Inhibition of chemically induced erythrodifferentiation in friends erythroleukemia cells by d,1-Propranolol

Dimethyl sulfoxide (2%), hexamethylene bisacetamide (4mM) and butyric acid (2mM) were potent inducers of erythrodifferentiation in Friend erythroleukemia cell lines, 5–18 and C19TK. Hydrocortisone (1μM) markedly inhibited dimethyl sulfoxide induced hemoglobin production in both 5–18 and C19TK cells. d,1-Propranolol (25–50μM) markedly inhibited both dimethyl sulfoxide and hexamethylene bisacetamide induced erythrodifferentiation in 5–18 cells but not in C19TK cells. Addition of either hydrocortisone or propranolol as late as 48 hrs after dimethyl sulfoxide addition still resulted in significant inhibition of hemoglobin synthesis in 5–18 cells. Although the mechanism of action of propranolol is not known, modulation of the β adrenergic receptor is apparently not involved since practolol failed to inhibit either dimethyl sulfoxide or hexamethylene bisacetamide induced erythrodifferentiation in 5–18 cells nor did isoproternol induce hemoglobin synthesis.     

Enhanced expression of the beta II subspecies of protein kinase C in differentiating erythroleukemia cells

Polyclonal antipeptide antibodies which recognize selected isozymes (alpha, beta I, beta II, and gamma) of the protein kinase C family were used to identify specific subspecies in undifferentiated Friend erythroleukemia cells and in cells triggered to differentiate with hexamethylene bisacetamide. The beta II isozyme of protein kinase C was the primary isozyme expressed and its abundance was significantly increased (P less than 0.05) in differentiated cells. Differences in immunostaining between control and experimental groups were objectively quantitated by determining percentage transmission of light through cells based on color threshold rather than gray intensity levels. Staining was localized to the cytoplasm predominantly in differentiated cells, whereas nuclei stained more intensely in undifferentiated cells. These results provide immunocytochemical evidence to support the hypothesis that changes in the expression of the beta II subspecies of protein kinase C are essential to the programmed maturation of differentiating Friend erythroleukemia cells.     

Enhanced expression of the β II subspecies of protein kinase C in differentiating erythroleukemia cells

Polyclonal antipeptide antibodies which recognize selected isozymes (α, β I, β II, and γ) of the protein kinase C family were used to identify specific subspecies in undifferentiated Friend erythroleukemia cells and in cells triggered to differentiate with hexamethylene bisacetamide. The β II isozyme of protein kinase C was the primary isozyme expressed and its abundance was significantly increased (P < 0.05) in differentiated cells. Differences in immunostaining between control and experimental groups were objectively quantitated by determining percentage transmission of light through cells based on color threshold rather than gray intensity levels. Staining was localized to the cytoplasm predominantly in differentiated cells, whereas nuclei stained more intensely in undifferentiated cells. These results provide immunocytochemical evidence to support the hypothesis that changes in the expression of the β II subspecies of protein kinase C are essential to the programmed maturation of differentiating Friend erythroleukemia cells.     

Lipid composition of Friend leukemia cells following induction of erythroid differentiation by dimethyl sulfoxide

The effects of dimethyl sulfoxide (DMSO)-induced differentiation of Friend leukemia cells in vitro on the lipid composition of these cells have been examined. DMSO had no early effect on the incorporation of either [¹⁴C] glycerol or [³H] methyl choline chloride into the total lipids or individual phospholipids of Friend cells up to 240 min after addition of the inducer. Examination of DMSO-diferentiated Friend cell phospholipids revealed a percentage composition which was similar to control cells, with phosphatidylcholine and phosphatidylethanolamine in both uninduced and differentiated cells accounting for over 75% of the total phospholipid. Sphingomyelin levels were significantly lower in Friend cells than in normal adult mouse erythrocytes, and differentiation of murine erythroleukemia cells resulted in a further lowering of this phospholipid. In contrast, a significant increase in the level of phosphatidylethanolamine occured as a result of maturation. Fatty acid analysis of major lipid classes of differentiated Friend cells showed significant reduction in saturation, but no alteration in chain length in comparison to undifferentiated cells. A pronounced decrease in the cellular content of both free and esterified cholesterol, which resulted in a 45% decrease in the ratio of cholesterol/phospholipids, occurred in cells differentiated by the polar solvent. The findings indicate that erythrodifferentiation induced by DMSO results in a variety of changes in the lipid composition of the membranes of Friend leukemia cells.     

