NALL-1, an acute lymphoblastic leukemia cell line with peroxidase activity

Summary All cells examined from the non-B, non-T acute lymphoblastic leukemia cell line, NALL-1, stained positive both for terminal deoxynucleotidyl transferase and for common ALL antigen. In addition, peroxidase activity was detected by light microscopy in 55 to 75% of cells and peroxidase-positive granules were detected ultrastructurally in >80% of cells. Peroxidase activity in NALL-1 may result from derepression of peroxidase genes or clonal proliferation of a biphenotypic precursor cell.     

Production of tumor antibody-neocarzinostatin(NCS) conjugate and its biological activities

Summary Rabbit xenoantiserum was produced against a human leukemia cell line (NALL-1) derived from a patient with acute lymphoblastic leukemia, and IgG was purified. Anti-NALL-1 rabbit IgG was reacted with NCS, an unique membrane-reactive anticancer antibiotic, in the presence of water-soluble carbodiimide. The resulting mixture was concentrated and chromatographed on a Sephadex G-200 column. The first and second fractions were shown by immunoelectrophoresis and the Ouchterlony double-diffusion method to contain NCS-IgG but not free NCS. The conjugates inhibited the growth of Sarcina lutea, and the growth and ³H-TdR incorporation of NALL-1 cells. A membrane immunofluorescent test with FITC-labeled rabbit anti-NCS and goat anti-rabbit IgG antibodies demonstrated specific localization of NCS-IgG on NALL-1 cell surfaces. These results indicate that IgG-bound NCS retained both NCS and antibody activities, and thus should be useful for cancer therapy.     

Purification of a major sialoglycoprotein (SGP140) on P12/Ichikawa cells and its expression on differentiated HL-60 cells

SGP140 glycoprotein, a major cell surface sialoglycoprotein with an apparent m.w. of 140,000, was detected on the human T lymphoblastoid cell line P12/Ichikawa by labeling with periodate-tritiated sodium borohydride, followed by urea-sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography. Then SGP140 was purified from P12/Ichikawa cells for study of its biochemical character and its distribution in various cell lines. The purification was performed by 0.2% Triton X-100 solubilization from crude membranes, DEAE-Sephacel column chromatography, WGA-agarose column chromatography, Blue-Sepharose 6MB column chromatography, and Sephadex G-150 gel filtration. Antiserum raised against SGP140 was then prepared, and immunoprecipitation and membrane immunofluorescence assay were performed on various cell lines. SGP140 was detected on P12/Ichikawa, Raji, P3HR-1, Daudi, Namalva, BALL-1, MOLT-4B, TALL-1, NALL-1, and K562 cells, but was not detected on HL-60 cells. When HL-60 cells were treated with dimethyl sulfoxide, retinoic acid, or 12-O-tetradecanoylphorbol-13-acetate, SGP140 was detected on cell surfaces. We discuss the possibility that SGP140 may be a differentiation antigen.     

Deamination rates of 1-beta-D-arabinofuranosylcytosine, deoxycytidine and 5-methyl-2'-deoxycytidine in seven hematopoietic cell lines

Enzymatic deamination activity was determined with tritium-labelled substrates in seven established hematopoietic cell lines, in order to compare deamination rates in intact vs. broken cells with cytosine arabinoside, deoxycytidine and 5-methyldeoxycytidine. Deaminase activity was found in all the cell lines, although it was very low in mouse leukemia L1210 cells. The deamination activity of intact cells varied from 1.0 to 38.3 pmoles/micrograms protein/30 min, being highest in the human null-cell ALL line (NALL-1), the human promyelocytic leukaemia line (HL-60) and the human T-ALL line (JM). The variation in specific activities in the broken cells was between 0.9 and 30.2 pmoles/micrograms protein/30 min. The deamination rate of deoxycytidine was in general higher than that of 5-methyldeoxycytidine or cytosine arabinoside.     

