Human Erythrocyte Receptor of l-Fucose-specific Lectin Produced by Streptomyces sp.

L-Fucose-specific lectin produced by Streptomyces no. 16-3 (SFL 16-3) was labeled with N- succinimidyl-[2, 3-³H]-propionate to quantitatively investigate its binding to human erythrocytes. The binding inhibition by sugars was competitive, and 5mM L-fucose or 20 mM d-mannose completely inhibited the binding. Among plant lectins, Lotus tetragonolobus, Ulex europeus I, soybean and wheat germ lectin showed competitive inhibition. The association constant and the average number of binding sites for human blood group O erythrocytes were approximately 3 × 10⁷ M^-1 and 1 × 10⁶ cell^-1, respectively. Trypsinization of erythrocytes preferentially increased the number of binding sites for human A and B erythrocytes but not for O erythrocytes.

Membrane components were extracted from human B and O erythrocytes and their binding activity for SFL 16-3 was tested using the hemagglutination-inhibition assay. Poly(glycosyl)-ceramide was the predominant receptor and its fucosyl residue was essential for binding. The crude glycoprotein fraction showed only slight inhibition activity.     

Toxicological effects of silver nanoparticles and cadmium chloride in macrophage cell line (RAW 264.7): An in vitro approach

BackgroundSilver nanoparticles (AgNP) are largely used in nanotechnological products, but the real risks for human and environment are still poorly understood if we consider the effects of mixtures of AgNP and environmental contaminants, such as non-essential metals.MethodsThe aim of the present study was to investigate the cytotoxicity and toxicological interaction of AgNP (1−4 nm, 0.36 and 3.6 μg mL⁻¹) and cadmium (Cd, 1 and 10 μM) mixtures. The murine macrophage cell line RAW 264.7 was used as a model.ResultsEffects were observed after a few hours (4 h) on reactive oxygen species (ROS) and became more pronounced after 24 h-exposure. Cell death occurred by apoptosis, and loss of cell viability (24 h-exposure) was preceded by increases of ROS levels and DNA repair foci, but not of NO levels. Co-exposure potentiated some effects (decrease of cell viability and increase of ROS and NO levels), indicating toxicological interaction.ConclusionThese effects are important findings that must be better investigated, since the interaction of Cd with AgNP from nanoproducts may impair the function of macrophages and represent a health risk for humans.     

Effect of acetaldehyde and glutaraldehyde fixation on the surface properties of red blood cells as determined by partition in aqueous phases

A correlation between partition of cells in dextran/polyethylene glycol aqueous phase systems and their relative electrophoretic mobilities is often in evidence. Absence of such a correlation is indicative that partition measures surface properties other than charge at the plane of shear. Acetaldehyde- and glutaraldehyde-fixed erythrocytes were partitioned in two-polymer phases and their electrophoretic mobility examined in order to investigate the circumstances under which the above-indicated correlation holds. Aspects of the effect of fixation of cells on their surface properties was thereby obtained.

1. 1. Acetaldehyde-fixed and normal human red blood cells have similar partitions and similar electrophoretic mobilities; glutaraldehyde-fixed red cells display markedly increased partitions and mobilities.

2. 2. Lipid-extracted aldehyde-fixed cells have substantially increased partitions, but unchanged mobilities, when compared with the fixed cells from which they were prepared. This indicates that the removal of lipid exposes a higher density of charge groups deeper in the membrane than is measurable by electrophoresis under the conditions used.

3. 3. The countercurrent distribution obtained with fixed cells depends on the length of time chosen for phase settling. Short times result in a single distribution while longer settling times give rise to a two-peak distribution. The latter phenomenon probably arises from a time-dependent aggregation of the fixed cells in the phases.

4. 4. Electrophoretic examination of the glutaraldehyde-fixed cells from different cavities along the extraction train indicates that the fixation process does not eliminate differences in the relative electrophoretic mobilities of erythrocytes of different ages.