Hemoglobin synthesis in cell hybrids formed between teratocarcinoma and friend erythroleukemia cells

Viable hybrid cells have been isolated following fusion of Friend erythroleukemia cells and undifferentiated teratocarcinoma cells. The hybrids formed between near-diploid parental cells resembled Friend cells in their ability to grow in suspension and to synthesize hemoglobin in the presence of the chemical inducers dimethyl sulfoxide (DMSO) and ouabain. Erythropoietin (EPO) was effective in inducing hemoglobin synthesis in some of the hybrid cell lines. The hemoglobins synthesized by the hybrids were of the adult forms, but were quantitatively different from those hemoglobins synthesized by the parental Friend cells, suggesting that the fusion event modulated the expression of the hemoglobin chain genes.     

Friend erythroleukemia cell membrane transferrin receptors

We have compared the uptake of transferrin by murine Friend erythroleukemia cells with the uptake of transferrin by murine reticulocytes. Friend cells which had been induced to erythroid differentiation by dimethyl sulfoxide took up transferrin in a manner qualitatively and quantitatively similar to the uptake of transferrin by reticulocytes, while uninduced Friend cells took up only negligible amounts of transferrin. Specific transferrin-binding activity could be demonstrated in detergent extracts of membranes from induced cells and this activity was isolated from membrane extracts by the use of antibody to transferrin. The isolated membrane component(s) with transferrin-binding activity migrated electrophoretically as a single protein on sodium dodecyl sulfate gels and had similar properties to a transferrin-binding protein isolated previously from reticulocytes.     

Superoxide dismutase induces differentiation of Friend erythroleukemia cells

Friend erythroleukemia cells (FELC) served as a model system for cell differentiation because these cells can be triggered to differentiate by a variety of chemical agents. Treatment with the classical inducer of differentiation, hexamethylene bisacetamide (HMBA), stimulated superoxide dismutase (SOD) activity, which increased in parallel with HMBA-induced differentiation. Furthermore, FELC were shown to differentiate in response to the addition of liposomes containing SOD. Oxidative treatment with liposomes containing D-amino acid oxidase or xanthine oxidase, cumene peroxide, or potassium superoxide also induced differentiation, whereas antioxidants such as alpha-tocopherol, butylated hydroxytoluene, or beta-carotene did not induce differentiation. Also, HMBA induction of differentiation was suppressed by treatment with antioxidants.     

Vanadium stimulates the (Na+,K+) pump in friend erythroleukemia cells and blocks erythropoiesis

Friend murine erythroleukemia cells underwent apparently normal erythropoiesis when treated with dimethyl sulfoxide. One of the earliest events associated with this induction was a decrease in ouabain sensitive 86Rb+ uptake, an assay of the plasma membrane Na,K(ATPase). Ammonium vanadate (10 microM) blocked differentiation of these cells without affecting cell viability. Vanadium was taken up by Friend cells and prevented the dimethyl sulfoxide-induced decrease in ouabain sensitive 86Rb+ uptake. Vanadate reactivated 86Rb+ transport previously inhibited by dimethyl sulfoxide treatment but had no affect on 86Rb+ transport in untreated cells. These results suggest an essential role for the (Na,K)ATPase in cell differentiation.     

The inhibitory effect of some lectins on the differentiation of Friend erythroleukemia cells

Growth and differentiation of Friend cells can be inhibited by treatment with concanavalin A and wheat-germ agglutinin. This inhibition is specific for cells that are in the early stages of the differentiation process (24–48 h after the addition of dimethyl sulfoxide) and is reversible upon treatment with the sugars competitive for these lectins. These results suggest a regulatory role for some plasma membrane-bound glycoproteins early in the differentiation of Friend erythroleukemia cells induced by dimethyl sulfoxide.     

Idiotype mimicry by a differentiation antigen on Friend erythroleukemia cells

We previously found that murine leukemia cells of T cell, B cell, and erythroid ontogeny express a cell membrane antigen that cross-reacts with an idiotype of an anti-retroviral antibody. In the present study, the expression of this antigen (termed AVID, for anti-viral idiotype) by murine erythroleukemia (MEL) cells was examined during chemically induced differentiation. AVID expression by MEL cells was found to be lost when they were treated with either dimethyl sulfoxide or hexamethylene bisacetamide, two chemicals that induce MEL cells to terminally differentiate. The kinetics of disappearance of AVID during inducer treatment reflected the kinetics with which the inducers caused MEL cell commitment to terminal differentiation. Loss of AVID expression by inducer-treated cells was inhibited by dexamethasone, which inhibits commitment and MEL cell differentiation. The subset of inducer-treated cells that expressed the least amount of AVID contained the greatest number of cells committed to differentiate. These results indicate that AVID identifies a novel differentiation antigen of MEL cells.     