Induction of myeloperoxidase and nitrotyrosine formation in a human eosinophilic leukemia cell line, EoL-1

The human eosinophilic leukemia cell line, EoL-1, differentiated with butyrate as an eosinophilic cellular model was evaluated for peroxidase-dependent tyrosine nitration. Butyrate suppressed cell growth and induced eosinophilic granules in EoL-1 cells after 9 days of culture. Peroxidase activity was detected biochemically and histochemically from 3-day cultures and it increased in a time dependent manner. This peroxidase activity was inhibited by cyanide. Nitrotyrosine formation catalysed by peroxidase using hydrogen peroxide and nitrite was detected at a high level similar to that of mature eosinophils. However, no expression of eosinophil peroxidase (EPO) was detected by RT-PCR or immunocytochemistry. In contrast, the induction of myeloperoxidase (MPO) by butyrate was clearly detected by RT-PCR, Northern blot, and immunocytochemical staining. These results suggest that butyrate induces MPO rather than EPO in EoL-1 cells and that the formation of nitrotyrosine in butyrate-induced cells is dependent on MPO.     

Diethyldithiocarbamate suppresses the plant activation of aromatic amines into mutagens by inhibiting tobacco cell peroxidase.

Diethyldithiocarbamate is an antimutagen and repressed the activation of promutagens by plant systems. Earlier work implicated the involvement of tobacco cell (TX1) peroxidases in the plant cell activation of aromatic amines. We now present data that diethyldithiocarbamate represses the activation of 2-aminofluorene and m-phenylenediamine by inhibiting intracellular TX1 peroxidases under in vivo conditions. Concentrations of diethyldithiocarbamate that caused a 50% repression of TX1 cell activation of 2-aminofluorene and m-phenylenediamine also induced a 50% inhibition of TX1 cell peroxidase activity. Diethyldithiocarbamate in a concentration range between 25 and 500 microM directly inhibited peroxidase activity in TX1 cell homogenates in a concentration-dependent manner. Similar results were observed with purified horseradish peroxidase. The kinetics of peroxidase activity were studied in homogenates from control cells and cells treated with 750 microM and 25 mM diethyldithiocarbamate. There was no significant difference among the Km values among the three groups with a mean (+/- standard error) Km of 2.58 +/- 0.23 mM. However, the Vmax differed from 4.02 to 2.12 nmoles tetraguaiacol/min/micrograms protein, in the control and in the 25 mM diethyldithiocarbamate treatment group, respectively. These data indicate that diethyldithiocarbamate is a non-competitive inhibitor of TX1 cell peroxidase.     

Endogenous xenobiotic enzyme levels in mammalian cells.

The response of mammalian cell lines to chemicals depends, in part, on the exogenous activation system used for the induction of a biological response. This could be attributed to differences in the expression of enzymes involved in xenobiotic metabolism. We have measured the activities of benzo[a]pyrene hydroxylase, dimethylaminoazobenzene N-demethylase, catalase, superoxide dismutase, peroxidase and glutathione-S-transferase in human lymphoblast TK6, mouse lymphoma L5178Y, Chinese hamster ovary (CHO) and lung (V79) and mouse C3H10T1/2 cell lines as well as in primary hepatocytes and S9 preparations of liver from male F344 rats. Nitroreductase was also measured in some of these preparations. Human lymphoblast TK6 and mouse C3H10T1/2 cells had the capacity to metabolize dimethylaminoazobenzene and the latter cell line also metabolized benzo[a]pyrene, indicating the presence of constitutive mono-oxygenase activity. Cytochrome P450 could not be detected spectrophotometrically in the cell lines. Western blot analysis indicated that P450 from the P450IIA family is expressed in C3H10T1/2 cells. Reactivity was also observed with an antibody to P450IA2; however, the identity of this protein remains uncertain. Superoxide dismutase, catalase and peroxidase, which protect cells against oxygen radical damage, were found in all the cell lines and in rat hepatocytes and S9. The human lymphoblast TK6 cell line, however, had the least of each of these three enzymes. Glutathione-S-transferase activity was detected at varying levels in all cell types. Nitroreductase activity was high in S9 and Chinese hamster ovary cells and lower in mouse lymphoma and Chinese hamster V79 cells.     

Endogenous peroxidase in the visceral endoderm of early mouse embryos

Endogenous peroxidase activity was demonstrated in early mouse embryos by means of the diaminobenzidine staining reaction. This enzyme was observed in visceral endoderm on the seventh to eighth day of gestation in vivo, but was no longer detected on the ninth day of development. In cell layers developing from blastocysts or isolated inner cell masses cultured for 96-144 h (developmental stage equivalent to 6-7.5-day-old embryos), diaminobenzidine product was also observed in visceral endodermal cells. Most of the endogenous peroxidase was localized inside or close to the numerous apical vacuoles in the endoderm. Ectoderm, mesoderm, ectoplacental cone, and trophoblast cells did not contain endogenous peroxidase.     