     

Detection of surface differences between two closely related cell populations by partitioning isotopically labeled mixed cell populations in two-polymer aqueous phases

The partition behavior of cells in dextran-poly(ethylene glycol) aqueous phases (i.e., the cells' relative affinity for the top or bottom phase or their adsorption at the interface) is greatly dependent on the polymer concentrations and ionic composition and concentration. Appropriate selection of phase system composition permits detection of differences in either charge-associated or lipid-related surface properties. We have now developed a method that can reveal differences by partitioning that fall within experimental error if one were to compare countercurrent distribution (CCD) curves of two closely related cell populations run separately. One cell population is isotopically labeled in vitro (e.g., with⁵¹Cr-chromate) and is mixed with an excess of the unlabeled cell population with which it is to be compared. The mixture is subjected to CCD and the relative specific radio-activities are determined through the distribution. As control we also examine a mixture of labeled cells and unlabeled cells of the same population. The feasibility of this method was established by use of cell mixtures the relative partition coefficients of which were known. The procedure was then used to test for human erythrocyte subpopulations⁵¹Cr-chromate-labeled human young or old red blood cells were mixed with unfractionated erythrocytes and subjected to CCD in a phase system reflecting charge-associated properties. It was found that older cells had a high, young cells (probably only reticulocytes) a low partition coefficient. Because of the small differences involved these results were not previously obtained. It was further determined, by repartitioning⁵¹Cr-labeled cells from the left or right ends of a CCD of human red blood cells admixed to unlabeled unfractionated erythrocytes, that a subpopulation with higher partition coefficient exists (probably constituting the old red cells). These experiments serve to illustrate (a) that human red blood cells, contrary to a previous report, can be subfractionated by partitioning and (b) the usefulness of this new method in detecting smaller surface differences between closely related cell populations than was heretofore possible by partitioning alone.     

S-adenosylmethionine: Protein-carboxyl methyltransferase from erythrocyte

Protein methylase II (S-adenosylmethionine:protein—carboxyl methyltrans-ferase), which modifies free carboxyl residues of protein, was purified from both rat and human blood, and properties of the enzymes were studied. The pH optima for the reaction were dependent on the substrate proteins used; pH 7.0 was found with endogenous substrate, 6.1 with plasma, 6.5 with γ-globulin, and 6.0 with fibrinogen. The molecular weight of the enzymes from both rat and human erythrocytes were identical (25,000 daltons) determined by Sephadex G-75 chromatography. Partially purified enzyme from rat erythrocytes showed three peaks on electrofocusing column at pH 4.9, 5.5 and 6.0. The K_m values of the enzymes from rat and human erythrocytes showed 3.1 × 10^?6m and 1.92 × 10^?6m at pH 6.0, 1.96 × 10^?6m and 1.78 × 10^?6m at pH 7.2, respectively, for S-adenosyl-l-methionine. It is also found that S-adenosyl-l-homocysteine is a competitive inhibitor for protein methylase II with K_i value of 1.6 × 10^?6m.     

The P2X7 receptor mediates the uptake of organic cations in canine erythrocytes and mononuclear leukocytes: comparison to equivalent human cell types

We previously demonstrated that canine erythrocytes express the P2X₇ receptor, and that the function and expression of this receptor is greatly increased compared with human erythrocytes. Using ⁸⁶Rb⁺ (K⁺) and organic cation flux measurements, we further compared P2X₇ in erythrocytes and mononuclear leukocytes from these species. Concentration response curves of BzATP- and ATP-induced ⁸⁶Rb⁺ efflux demonstrated that canine P2X₇ was less sensitive to inhibition by extracellular Na⁺ ions compared to human P2X₇. In contrast, canine and human P2X₇ showed a similar sensitivity to the P2X₇ antagonists KN-62 and Mg²⁺. KN-62 and Mg²⁺ also inhibited ATP-induced choline⁺ uptake into canine and human erythrocytes. BzATP and ATP but not ADP or NAD induced ethidium⁺ uptake into canine monocytes, T- and B-cells. ATP-induced ethidium⁺ uptake was twofold greater in canine T-cells compared to canine B-cells and monocytes. KN-62 inhibited the ATP-induced ethidium⁺ uptake in each cell type. P2X₇-mediated uptake of organic cations was 40- and fivefold greater in canine erythrocytes and lymphocytes (T- and B-cells), respectively, compared to equivalent human cell types. In contrast, P2X₇ function was threefold lower in canine monocytes compared to human monocytes. Thus, P2X₇ activation can induce the uptake of organic cations into canine erythrocytes and mononuclear leukocytes, but the relative levels of P2X₇ function differ to that of equivalent human cell types.     

