Effect of anandamide on erythrocyte survival.

The endocannabinoid anandamide (Arachidonylethanolamide, AEA) is known to induce apoptosis in a wide variety of nucleated cells. The present study explored whether anandamide induces suicidal death of erythrocytes or eryptosis, which is characterized by cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the erythrocyte surface. Eryptotic cells are phagocytosed and thus cleared from circulating blood. Triggers of eryptosis include increase of cytosolic Ca2+ activity, formation of PGE(2), oxidative stress and excessive cell shrinkage. Erythrocyte Ca2+ activity was estimated from Fluo3 fluorescence, phosphatidylserine exposure from annexin V binding, and erythrocyte volume from forward scatter in FACS analysis. Exposure of erythrocytes to anandamide (= 2.5 microM) increased cytosolic Ca2+ activity, enhanced the percentage of annexin V binding erythrocytes and decreased erythrocyte forward scatter, effects significantly blunted in the presence of cycloxygenase inhibitors acetylsalicylic acid (50 microM) or ibuprofen (100 microM) and in the nominal absence of extracellular Ca2+. Anandamide further enhanced the stimulating effects of hypertonic (addition of 550 mM sucrose) or isotonic (isosmotic replacement of Cl- with gluconate) cell shrinkage on annexin V binding. The present observations demonstrate that anandamide increases cytosolic Ca2+ activity, thus leading to cell shrinkage and cell membrane scrambling of mature erythrocytes.     

Curcumin induced suicidal erythrocyte death.

The natural nutrient component Curcumin with anti-inflammatory and antitumor activity has previously been shown to stimulate apoptosis of several nucleated cell types. The present study has been performed to explore whether Curcumin could similarly induce suicidal death of erythrocytes or eryptosis, which is characterized by cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the erythrocyte surface. Phosphatidylserine exposing cells are phagocytosed and thus rapidly cleared from circulating blood. Erythrocyte membrane scrambling may be triggered by increase of cytosolic Ca(2+) activity or formation of ceramide. To test for eryptosis, erythrocyte phosphatidylserine exposure has been estimated from annexin V binding, and erythrocyte volume from forward scatter in FACS analysis. Exposure of erythrocytes to Curcumin (= 1 microM) increased annexin V binding and decreased forward scatter, pointing to phosphatidylserine exposure at the cell surface and cell shrinkage. According to Fluo3 fluorescence Curcumin increased cytosolic Ca(2+) activity and according to immunofluorescence Curcumin increased ceramide formation. As shown previously, hypertonic shock (addition of 550mM sucrose), chloride removal and glucose depletion decreased the forward scatter and increased annexin V binding. The effects on annexin binding were enhanced in the presence of Curcumin. Exposure to Curcumin did, however, not significantly enhance the shrinking effect of hypertonic shock or Cl(-) removal and reversed the shrinking effect of glucose withdrawal. The present observations disclose a proeryptotic effect of Curcumin which may affect the life span of circulating erythrocytes.     

Low-pH association of proteins with the membranes of intact red blood cells. I. Exogenous glycophorin and the CD4 molecule

Glycophorin and CD4 proteins are tightly associated with intact human erythrocyte membranes after a short-time incubation at low pH (1-2 min, pH lower than 5, 37 degrees C). Flow cytometry and epifluorescence microscope observations showed that after incubation of red cells with fluorescein isothiocyanate (FITC) labeled glycophorin at pH values lower than 5, the erythrocyte membrane and subsequently formed ghost membranes were fluorescent. Unlabeled glycophorin was reacted with mouse erythrocytes using the same low-pH conditions. Flow cytometry and fluorescence microscopy showed that anti-glycophorin monoclonal antibodies were able to recognize the epitopes of glycophorin associated with the mouse erythrocytes. Kinetic experiments showed that the interaction of FITC-glycophorin with red cell membranes can be monitored by a decrease in the fluorescence intensity. Erythrocyte associated glycophorin was not removed from the membranes after 24 h incubation in human plasma (in vitro, 39 degrees C). A glycoprotein extract containing CD4 was isolated from a T4-lymphoma cell line (CEM). This protein extract was incubated with erythrocytes using the same low-pH conditions. Fluorescently labeled monoclonal antibodies against CD4 stained the red cells after association of CD4 with the membranes. Electron microscopy showed 10 nm immunoglobulin G-coated gold beads associated with CD4-bearing erythrocyte membranes after incubation with anti-CD4 antibodies and then with the gold beads. The potential use of the CD4-erythrocyte complex as a therapeutical agent against acquired immune deficiency syndrome (AIDS) is suggested.     

