35S]methionine-labeled myogenic cells revealed that equal amounts of liver and muscle isozymes are present in myoblasts, while in myotubes there was a much higher level of the muscle isozyme. These results were confirmed using an immunoblotting technique. The increase in the level of muscle isozyme in myotubes is due to an increase in the rate of synthesis of the muscle isozyme and occurs in spite of a measurably small increase in its degradation rate. Northern blot analysis using a synthetic oligonucleotide probe showed a 25-fold increase in the level of muscle phosphofructokinase mRNA in myotubes. The conclusion is drawn that the increase in muscle isozyme in myotubes during myogenesis is due to an increase in its mRNA level.     

Activity of lysosomal beta-glucuronidase in leukocytes of rats exposed to benzene and sodium selenate.

Chronic exposure to benzene results in rats in the decrease of the lymphocyte count in the peripheral blood, the decrease of the beta-glucuronidase (BG) activity both in lymphocytes and neutrophilic granulocytes as well as in the damage to lysosomal apparatus of lymphocytes expressed in diffusion of the enzyme within the cell cytoplasm. Administration of selenium (sodium selenate) in dosis of 1.0 microgram/Kg during consecutive 10 days prior the exposure to benzene resulted in prevention of benzene-induced decrease of the BG activity in granulocytes and of a damage to lymphocyte lysosomes. Application of selenium in dosis of 5.0 microgram/Kg during the same time prior the exposure to benzene prevented the benzene-induced lymphocytopenia, induced the reactive increase of the granulocyte number, and caused, moreover, the prevention of the BG activity decrease in granulocytes. Simultaneously the increase of the BG-positive lymphocyte percentage was noted which was related to the increase of cells exhibiting the cytoplasmatic and extralysosomal localization of the enzyme. The results suggest that only smaller doses of sodium selenate prevented the damage to lysosomal membrane of lymphocytes induced by toxic effect of benzene.     

Cell contact induces the synthesis of a lysosomal enzyme precursor in lymphocytes and its direct transfer to fibroblasts

The activity of a lysosomal enzyme, alpha-D-mannosidase (EC 3.2.1.24), increased markedly in normal lymphocytes when they were cultured together with fibroblasts from a patient with an inherited deficiency of this enzyme. Cell-to-cell contact was obligatory for this increase in activity, which also required new protein synthesis. The enzyme induced in the co-cultured lymphocytes was a high molecular weight form of alpha-D-mannosidase that was not detected in lymphocytes cultured alone, which had only the low molecular weight mature enzyme. It was this precursor form alone that was directly transferred to the mannosidosis fibroblasts, where it was present initially in organelles of low density. When the culture period was extended the lymphocyte precursor enzyme was transported to the heavy lysosomes in the recipient cells, and correctly processed to the functionally effective mature enzyme.     

Metalloendoprotease inhibitors which block the differentiation of L6 myoblasts inhibit insulin degradation by the endogenous insulin-degrading enzyme

The cultured myoblasts of the rat skeletal muscle cell line L6 proliferate till confluency and then fuse to form myotubes and express a number of muscle-specific proteins. We had shown that this differentiation process is blocked by specific metalloendoprotease inhibitors. We now demonstrate that metabolizing L6 myoblasts and their cell extracts degrade insulin to acid-soluble fragments by a non-lysosomal pathway. About 90% of the insulin-degrading activity residues in the cytoplasm and is due to a 110-kDa enzyme known as the insulin-degrading enzyme. The same metalloendoprotease inhibitors that block the differentiation of L6 myoblasts also inhibit insulin degradation by the metabolizing L6 cells, their cell extracts, and the insulin-degrading enzyme immunoprecipitated from the cytosolic extracts by a monoclonal antibody. These results suggest that the insulin-degrading enzyme is the metalloendoprotease whose activity is required for the initiation of the morphological and biochemical differentiation of L6 myoblasts.     

In vitro comparison of embryonic myoblasts and myogenic cells isolated from regenerating adult rat skeletal muscle

Myogenic cells from regenerating adult rat muscle were compared in culture with embryonic myoblasts. No differences were found in their growth rates or fusion characteristics. Embryonic and regenerating cells fused with one another to form mosaic myotubes. Both showed the same increase in creatine kinase activity and shift in isozyme profile following fusion. These results support the view that myogenic cells from regenerating muscle are essentially the same as embryonic myoblasts.     