Detection of Differences in Surface-charge-associated Properties of Cells by Partition in Two-polymer Aqueous Phase Systems

WHEN aqueous solutions of two polymers are mixed in certain proportions they may form two-phase systems^1,2 which can be buffered and used to partition and separate cells, particles and macromolecules by countercurrent distribution (CCD). Partition generally depends on polymer composition and concentration, the ionic composition and the charge sign of the material being partitioned. Such systems have been used to separate erythrocytes from white cells and erythrocytes on the basis of age. Changes in the surface properties of cells resulting from enzyme treatment or storage have also been demonstrated by this means³. Higher cell partition often accompanies increasing electrophoretic mobility which suggests that surface charge may be an important factor in partitioning^4–6. An apparent exception to this is the increased partition of stored human erythrocytes as compared with fresh⁷, as opposed to the mean electrophoretic mobility of both cell populations which remain identical⁸.     

Insulin activation of NADH ferricyanide reductase in human erythrocytes is mediated by the insulin receptor tyrosine kinase: a comparative study in normal and diabetic states

Summary

We have previously reported that NADH ferricyanide reductase in human erythrocytes is stimulated by insulin. Hormone-stimulated activities are attenuated in the presence of glycolytic inhibitors like vanadate, indicating the involvement of glycolysis in the mechanism by which insulin stimulates ferricyanide reduction. Activation of erythrocyte metabolism in response to insulin could be a result of hormone binding to its receptor, inducing phosphorylation of band 3 (at a site for reversible association of glycolytic enzymes) and/or other membrane proteins like the Na⁺/H⁺ antiport. Activation of the antiporter protein by insulin can stimulate glycolysis by an increase in intracellular pH, an effect which is prevented by amiloride. Evidence for a role for tyrosine phosphorylation in triggering the reductase activation came from studies with protein kinase inhibitors. Genistein, sphingosine and acridine orange have been shown to prevent insulin-stimulated ferricyanide reduction, implicating tyrosine phosphorylation as an important signal for activation of the enzyme by insulin. To evaluate activation of the enzyme by insulin stimulated phosphorylation, a comparative study was done using erythrocytes from healthy and diabetic humans. We measured ferricyanide reductase activities in basal and insulin stimulated states. Basal activities were lower in diabetics than in normal humans. Nevertheless, hormone stimulated activities were similar, despite earlier reports of decreased receptor phosphorylation of exogenous substrates in type 2 diabetics. These observations, together with previous ones, suggest that insulin-receptor kinase interaction may mediate the action of insulin on human erythrocytes by phosphorylation of cellular proteins like band 3 and/or the Na⁺/H⁺ antiport.     

Adhesion of Annexin 7 Deficient Erythrocytes to Endothelial Cells

Annexin 7 deficiency has previously been shown to foster suicidal death of erythrocytes or eryptosis, which is triggered by increase of intracellular Ca²⁺ concentration ([Ca²⁺]_i) and characterized by cell shrinkage and cell membrane scrambling with subsequent phosphatidylserine exposure at the cell surface. Eryptosis following increase of [Ca²⁺]_i by Ca²⁺ ionophore ionomycin, osmotic shock or energy depletion was more pronounced in erythrocytes from annexinA7-deficient mice (anxA7^−/−) than in erythrocytes from wild type mice (anxA7^+/+). As phosphatidylserine exposure is considered to mediate adhesion of erythrocytes to the vascular wall, the present study explored adhesion of erythrocytes from anx7^−/− and anx7^+/+-mice following increase of [Ca²⁺]_i by Ca²⁺ ionophore ionomycin (1 µM for 30 min), hyperosmotic shock (addition of 550 mM sucrose for 2 hours) or energy depletion (removal of glucose for 12 hours). Phosphatidylserine exposing erythrocytes were identified by annexin V binding, cell volume estimated from forward scatter in FACS analysis and adhesion to human umbilical vein endothelial cells (HUVEC) utilizing a flow chamber. As a result, ionomycin, sucrose addition and glucose removal all triggered phosphatidylserine-exposure, decreased forward scatter and enhanced adhesion of erythrocytes to human umbilical vein endothelial cells (HUVEC), effects significantly more pronounced in anx7^−/− than in anx7^+/+-erythrocytes. Following ischemia, morphological renal injury was significantly higher in anx7^−/− than in anx7^+/+-mice. The present observations demonstrate that enhanced eryptosis of annexin7 deficient cells is paralleled by increased adhesion of erythrocytes to the vascular wall, an effect, which may impact on microcirculation during ischemia.     