Biosynthesis of spectrin and its assembly into the cytoskeletal system of Friend erythroleukemia cells

Friend erythroleukemia cells, grown in the presence of dimethyl sulfoxide for 3 d, synthesize unequal amounts of the two chains (alpha and beta) of spectrin with approximately 15-30% more beta than alpha spectrin. When cells were ruptured by nitrogen cavitation, nascent alpha and beta spectrin were found to be associated with a membranous cell fraction and were not detected in the soluble cytoplasmic cell fraction. Nascent membrane-bound spectrin appeared not to be protected by membranes, since it was susceptible to trypsin degradation in the absence of detergent. On fractionation of cells with 1% Triton X-100, more (1.75-fold) nascent spectrin was found in the Triton-soluble fraction than in the Triton-insoluble fraction (cytoskeleton). In the Triton-soluble fraction, there was 55% more nascent beta spectrin than alpha spectrin, while the cytoskeleton contained nearly equal amounts of alpha and beta spectrin. Cells were pulse-labeled with L-[35S]methionine for 2 min and chase incubated for varying periods of time from 15 to 90 min with nonradioactive L-methionine. Radioactive spectrin accumulated in the Triton-soluble fraction for the first 15 min of chase incubation and then dropped by 25% in the next hour. By contrast, the amount of radioactive spectrin in the Triton-insoluble fraction rose gradually for 1 h of the chase period. This indicates that, in Friend erythroleukemia cells, a pool of membrane-bound spectrin containing an excess of the beta polypeptide is used to form the cytoskeletal system which is composed of equal molar amounts of alpha and beta spectrin. The location of spectrin was determined by immunoelectron microscopy. Small amounts of spectrin were detected in cells not treated with dimethyl sulfoxide and in these cells it was located on the surface membrane and within the cytoplasm. On treatment with dimethyl sulfoxide, complex vacuolar structures containing viruses appeared in the cells. In cells treated with dimethyl sulfoxide for 3 d 30% of the spectrin was near the outer membrane and 25% was associated with vacuolar structures, whereas in cells treated for 5 and 7 d the majority of spectrin (57-61%) was located in the vacuolar areas.     

DMSO increases tyrosine residue phosphorylation in membranes from murine erythroleukemia cells

Phosphorylation of membranes from murine erythroleukemia cells was performed in the presence and absence of the polar solvent dimethyl sulfoxide. Quantitation of the phosphoamino acid content revealed that DMSO stimulated phosphotyrosine accumulation by three-fold; serine and threonine phosphorylation decreased significantly. We had previously shown that DMSO stimulated tyrosine residue phosphorylation of the hepatic epidermal growth factor receptor. EGF had little effect in MEL membranes; therefore, DMSO results in accumulation of phosphotyrosine in cell membranes that do not exhibit significant EGF-dependent phosphorylation.     

Virus production and hemoglobin synthesis in variant lines of dimethyl sulfoxide-treated Friend erythroleukemia cells.

Variant Friend erythroleukemia cell clones were compared in regard to their response to dimethyl sulfoxide and in their abilities to synthesize virus and hemoglobin. Clear evidence was obtained that cellular growth is required for virus production. The effects of dimethyl sulfoxide on virus production were not observed in cell lines that were resistant to growth perturbation by the compound. Studies of cell variants that were defective in either hemoglobin or virus synthesis indicate that these activities are independently regulated.     

Inhibition of dimethyl sulfoxide-induced Friend erythroleukemia cell differentiation in vitro by lithium chloride

This report describes the ability of ultra-pure lithium chloride (LiCl) to influence the growth kinetics and differentiation of Friend erythroleukemia cells in vitro. LiCl (0.2-50 mEq/l) was effective in reducing the ability of Friend cells to grow in liquid suspension culture (p less than or equal to 0.001). In addition, the capacity of these erythroleukemic cells to respond to the inducing agent dimethyl sulfoxide (DMSO) was also significantly reduced (p less than or equal to 0.001). These results demonstrate that LiCl can influence not only the proliferation of erythroleukemia cells but also their subsequent differentiation after exposure to such chemical inducers.     

Isolation and properties of DMSO resistant variant clones of Friend leukemia cells.

DMSO resistant clones have been isolated from the inducible Friend leukemia cell line 5-86 both from unmutagenized cultures and following EMS mutagenesis. All the clones can grow in the presence of 1.8% DMSO and are non-inducible or poorly inducible for hemoglobin synthesis by DMSO as well as by other known inducers of Friend leukemia (FL) cells differentiation like hemin, hypoxanthine, hexamethylene bisacetamide. The clones are also defective for the expression of other properties of differentiating Friend cells like agglutinability by plant lectins and expression of the surface protein glycophorin. Some of the clones show an impaired ability to form tumors in vivo. These resistant clones might be useful for a genetic analysis of the differentiation process of Friend leukemia cells.