Human myotube differentiation in vitro in different culture conditions

Human muscle cells derived from satellite cells, maintained in standard tissue culture conditions, do not differentiate as rapidly or as completely as myoblasts from other species (chicken, rat, mouse). In an attempt to improve myogenesis, we studied the effects of modifying the culture media and of coculturing muscle with nerve cells, using myoblasts grown in standard culture media as the basis for comparison. Myogenesis was measured by fusion index, creatine kinase (CK) activity; acetylcholinesterase (AChE) activity (total and molecular forms); and the number of acetylcholine receptors (AChR). Modification of culture media accelerated fusion of myoblasts, but the cell density decreased and myotubes were unable to survive for long periods. In contrast, coculturing muscle with nerve cells increased both cell density and the number of myotubes. CK, AChE and AChR increased in the presence of defined media. In the nerve-muscle cocultures the increase was less marked. Manipulating culture conditions modified the molecular forms of AChE. Only a (4 + 6.5) S peak was present in control cultures, but a 10S peak appeared in defined media. The 16S form was detected only in nerve-muscle cocultures. This study shows that fusion of human myoblasts and differentiation of myotubes in tissue culture can be accelerated by removal of serum macromolecules. Further differentiation of myotubes was achieved only in the nerve-muscle cocultures.     

Design of immuno-enzymosomes with maximum enzyme targeting capability: effect of the enzyme density on the enzyme targeting capability and cell binding properties.

Immuno-enzymosomes have been proposed for the targeting of enzymes to cancer cells to achieve site specific activation of anticancer prodrugs. Previously, we reported that the enzyme beta-glucuronidase (GUS), capable of activating anthracycline-glucuronide prodrugs, can be coupled to the surface of inmunoliposomes directed against human ovarian cancer cells (OVCAR-3). This study aimed at the design of an immuno-enzymosome formulation with maximum enzyme targeting capability. By purification of the commercially available enzyme beta-glucuronidase (GUS), a 2-fold increase in the enzyme specific activity and a 4-fold increase in the enzymatic activity of immuno-enzymosomes was achieved. As a result, upon incubation with human ovarian cancer cells (OVCAR-3), cell-associated enzymatic activity increased correspondingly. The optimized immuno-enzymosomes were shown to bind to the target cells in a specific fashion. Above a GUS/Fab' molar ratio of 0.5, impairment of the target cell binding ability of the immuno-enzymosomes was observed. This was likely due to a steric hindrance effect mediated by the presence of large amounts of bulky GUS molecules on the liposome surface. Nevertheless, increasing the GUS density on the surface of the immuno-enzymosomes to levels by far exceeding the GUS/Fab' molar ratio of 0.5, yielded a considerably improved enzyme targeting capability.     

Estimation of cell surface associated protease activity and its application to lymphocytes

A new method has been developed to estimate proteolytic activity available at the cell surface. Radioiodinated protein substrates are covalently linked to modified polystyrene-divinylbenzene beads with various diameters. These beads are presented to viable cells. Secreted enzyme activity is estimated when no contact occurs between beads and cells. Surface associated proteolytic activity is estimated by the increased rate of iodinated peptide release due to a contact between beads and cells. This method was applied to various lymphocyte preparations. In the absence of serum, mouse spleen lymphocytes produce three- to fourfold higher proteolytic activity than lymph node cells. This activity is completely inhibited by serum diluted 1:10. Since the proteolysis is so marked in the case of spleen cells, one must conclude that lymphocytes removed from the serum and treated in buffered mediums at 37° C have enzymatically altered surface properties. Cell surface associated enzyme activity was measured using rat lymph node lymphocytes with less than 0.1% contamination by granulocytes. This predominantly thymus derived, T cell population had 30% increase in proteolysis due to contact between cells and solid-phase localized substrate of casein. The released enzymatic activity was inhibited by diisopropylfluorophosphate, but its effect on the surface associated enzyme activity remains questionable since it perturbs several membrane functions.     