Relationships between in vitro selenium supply, glutathione peroxidase activity, and phagocytic function in the HL-60 human myeloid cell line

Utilizing the HL-60 human promyelocytic leukemia cell line cultured in defined medium, we examined the quantitative and temporal relationships between Se supply and the activity of the selenoenzyme glutathione peroxidase, as well as the effects of selenium deficiency on phagocytic function. Glutathione peroxidase activity depended on the medium Se concentration up to 2.6 X 10(-8) M (sodium selenate, 5 ng/ml), above which a plateau occurred. HL-60 cells grown in medium without Se supplementation became GSH peroxidase deficient, with activity 1-3% that of Se-replete cells. Replenishment of the medium with sodium selenate returned enzyme activity to 23% that of replete cells by 24 h and to 85% by 7 days, a process blocked by cycloheximide. Se-deficient HL-60 cells induced to granulocytic differentiation by dimethylformamide showed decreased hexose monophosphate shunt activity in response to phorbol myristate acetate and to an exogenous enzymatic H2O2-generating system. However, Se-deficient and -replete cells showed equal responses to methylene blue, which stimulates the shunt independently from the glutathione cycle. Se-deficient mature HL-60 cells stimulated with phorbol myristate acetate released 2.3-fold more H2O2 than Se-replete cells and only slightly (not significantly) less O2. Se-deficient and -replete differentiated HL-60 cells did not differ significantly in their capacities for cell motility or for ingestion of serum-opsonized bacteria. Differences between the findings of the present study and previous in vivo rat studies may reflect both the defined in vitro environment of the cell line and the inverse ratios of catalase and glutathione peroxidase activities in human and rat granulocytes.     

Trichinella spiralis: peroxidase activity in isolated cells from the rat intestine

An understanding of physiologic events underlying resistance to parasitic worms depends on a knowledge of metabolic interactions between parasites and specific cells at the host-parasite interface. In the case of invasive intestinal parasites this interaction involves contact with epithelial cells and cells of the lamina propria. This investigation deals with the collection of epithelial cells and lamina propria cells from the small intestine of control rats and rats infected with the nematode, Trichinella spiralis, and measurement of peroxidase activity in these cells. Lamina propria cells were isolated by collagenase digestion of everted gut segments previously denuded of epithelium by treatment with hyaluronidase. Mean peroxidase activity in homogenates of lamina propria cells was equivalent to 40 nmoles H₂O₂ decomposed/min/mg of cell protein from control rats compared to 413 nmoles from infected animals. Epithelial cell peroxidase activity in homogenates of epithelial cells from both control and infected rats was less than 2 nmoles H₂O₂ decomposed/min/mg cell protein. The degree of contamination of lamina propria cells with epithelial cells was determined by measuring disaccharidase activity in both cell populations. The specific activity of maltase, sucrase, and trehalase in lamina propria cells was between 10 and 17% of that in epithelial cells. This work is a requisite for a study in which the role of intestinal cell peroxidase in resistance to Trichinella will be evaluated.     

Hydroxycinnamic acids and their dimers involved in the cessation of cell elongation in mentha suspension culture

The contents of wall-bound hydroxycinnamic acids and their dimers were compared between elongated and non-elongated cells of suspension-cultured Mentha. Wall-bound peroxidase activity was also investigated. The main hydroxycinnamic acids esterified to these two kinds of cell walls were ferulic and caffeic acids. Eleven dehydrodicaffeic acid isomers and six dehydrodiferulic acid isomers formed through C-C and C-O-C coupling processes, were detected by GC-MS from the extracts released from the walls of non-elongated cells. On the other hand, only four dehydrodicaffeic acid isomers and three dehydrodiferulic acid isomers were found in the walls of elongated cells. Amounts of monomers of ferulic and caffeic acids and their 5,5'-dehydrodimers in non-elongated cell walls were about ten and twenty times higher, respectively, than those in the elongated cell walls. There was a close correlation between the amount of 5,5'-dehydrodimers and activity of wall-bound peroxidase in non-elongated and elongated cells. The level of 5,5'-dehydrodimers accumulated at a higher rate than monomers in non-elongated cell walls. These results suggest that the dimerization of ester-linked ferulic and caffeic acids by peroxidase and the increase in amounts of their 5,5'-dehydrodimers are important factors in the cessation of cell elongation in Mentha suspension culture.     