Signaling Pathway in the Osmotic Resistance Induced by Angiotensin II AT2 Receptor Activation in Human Erythrocytes

Background:Angiotensin II regulates blood volume via AT1 (AT1R) and AT2 (AT2R) receptors. As cell integrity is an important feature of mature erythrocyte, we sought to evaluate, in vitro, whether angiotensin II modulates resistance to hemolysis and the signaling pathway involved.Methods:Human blood samples were collected and hemolysis assay and angiotensin II signaling pathway profiling in erythrocytes were done.Results:Hemolysis assay created a hemolysis curve in presence of Ang II in several concentrations (10^-6 M, 10^-8 M, 10^-10 M, 10^-12 M). Angiotensin II demonstrated protective effect, both in osmotic stressed and physiological situations, by reducing hemolysis in NaCl 0.4% and 0.9%. By adding receptors antagonists (losartan, AT1R antagonist and PD 123319, AT2R antagonist) and/or signaling modulators for AMPK, Akt/PI3K, p38 and PKC we showed the protective effect was enhanced with losartan and abolished with PD 123319. Also, we showed activation of p38 as well as PI3K/Akt pathways in this system.Conclusion:Ang II protects human erythrocytes from hypo-osmotic conditions-induced hemolysis by activating AT2 receptors and triggering intracellular pathways.Key Words: Angiotensin II, Erythrocyte, Osmotic fragility, Signaling pathway     

ALBUMIN CAN REVERSE THE RELEASE OF POTASSIUM FROM HUMAN ERYTHROCYTES TREATED WITH THE NON-IONIC DETERGENT,BRIJ 58

Exchange of erythrocyte intracellular (i/c) K⁺for extracellular (e/c) Na⁺in human erythrocytes treated with sub-CMC concentrations of the non-ionic detergent Brij 58 can be stopped by reincubation in serum or albumin containing solutions. The progressive equilibration of the K⁺contents of detergent-treated human erythrocytes with the incubation medium was reversed by an albumin-mediated withdrawal of detergent molecules from the cell. Re-establishment of near normal [K⁺] in terms of K⁺/kg water proceeds in two ways: (i) a metabolism-dependent net accumulation of K⁺ions; and (ii) a metabolism-independent shrinkage of erythrocytes, this being the more significant factor.     

All Lipid-soluble Anaesthetics protect Red Cells

FOR the study of molecular events involved in the membrane action of anaesthetics, a cell is required which responds to all anaesthetics and which has a membrane that can be readily isolated. Erythrocytes may serve this purpose both qualitatively and quantitatively, for all lipid-soluble anaesthetics examined so far protect these cells from hypotonic haemolysis. Table 1 lists the anti-haemolytic concentrations of twelve different families of lipid-soluble anaesthetics including steroids¹, alcohols^2,3, tranquillizers⁴, fatty acids⁵, detergents^6,7, propranolol⁸, vasodilators⁹ and barbiturates¹⁰. Drugs which are highly water-soluble, on the other hand, do not protect erythrocytes from hypotonic haemolysis. Tetrodotoxin is a lipid-insoluble local anaesthetic and does not protect human erythrocytes; this compound, however, does not always anaesthetize excitable membranes¹⁸.     

Hemopoietic progenitor cells with limited potential for differentiation: erythropoietic function of mouse marrow "lymphocytes"

Filtration of mouse marrow cell suspensions over columns of glass wool increased the frequency of small and medium-sized lymphocytes (SML) and of erythropoietic progenitor units (EPU) by about the same factor. Identical results were obtained when erythropoiesis was assayed by isotope uptake (⁵⁹FeCl₃ and ¹²⁵IUdR) or by the spleen-colony techniques. Transfusion of prospective donor mice with erythrocytes virtually eliminated morphologically recognizable erythroid cells from marrow without affecting the frequency of EPU. Injection of prospective donors with cortisol decreased the frequency of SML in marrow but not that of EPU or erythropoietin-sensitive cells. However, glass wool filtration of lymphocyte-poor marrow taken from mice pretreated with cortisol resulted in a similar increase in frequency of residual SML and of EPU. Therefore, it appears that a subpopulation of marrow SML are EPU. Whereas glass wool filtration increased the frequency of erythropoietic progenitor and colony-forming units, the filtration failed to change the frequency of leukopoietic progenitor or colony-forming units (assayed in mice hypertransfused with erythrocytes to suppress erythropoiesis). It follows that separate progenitor cells for erythropoiesis and leukopoiesis are present in bone marrow of adult mice, in addition to pluripotent stem cells.     