Analysis of the expression of chicken and rat gene products in myoblast x myoblast cell hybrids

Hybrid cells were isolated by fusing primary chicken myoblasts to HPRT-deficient rat L6 myoblasts and incubating the cells in medium containing HAT and ouabain. All hybrid clones contained both rat and chicken chromosomes and expressed a number of gene products characteristic of both species. Although all clones were capable of fusing spontaneously to form myofibers, immunofluorescence and isoenzyme analysis revealed only the rat forms of skeletal muscle myosin and MM-creatine kinase. No differentiated gene products of chicken origin were detected. Analysis of the expression of chicken HPRT revealed that some hybrid clones were capable of modulating this enzyme activity when switched from HAT medium into thioguanine medium and back into HAT, even though HPRT is normally a constitutively expressed enzyme. Parental control cells were incapable of this modulation phenomenon.     

Analysis of the expression of chicken and rat gene products in myoblast × myoblast cell hybrids

Hybrid cells were isolated by fusing primary chicken myoblasts to HPRT-deficient rat L6 myoblasts and incubating the cells in medium containing HAT and ouabain. All hybrid clones contained both rat and chicken chromosomes and expressed a number of gene products characteristic of both species. Although all clones were capable of fusing spontaneously to form myofibers, immunofluorescence and isoenzyme analysis revealed only the rat forms of skeletal muscle myosin and MM-creatine kinase. No differentiated gene products of chicken origin were detected. Analysis of the expression of chicken HPRT revealed that some hybrid clones were capable of modulating this enzyme activity when switched from HAT medium into thioguanine medium and back into HAT, even though HPRT is normally a constitutively expressed enzyme. Parental control cells were incapable of this modulation phenomenon.     

beta-Glucuronidase is transported slowly to lysosomes in BW5147 mouse lymphoma cells: evidence that the prelysosomal enzyme is not restricted to the endoplasmic reticulum

The post-translational processing of beta-glucuronidase in BW5147 mouse lymphoma cells is slow relative to other newly synthesized lysosomal enzymes. To characterize this slow maturation the acid hydrolase was immunoprecipitated from cells pulse-labeled with [2-3H]mannose. Radiolabeled beta-glucuronidase migrated as the precursor form of the enzyme for up to 4 h of chase, whereas another acid hydrolase, beta-galactosidase, was processed completely to its mature form within this same time period. Both beta-glucuronidase and beta-galactosidase obtained high levels of mannose 6-phosphate (Man 6-P) within 60 min of their biosynthesis. The Man 6-P content of beta-galactosidase declined rapidly during a subsequent chase while that of beta-glucuronidase remained high during the first 4 h of chase and then slowly declined. 3H-Labeled phosphorylated high mannose-type oligosaccharides isolated from beta-glucuronidase after 1 h of chase were composed primarily of species with one or two phosphodiester groups, but oligosaccharides with one and two phosphomonoesters became the predominant phosphorylated species with longer chase times. The phosphorylated oligosaccharides attached to other newly synthesized acid hydrolases, on the other hand, contained primarily phosphodiester species at all chase times. When BW5147 cells were pulsed with [3H]mannose and chased in the presence of monensin to disrupt transport, the number of phosphorylated oligosaccharides recovered from beta-glucuronidase was comparable to the quantity recovered from the enzyme produced by non-drug-treated cells. The number of phosphorylated units recovered from all other newly synthesized acid hydrolases, however, was greater in the presence of the ionophore than in its absence. Nondenaturing gel electrophoresis studies indicated that beta-glucuronidase existed in two forms at steady state within BW5147 cells and, as such, was similar to liver beta-glucuronidase in which a large percentage of the enzyme was present as a complex bound to egasyn. These data suggest that newly synthesized beta-glucuronidase produced by BW5147 cells complexes with an egasyn-like protein within the endoplasmic reticulum. This interaction retards the enzyme's migration through the secretory apparatus but does not prevent its access to Golgi-associated processing enzymes.     

Semiquantitative cytochemical determination of acid phosphatase, beta-glucuronidase, and beta-glucosaminidase activity in peripheral blood lymphocytes.