Partition of catalase and its peroxidase activities in human red cell membrane: effect of ATP depletion.

Partititon of catalase (hydrogen-peroxide:hydrogen-peroxide oxidoreductase EC 1.11.1.6) and peroxidase (donor:hydrogen-peroxide oxidoreductase EC 1.11.1.7) activities between the red cell membrane and the cytosol were studied under various experimental conditions. A small but significant amount of catalase (1.6%) was retained on human red cell membranes prepared by hemolysing washed red cells with 30 volumes of 10 mM Tris buffer, pH 7.4. Membrane -bound catalase had a relatively higher peroxidase activity than the soluble enzyme fraction. Polyacrylamide gel electrophoresis in sodium dodecyl sulfate of the solubilized membranes demonstrated catalase to be a single band with a molecular weight of 60 000. Membranes prepared from adenosine triphosphate-depleted red cells depicted a two to three-fold increase in catalase activity, as well as an increase in 60 000 molecular weight band on polyacrylamide gel electrophoresis. The extra amount of retained catalase was a less efficient peroxidase than found in fresh membranes. The binding of catalase to ATP-depleted red cell membranes was dependent upon both pH and hemolysing ratio. Red cells incubated at pH 7.1 demonstrated a decrease in bound catalase, as did membranes prepared from red cells hemolysed at 1:100 dilution. beta-Mercaptoethanol decreased the catalase activity in the membranes and increased the odianisidine peroxidase activity without any significant effect on the 60 000-dalton band.     

Fine structural localization of peroxidase activity in the epithelium and the gland of the rat larynx

Summary Endogenous peroxidase activity was demonstrated in ciliated cells and secretory cells of the laryngeal epithelium and gland of rats, using the diaminobenzidine method for cytochemical demonstration of peroxidase activity. The intensity of peroxidase activity was greatly varied from cell to cell, but the fine structural localization of the activity was similar in various cell types. The activity was localized in cisternae of rough-surfaced endoplasmic reticulum including nuclear envelope, some vesicles and saccules of the Golgi complex, large membrane-limited granules, multivesicular bodies and probable lysosomes. In secretory cells, the activity was also found in secretory granules.The significance of peroxidase activity is not unclear, while the activity, at least a part of it, seems to be secreted into the cavity of the larynx. The possibility that peroxidase participates bactericidal mechanism, deserves further investigation.     

Radiosensitivity of mammalian cell lines engineered to overexpress cytosolic glutathione peroxidase

Reactive oxygen species are believed to be involved in radiation lethality. Glutathione peroxidase is an intracellular enzyme with antioxidant functions. To determine whether increasing the cellular antioxidant capacity can confer radiation resistance, the effect of overexpression of glutathione peroxidase on radiosensitivity was determined in two different cell types. An expression construct including the bovine cytosolic glutathione peroxidase cDNA was used to overexpress this enzyme in cells of the human lymphoblast cell line Sup-T1 as well as the Chinese hamster ovary cell line AA8. Supplementation of the culture media with 30 nM sodium selenite was included to obtain optimal glutathione peroxidase activity. Northern blot analysis confirmed the presence of the construct mRNA, and a standard coupled spectrophotometric assay demonstrated significantly increased glutathione peroxidase activity in the transfected cell lines. An approximately 8-fold increase was found in the Sup-T1 cells, and an approximately 30-fold increase was obtained in the Chinese hamster ovary AA8 cells. Clonogenic survival was assayed in the overexpressing cells and compared to that in control cells transfected with vector alone. Despite significantly increased glutathione peroxidase activity, no observable radioprotection was conferred in either of the two cell lines studied, indicating that increased glutathione peroxidase activity is insufficient to confer radioresistance in the two cell types examined. These data are discussed in the context of using antioxidants as adjuncts to clinical radiotherapy.     