The effect of catecholamines and prostaglandins upon human and rat erythrocytes

Both human and rat erythrocytes respond to low doses (10⁻¹¹-10⁻⁹ M) of L-isoproterenol and Lepinephrin with an increased degree of hypotonic hemolysis and a decreased rate of filtration through standardized paper filters. The receptors in both cell types have many of the characteristics of β-receptors for catecholamines. However, hormone-receptor interaction in the human cell does not lead to an increase in intracellular cyclic AMP concentration, but in the rat cell, hormone-receptor interaction does lead to a significant increase in cylic AMP content. Thus, catecholamine-β-receptor interaction, at least in the human red cell, leads to a change in red cell properties which are not mediated by adenylate cyclase activation. Likewise, prostaglandin E₂, at 10⁻¹²-10⁻¹⁰ M, causes an increased degree of hypotonic hemolysis and a decreased rate of filtration through standardized paper filters, but it also does not increase the cyclic AMP content of the human erythrocyte but does increase that of the rat erythrocyte. Nevertheless, exogenous cyclic AMP, when added at a concentration of 10⁻⁸ M to washed human erythrocytes, increases the degree of hypotonic hemolysis. Conversely, prostaglandin E₁, at 10⁻¹²-10⁻¹⁰ M, causes a decreased degree of hypotonic hemolysis and an increased rate of filtration through a standard filter. Both prostaglandin E₂ and the catecholamines decrease the size of a rapidly exchangeable calcium pool, and prostaglandin E₁ increases it.     

Quantitation of DNA in buccal cell samples collected in epidemiological studies

Abstract

Buccal cell samples are increasingly used in epidemiological studies as a source of genomic DNA. The accurate and precise quantitation of human DNA is critical for the optimal use of these samples. However, it is complicated by the presence of bacterial DNA and wide inter-individual variation in DNA concentration from buccal cell collections. The paper evaluated the use of ultraviolet light (UV) spectroscopy, Höechst (H33258) and PicoGreen? as measures of total DNA, and real-time quantitative polymerase chain reaction (PCR) as a measure of human amplifiable DNA in buccal samples. Using serially diluted white blood cell DNA samples (at a concentration range of 300 to 0.5?ng µl^?1), UV spectroscopy showed the largest bias, followed by Höechst, especially for low concentrations. PicoGreen and real-time PCR provided the most accurate and precise estimates across the range of concentrations evaluated, although an increase in bias with decreasing concentrations was observed. The ratio of real-time PCR to PicoGreen provided a reasonable estimate of the percentage of human DNA in samples containing known mixtures of human and bacterial DNA. Quantification of buccal DNA from samples collected in a breast cancer case-control study by PicoGreen and real-time PCR indicated that cytobrush and mouthwash DNA samples contain similar percentages of human amplifiable DNA. Real-time PCR is recommended for the quantification of buccal cell DNA in epidemiological studies since it provides precise estimates of human amplifiable DNA across the wide range of DNA concentrations commonly observed in buccal cell DNA samples.     

Inhibition of the Na+/K+ cotransport system by cyclic AMP and intracellular Ca2+ in human red cells

Human erythrocytes are able to incorporate cyclic AMP (cAMP) in amounts larger than those required to saturate cAMP-dependent protein kinase. In contrast to previous observations in avian red blood cells in which cAMP stimulates the Na⁺/K⁺ cotransport system, we demonstrate that cAMP inhibits this system in human erythrocytes. The cotransport inhibition is enhanced by addition of phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine to the incubation medium. The cAMP concentration giving half-maximal cotransport inhibition showed a wide variation among different individuals (from 0.1 to 5 mM external cAMP concentration). In contrast to cAMP, cyclic GMP showed little effect on the cotransport system. Ca²⁺ introduced into the cell interior was an inhibitor of the Na⁺/K⁺ cotransport system. These results suggest that in human cells in which endogeneous levels of cAMP and Ca²⁺ are modulated by hormones, the Na⁺/K⁺ cotransport system may be under hormonal regulation.     