Activity of acid phosphatase, beta-glucuronidase, and beta-glucosaminidase in peripheral blood lymphocytes was determined cytochemically in 20 normal subjects, 10 male and 10 female, by the use of BARKA and ANDERSON's (1962), HAYASHI et al. (1964) and HAYASHI's (1965) methods, respectively. Results obtained were semiquantitatively according to subdivision of lymphocytes into enzyme-negative and enzyme-positive cells. Enzyme-positive lymphocytes were divided into cells with granular, mixed granular and diffuse enzymatic reaction type. In the first two types of cytochemical reaction a number of enzyme-positive lysosomal granules were counted and expressed in terms of both absolute count and percentage of circulating lymphocytes. Enzyme-positive lymphocytes represented 80.3%, 40.5% and 41.5% of the total lymphocyte count in regard to the presence of acid phosphatase, beta-glucuronidase, and beta-glucosaminidase, respectively.     

Induction by Butyrate of Differentiated Properties in Cloned Murine Rhabdomyosarcoma Cells

A cell line derived from the murine rhabdomyosarcoma BW10139 (Dexter, Cancer Res. 37: 3136, 1977) was subcloned and examined with respect to growth and myogenic characteristics in the presence and absence of 1 mM butyrate. Without butyrate, these cells behave as typical transformed cells: they grow rapidly and chaotically, do not form multinucleated muscle fibers and have little or no creatine kinase activity. In the presence of 1 mM sodium butyrate or butyric acid, growth slows, cells become arranged in whorl patterns, and creatine kinase activities increase to levels comparable to those found in normal chick myoblasts immediately prior to cell fusion. The increase in creatine kinase activity is detectable within 2 h exposure to butyrate, reaches a maximum by 24 h, and the elevated level can be maintained for at least six weeks. The induction is reversible upon sequential addition, deletion, and readdition of butyrate to the culture medium. Isoenzyme analyses demonstrated that only the BB form of creatine kinease is induced; MM creatine kinase was not detected. Although formation of multinucleated cells increases after exposure to butyrate, no typical myotubes form. The results suggest that this rhabdomyosarcoma cell line can, under appropriate conditions, re-express some properties characteristic of skeletal muscle, but not the complete muscle phenotype.     

Lysosomal triacylglycerol lipase activity in L6 myoblasts and its changes on differentiation.

L6 myoblasts, before fusion, accumulate large stores of neutral lipid when cultured in medium supplemented with fatty acid. Upon fusion to terminally differentiated myotubes, a noticeable decrease in these neutral-lipid stores was observed. Triacylglycerol lipase activity was examined in L6 myoblasts at various stages of cell differentiation to assess a possible role for this enzyme in the above phenomenon. In this first study to demonstrate lipolytic activity in cultured muscle cells, the activity was found to be totally dependent on the presence of a detergent, either Cutscum or Triton X-100, during homogenization. The inhibition by many thiol-specific reagents [N-ethylmaleimide, p-chloromercuribenzoate, iodoacetate, 5,5'-dithiobis-(2-nitrobenzoic acid)] suggest that a thiol group is at or near the active site. The observed acidic pH optimum (5.5-6.0), the acute inhibition by chlorpromazine (a lysosomal lipase inhibitor) and the distribution of lipolytic activity upon cell fractionation (which co-sediments with acid phosphatase, a lysosomal marker enzyme) suggest that the lipase may be of lysosomal origin. Under the optimal conditions described, the triacylglycerol lipase activity of L6 myoblasts was determined to be 2.9 +/- 0.4 nmol of oleic acid released/min per mg of DNA. This activity increased 3-fold, to 9.0 +/- 1.6 nmol/min per mg, in the myotube phase. This increase in lipolytic activity may be responsible for the observed decrease in neutral-lipid stores of differentiating myoblasts.     