Flow microfluorometric analysis of living spermatozoa stained with Hoechst 33342

Bovine spermatozoa were stained with Hoechst 33342. The fluorescence distribution of stained spermatozoa was complex. Non-motile spermatozoa displayed a higher fluorescence than did motile spermatozoa. The fluorescence profile of the motile spermatozoa was bimodal. Sort and reanalysis, and orientation experiments suggested that there are two distinct populations of motile spermatozoa.     

Transmembrane distribution of sterol in the human erythrocyte

The transbilayer cholesterol distribution of human erythrocytes was examined by two independent techniques, quenching of dehydroergosterol fluorescence and fluorescence photobleaching of NBD-cholesterol. Dehydroergosterol in conjunction with leaflet selective quenching showed that, at equilibrium, 75% of the sterol was localized to the inner leaflet of resealed erythrocyte ghosts. NBD-cholesterol and fluorescence photobleaching displayed two diffusion values in both resealed ghosts and intact erythrocytes. The fractional contribution of the fast and slow diffusion constants of NBD-labelled cholesterol represent its inner and outer leaflet distribution. At room temperature the plasma membrane inner leaflet of erythrocyte ghosts as well as intact erythrocytes cells contained 78% of the plasma membrane sterol. The erythrocyte membrane transbilayer distribution of sterol was independent of temperature. In conclusion, dehydroergosterol and NBD-cholesterol data are consistent with an enrichment of cholesterol in the inner leaflet of the human erythrocyte.     

A new method for fish leucocyte counting and partial differentiation by flow cytometry

A simple and rapid method for analysis of fish blood cells is presented. Carp (Cyprinus carpio) blood was diluted 200 times with Hanks' solution containing 1 microg/ml of DiOC6(3) which is a fluorescent, lipophilic dye. After staining for 10 min, the blood cells were measured by a flow cytometer (FACS). Several blood cell populations were identified by different FL-1 (green fluorescence), FSC (forward scatter), and SSC (side scatter) properties. FL-1 v. SSC or FSC v. SSC dot-plot of stained blood cells displayed five separate cell populations: erythrocytes: a mixture of thrombocytes plus lymphocytes; monocytes; neutrophils; and basophils. The number of each type of blood cell counted by the FACS was in good agreement with those counted microscopically.     

Determination of the orientation distribution of adsorbed fluorophores using TIRF. II. Measurements on porphyrin and cytochrome c.

The theory for determination of the orientation of adsorbed fluorescent molecules using total internal reflection fluorescence, as explained in part I of this series, is illustrated by measurements on adsorbed tetramethylpyridinium porphyrin (H2TMPyP) and porphyrin cytochrome c molecules. The results are encouraging, although for porphyrin cytochrome c the scatter in the obtained order parameters is substantial. For H2TMPyP molecules adsorbed on glass the orientation distribution depends on the solution concentration. At low concentration, the H2TMPyP molecules are more or less randomly oriented, whereas at high concentrations a broad distribution around an angle of 46 degrees between the porphyrin plane and surface was found. For cytochrome c adsorbed on glass and indium tin oxide it was impossible to interpret the data in terms of orientation distributions because of the scatter in the results. The total fluorescence as a function of the polarization angle psi of the incident light beam corresponds to an average angle between the porphyrin group and the surface of 30 degrees-40 degrees. Despite the strong electric dipole moment of the protein, the orientation distribution seems to be independent on the (imposed) electrical potential of the interface.     

Protein kinase CK1α regulates erythrocyte survival

Protein kinase CK1 (casein kinase 1) isoforms are involved in the regulation of various physiological functions including apoptosis. The specific CK1 inhibitor D4476 may either inhibit or foster apoptosis. Similar to apoptosis of nucleated cells, eryptosis, the suicidal death of erythrocytes, is paralleled by cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the cell surface. Triggers of eryptosis include increase of cytosolic Ca(2+) activity following energy depletion (removal of glucose) or oxidative stress (exposure to the oxidant tert-butyl hydroperoxide [TBOOH]). Western blotting was utilized to verify that erythrocytes express the protein kinase CK1α, and FACS analysis to determine whether the CK1 inhibitor D4476 and CK1α activator pyrvinium pamoate modify forward scatter (reflecting cell volume), annexin V binding (reflecting phosphatidylserine exposure), and Fluo3 fluorescence (reflecting cytosolic Ca(2+) activity). As a result, both, human and murine erythrocytes express CK1 isoform α. Glucose depletion (48 hours) and exposure to 0.3 mM TBOOH (30 minutes) both decreased forward scatter, increased annexin V binding and increased Fluo3 fluorescence. CK1 inhibitor D4476 (10 μM) significantly blunted the decrease in forward scatter, the increase in annexin V binding and the increase in Fluo 3 fluorescence. (R)-DRF053, another CK1 inhibitor, similarly blunted the increase in annexin V binding upon glucose depletion. The CK1α specific activator pyrvinium pamoate (10 μM) significantly enhanced the increase in annexin V binding and Fluo3 fluorescence upon glucose depletion and TBOOH exposure. In the presence of glucose, pyrvinium pamoate slightly but significantly increased Fluo3 fluorescence. In conclusion, CK1 isoform α participates in the regulation of erythrocyte programmed cell death by modulating cytosolic Ca(2+) activity.     