Synthesis and carbonic anhydrase inhibitory properties of novel coumarin derivatives

A newly series of water-soluble 1-alkyl-3-(4-methyl-7, 8-dihydroxy-2H-chromen-2-one) benzimidazolium chloride salts (3a-j) were synthesized and their inhibitory effects on the activity of purified human carbonic anhydrase (hCA) I and II were evaluated. hCA I and II from human erythrocytes were purified by a simple one step procedure by using Sepharose 4B-L-tyrosine-sulphanilamide affinity column. The result showed that all the synthesized compounds were inhibited the CA isoenzymes activity. Among them, 3g and 3j were found to be most active (IC₅₀ = 22.09 µM and 20.33 µM) for hCA I and hCA II, respectively.     

Purification and immobilization of NAD+ synthetase from Escherichia coli

The enzyme NAD⁺synthetase [deamido-NAD⁺: ammonia ligase (AMP-forming), EC 6.3.1.5] is used for the preparation of 2 μmol isotopically labelled [¹³N]NAD⁺, a radiopharmaceutical designed for positron emission tomography. To obtain a rapid and high yield synthesis of [¹³N]NAD⁺, the NAD⁺synthetase is immobilized on porous glass beads and packed in a column. The NAD⁺synthetase was obtained from Escherichia coli. Different strains were tested; the cell culture technique was optimized. A new, high yield purification was applied. A screening of different immobilization techniques was done. The selected immobilization method was further optimized to increase the enzymatic activity of the enzyme-loaded glass beads. The latter were packed into a glass column. The kinetic properties of this column were investigated and optimized.     

On the separation of 99mTcO4-, 99mTc-DTPA and 99mTc-citrate as marker species for the determination of Tc chemical forms in plant material using capillary zone electrophoresis

ABSTRACT

The present paper addresses the potential use of capillary zone electrophoresis (CZE) as an analytical tool in 99- technetium speciation studies. In order to optimise sampling, storage and analytical procedures, the three marker compounds ^99mTcO₄-, ^99mTc-DTPA and ^99mTc-citrate were synthesised and used in test-measurements with CZE. The results underline the superior separation power of the CZE technique, and indicate good CZE performance for the stable ^99mTcO₄- and ^99mTc-DTPA compounds. The data suggest that CZE may be used without problems for various Tc-compounds of intermediate mobilities. The specific data of ^99mTc-citrate suggest that with this marker compound a threshold lability is reached for the use of CZE in plant Tc-speciation studies. This result means that CZE cannot be used in analyses of Tc-compounds which are less stable than Tc-citrate. Future CZE work will comprise the synthesis and use of Tc-markers of intermediate mobilities and stabilities; furthermore, effects of marker matrices and the plant matrix on CZE performance will be investigated.     

The ferritin content of human red blood cells during the replacement of embryonic cells by fetal cells

Mature human embryonic erythrocytes (hemoglobin is ≥ 90% of the cellular protein) contained at least 20 times as much ferritin as human adult erythrocytes, suggesting the possibility that the embryonic red cells participate in iron storage as they do in other embryonic or larval vertebrates. The ferritin content of mature red cells in the circulation declined when fetal red cells replaced embryonic red cells; the cell replacement was monitored by the disappearance of embryonic ε-chains and the appearance of the fetal globin chains, γ^A and γ^G. A constant ratio of 0.67 was obtained for $\text{γ}{}^{\mathrm{<mtext>G</mtext>}}\text{γ}{}^{\mathrm{<mtext>A</mtext>}}\text{+ γ}{}^{\mathrm{<mtext>G</mtext>}}$ from the first detectable appearance (4 weeks after conception) until 13 weeks, a value which is similar to the value previously obtained at 20 weeks gestation and birth but higher than that observable in adults; thus, both γ^G and γ^A chains are produced in similar amounts throughout gestation. The high levels of ferritin in normal human embryonic erythrocytes emphasize the similarity of erythropoiesis in human embryos and other vertebrates. In addition, the results show that red cell ferritin can be used as a marker for studying the mechanism of induction of embryonic erythropoiesis in cultured cell lines, such as K562 from human chronic myelocytic leukemia, and that ferritin content may also serve as a marker for cellular transformations involving reversions to embryonic erythropoiesis.