Control of phosphorylase in cultured rat skeletal muscle cells. Changes in synthesis and degradation resulting from differentiation and muscle activity

The control of phosphorylase levels was investigated in rat skeletal muscle cells developing in vitro. The amount of enzyme was directly measured after immunoprecipitation using specific antibodies. The rate of phosphorylase synthesis was estimated by measuring the initial rate of formation of [3H]phosphorylase after incubating cells with [3H]tyrosine. Rates of degradation were determined either from pulse-chase experiments using [3H]tyrosine or by the loss of enzymatic activity following inhibition of protein synthesis. A large increase in phosphorylase occurred at the time myoblasts were fusing into myotubes. The accumulation of enzyme was preceded by a marked increase in the synthetic rate and was associated with a severalfold increase in the half-life of the enzyme. Following fusion, the myotubes began to spontaneously contract, and shortly thereafter, decreases in both the half-life and amount of phosphorylase were observed. The paralytic agents tetrodotoxin and lidocaine were without effect on phosphorylase levels before the onset of spontaneous activity; however, both agents increased the amount of enzyme when added to contracting myotubes. Tetrodotoxin had little effect on synthesis of [3H]phosphorylase but doubled the half-life of the enzyme. These and other results indicate that the increase in phosphorylase in differentiating muscle cells results from the coordinate control of both its synthesis and degradation, and that muscle activity decreases phosphorylase by increasing its degradation.     

Expression of the A12 form of acetylcholinesterase by developing avian leg muscle cells in vivo and during differentiation in primary cell cultures

The accumulation of the molecular forms of acetylcholinesterase (AChE) has been studied in leg muscles during embryonic chick development and in cell cultures initiated with myoblasts obtained from embryos at different stages of development. The collagen-tailed, A₁₂ form appears in leg muscles as soon as day 5 in ovo. An early excision of the lumbar zone of the neural tube at day 2 1/2 in ovo severely delayed the morphological development. In leg muscles dissected at day 12 in ovo from operated embryos, we found that the total amount of AChE activity and particularly the proportion of A₁₂ form were dramatically reduced.

Muscle cells were grown in vitro in a medium supplemented with fetal calf serum. In these conditions, chick muscle cells unequivocally synthesize the A₁₂ form when they originated from muscles which accumulated this form in vivo. In contrast, myoblasts obtained from 5-day old embryo leg muscles did not produce the A₁₂ form either in aneural cultures or in the presence of nerve cells. In relation with previous observations concerning chick myogenesis, we discuss the possibility that this difference reflects the existence of two types of myoblasts. This hypothesis would also explain the results of cocultures performed with nerve cells and normal or demedullated leg muscle myoblasts.     

Influence of butyric and lactic acids on the beta-glucuronidase activity of Clostridium perfringens

The beta-glucuronidase activity of intact cells of Clostridium perfringens was not influenced by the presence of either 0.09 or 0.19% lactic or butyric acids. In contrast, the enhanced enzyme activity of intact cells due to sodium deoxycholate was significantly decreased by the presence of these acids. These results suggest the possibility that the development of cancer due to the intake of a high fat diet may be inhibited by the presence of organic acids produced by intestinal bacteria.     

Human myoblasts as antigen-presenting cells.

Human myoblasts, cultured from muscle and purified to greater than 95%, were investigated for their capacity to act as facultative APC. The myoblasts reacted with antidesmin mAb and had the capacity to fuse into multinucleated myotubes in appropriate medium. The expression of HLA class I, HLA-DR, HLA-DP, HLA-DQ, intercellular adhesion molecule-1 (ICAM-1/CD54), lymphocyte function-associated (LFA) molecules LFA-1 (CD11a/CD18), LFA-2 (CD2), and LFA-3 (CD58) was investigated by FACS analysis before and after induction for various times with human rIFN-gamma, TNF-alpha, or both. Without cytokine induction, myoblasts expressed only HLA-class I and LFA-3. IFN-gamma alone or in combination with TNF-alpha induced the expression of HLA-DR and ICAM-1 reaching a plateau after 48 h, followed by HLA-DP and even later HLA-DQ. TNF-alpha alone induced only ICAM-1. The functional capacity of myoblasts to present Ag to CD4+ T cells was investigated using autologous T cell lines specific for tuberculin, tetanus toxoid, and human myelin basic protein. Noninduced myoblasts or myoblasts treated with TNF-alpha alone could not present any of these Ag to the T cells. However, myoblasts treated with IFN-gamma induced Ag-specific proliferation. In the presence of relevant Ag, myoblasts were killed by the T cells as observed by microscopy and measured by 51Cr release. Ag-specific T cell proliferation and myoblast killing was inhibited in the presence of anti-DR mAb. These results suggest that human myoblasts may act as facultative APC during local immune reactions in muscle.