Ceranib‐2‐induced suicidal erythrocyte death

Ceramide is known to trigger apoptosis of nucleated cells and eryptosis of erythrocytes. Eryptosis is characterized by cell shrinkage and cell membrane scrambling with phosphatidylserine translocation to the erythrocyte surface. Besides ceramide, stimulators of eryptosis include increase of cytosolic Ca²⁺‐activity ([Ca²⁺]_i) and oxidative stress. Ceramide is degraded by acid ceramidase and inhibition of the enzyme similarly triggers apoptosis. The present study explored, whether ceramidase inhibitor Ceranib‐2 induces eryptosis. Flow cytometry was employed to quantify phosphatidylserine‐exposure at the cell surface from annexin‐V‐binding, cell volume from forward scatter, [Ca²⁺]_i from Fluo3‐fluorescence, reactive oxygen species (ROS) from DCF dependent fluorescence, and ceramide abundance utilizing specific antibodies. Hemolysis was estimated from hemoglobin concentration in the supernatant. A 48 h exposure of human erythrocytes to Ceranib‐2 significantly increased the percentage of annexin‐V‐binding cells (≥50 μM) and the percentage of hemolytic cells (≥10 μM) without significantly modifying forward scatter. Ceranib‐2 significantly increased Fluo3‐fluorescence, DCF fluorescence and ceramide abundance. The effect of Ceranib‐2 on annexin‐V‐binding was not significantly blunted by removal of extracellular Ca²⁺. Ceranib‐2 triggers phospholipid scrambling of the erythrocyte cell membrane, an effect at least in part due to increase of ceramide abundance and induction of oxidative stress, but not dependent on Ca²⁺ entry. Copyright © 2016 John Wiley & Sons, Ltd.     

Inhibition of suicidal erythrocyte death by blebbistatin

Blebbistatin, a myosin II inhibitor, interferes with myosin-actin interaction and microtubule assembly. By influencing cytoskeletal dynamics blebbistatin counteracts apoptosis of several types of nucleated cells. Even though lacking nuclei and mitochondria, erythrocytes may undergo suicidal cell death or eryptosis, which is characterized by cell shrinkage and cell membrane scrambling with phosphatidylserine exposure at the cell surface. Triggers of eryptosis include energy depletion and osmotic shock, which enhance cytosolic Ca(2+) activity with subsequent Ca(2+)-sensitive cell shrinkage and cell membrane scrambling. The present study explored the effect of blebbistatin on eryptosis. Cell membrane scrambling was estimated from binding of annexin V to phosphatidylserine at the erythrocyte surface, cell volume from forward scatter in fluorescence-activated cell sorting analysis and cytosolic Ca(2+) concentration from Fluo3 fluorescence. Exposure to blebbistatin on its own (1-50 μM) did not significantly modify cytosolic Ca(2+) concentration, forward scatter, or annexin V binding. Glucose depletion (48 h) was followed by a significant increase of Fluo3 fluorescence and annexin V binding, effects significantly blunted by blebbistatin (Fluo3 fluorescence ≥ 25 μM, annexin V binding ≥ 10 μM). Osmotic shock (addition of 550 mM sucrose) again significantly increased Fluo3 fluorescence and annexin binding, effects again significantly blunted by blebbistatin (Fluo3 fluorescence ≥ 25 μM, annexin V binding ≥ 25 μM). The present observations disclose a novel effect of blebbistatin, i.e., an influence on Ca(2+) entry and suicidal erythrocyte death following energy depletion and osmotic shock.     

The effect of erythrocyte associated light scattering on membrane fluorescence polarization

Summary The apparent membrane fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene has been reported to be lower in intact erythrocytes than in isolated erythrocyte membranes. Although this difference was once suggested to be caused by the fluidizing effect associated with the loss of erythrocyte proteins during membrane isolation, it is currently thought to be an artifact resulting from intense light scattering properties of intact erythrocytes which overwhelm extrapolation methods of correcting for light scattering. This study confirmed that, at erythrocyte concentrations greater than 10⁷ cells/ml, this difference was caused by intense light scattering; however, at erythrocyte concentrations less than 4.0 × 10⁶ cells/ml, the anisotropy values for erythrocytes and isolated membranes are identical, demonstrating that intense light scattering can be overcome with dilute suspensions of cells.     