Antioxidative effects of lovastatin in cultured human endothelial cells

The effects of lovastatin on glutathione peroxidase activity, hydrogen peroxide consumption, [3H]cholesterol uptake and [14C]acetate incorporation were investigated in cultured human endothelial cells. Treatment of endothelial cells with lovastatin in a medium without serum for 4 hr significantly increased both glutathione peroxidase activity and hydrogen peroxide consumption. This treatment also significantly inhibited cholesterol synthesis and cholesterol esterification. However, lovastatin stimulated cholesterol uptake by the cells. These alterations produced by lovastatin continued up to 24 hr. When serum was present in the culture medium, only decreased cholesterol synthesis and esterification were detected. We suggest that the in vitro antioxidative ability of lovastatin resulted, in part at least, from its activating effect on glutathione peroxidase, its stimulative effect on the ability of endothelial cell to scavenge H(2)O(2), and its hypolipidemic effect.     

Characterization of the population of phagocytic cells in thymic cell suspensions

Rat thymic phagocytic cells were characterized in vitro using various light- and electron-microscopical techniques. Thymic cell suspensions were mechanically prepared and enriched for non-lymphoid cells, which were predominantly phagocytic and of three types. Type I showed acid phosphatase (APh) activity in small granules dispersed throughout the cytoplasm and were mostly Ia antigen-positive, although the Ia membrane label varied in intensity and distribution among individual cells. Only a few cells had endogenous peroxidase activity. The type-I cells could not be clearly distinguished morphologically from type-II or -III cells, and most likely comprise precursors of both these cell types. Type-II were large pale cells with many slender cell processes. These cells had APh activity centrally positioned, were strongly positive for Ia on the cell membrane and were negative for endogenous peroxidase. The cytoplasm frequently contained Birbeck granules, which unequivocally classifies these cells as the in vitro equivalent of the interdigitating cells present in the medullary area of the thymus in situ. Type-III cells were rounded with a smooth or ruffled cell membrane and contained vacuoles and many phagolysosomes. They were strongly positive for APh which was present throughout the cytoplasm. About 50% of these cells were positive for endogenous peroxidase in a pattern resembling resident macrophages. The cells were negative for Ia antigens. Type-III cells mostly likely represent the macrophages found in the cortical area of the thymus.     

真菌诱导子对悬浮培养西洋参细胞的生理效应

报道了不同真菌诱导子对悬浮培养的西洋参（Ｐａｎａｘｑｕｉｎｑｕｅｆｏｌｉｕｍ）细胞生长、皂甙和多糖合成,以及细胞内和培养液中过氧化物酶活性的生理效应。悬浮培养的西洋参细胞经刺盘孢菌（Ｃｏｌｌｅｔｏｔｒｉｃｈｕｍｎｉｃｏｌｔｉａｎａｅ）丝体诱导子处理后,总皂甙产率可由对照的２９６ｍｇ／Ｌ增加到６７９ｍｇ／Ｌ（约占细胞干重的（１６．３％）,比对照提高约１．３倍,而且总皂甙的８５％排放在培养液中;经黑曲霉（Ａｓｐｅｒｇｉｌｌｕｓｎｉｇｒａｎ）诱导子处理后,细胞多糖含量可达到１１．７９％（细胞干重）,比对照增加１倍多。初步纯化的刺盘孢菌丝体诱导子和尖孢镰刀菌（Ｆｕｓｕｒｉｕｍｏｘｙｓｐｏｒｕｍ）滤液诱导子在诱导处理前期能明显促进西洋参细胞生长,同时细胞内及培养液中过氧化物酶活性显著增加;随时间延长,细胞生长和酶活性逐步受到抑制。     

Peroxidase activity and isoenzymes in the culture medium of NaCl adapted tomato suspension cells

The medium of tomato (Lycopersicon esculentum) cells adapted to grow in the presence of 15 g l^–1 NaCl had a higher peroxidase activity than the medium of an unadapted tomato cell line. When the adapted cells were cultured in a medium without NaCl, the value found for peroxidase activity was intermediate. The increase in peroxidase activity was parallel to an increase of lignin-like compounds in the cell walls, as well as to an increased content or appearance of neutral and basic peroxidase isoenzymes. Apparently, the high values of peroxidase activity in the medium of the salt-adapted cells reflect the changed mechanical properties of the cell wall which, in turn, could be related to the salt adaptation process.Abbreviations LO Control tomato cell line unable to grow in the presence of 15 g 1^–1 of NaCl - L15 tomato cell line adapted to 15 g 1^–1 of NaCl and growing in this salt concentration - L15-0 tomato cell line adapted to 15 g 1^–1 of NaCl and growing in the absence of this salt - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - PBS phosphate buffer saline