Whole blood fixation and permeabilization protocol with red blood cell lysis for flow cytometry of intracellular phosphorylated epitopes in leukocyte subpopulations.

BACKGROUND: Previous studies of intracellular expression of phospho-epitopes in human leukocytes using flow cytometry have used erythrocyte removal or lysis before fixation. Because many of the phospho-epitopes of interest are part of signaling networks that respond to the environment and turn over rapidly, the interval and manipulations used to eliminate erythrocytes from samples have the potential to introduce artifacts. We report a procedure to fix samples containing red blood cells with formaldehyde and then remove erythrocytes by lysis. Detection of phospho-Thr 202/Tyr 204-p44/42 extracellular-regulated kinase (ERK) after phorbol ester acetate (PMA) stimulation was used as a model to measure phospho-epitopes in leukocyte populations in whole blood. METHODS: Normal blood samples were activated with PMA followed by formaldehyde fixation and subsequent treatments with detergents and protein denaturants. The effects of each treatment were monitored by light scatter, selected CD expression intensity, and phosphorylated ERK (pERK) expression. RESULTS: Red cells could be lysed using 0.1% Triton X-100 after brief fixation of whole blood with 2% or 4% formaldehyde. Light scatter improved as a function of formaldehyde concentration and inversely with MeOH concentration. CD3 signal intensity increased when MeOH concentration was reduced. The ratio of pERK immunofluorescence in PMA-stimulated versus nonstimulated (control) samples was highest with high MeOH (90%) and lowest without MeOH treatment. This pattern is consistent with epitope unmasking by alcohol. The pERK epitope could also be unmasked by treatment with high salt, urea, acid, or heat, but none of these produced the level of unmasking of MeOH and each of these was associated with degradation of light scatter and CD3 staining intensity. The final procedure employed 4% formaldehyde, 0.1% Triton X-100, followed by 50% methanol denaturation. Samples prepared in this way demonstrated good preservation of light scatter and surface immunophenotypic patterns, similar to those obtained using a commercial whole blood/red blood cell lysing system (Q-Prep) and an acceptable PMA-stimulated pERK signal (essentially 100% of CD3+ cells that are pERK positive). CONCLUSIONS: Brief fixation of whole blood in 4% formaldehyde followed by treatment with Triton X-100 results in erythrocyte lysis and leukocyte light scatter and immunophenotypic features equivalent to those of other commercial lysis reagents. Intracellular pERK staining is significantly improved by treatment with methanol, but levels of MeOH above 50% degrade light scatter and CD3 expression. This protocol (formaldehyde/Triton X-100/MeOH) circumvents potential artifactual changes in phospho-epitopes due to removal of erythrocytes or erythrocyte lysis followed by fixation, and results in a pERK signal that resolves positive from negative cell populations.     

Uniform lateral orientation, caused by flow forces, of flat particles in flow-through systems.

Recently, it was shown that the lateral orientation of sperm cells disturbs the deoxyribonucleic acid distribution measured by fluorescence in a laterally laser-illuminated flow system. The present results show how flat particles may be influenced to assume a uniform lateral orientation. This was achieved by choosing the geometrical dimensions of the hydrodynamic focusing flow path. High speed photographs of fixed chicken erythrocytes oriented in experimental chambers are presented.     

High affinity L-triiodothyronine binding to right-side-out and inside-out vesicles from rat and human erythrocyte membrane

3,5,3'-Triiodo-L-thyronine (L-T3)-binding sites from rat and human red cells were characterized as to their distribution between the two surfaces of the membrane. Analysis of L-T3 binding to sealed right-side-out and inside-out vesicles from erythrocyte membrane revealed that high affinity L-T3-binding sites are located on the external side in rat erythrocytes and on the internal side in human red cells. These results were further confirmed by preincubation of intact red cells with p-chloromercuribenzoate, a slowly permeant reagent that interacts reversibly with SH groups of proteins. Following this treatment only the SH groups of L-T3 sites from rat erythrocytes were found to be blocked. Scatchard analysis of the binding data for rat right-side-out and human inside-out vesicles showed high affinity sites with Kd values of 0.2 x 10(-10) and 2 x 10(-10) M, respectively. The results suggest that the orientation of L-T3-binding sites in the erythrocyte membrane is species-dependent.     

Flow cytometry to evaluate Theileria sergenti parasitemia using the fluorescent nucleic acid stain, SYTO16

BACKGROUND: Although the infection of Theileria sergenti is demonstrated by intraerythrocytic localization of this parasite, much time and labor are necessary in order to determine this. We applied flow cytometry to evaluate T. sergenti parasitemia using the fluorescent nucleic acid stain method. METHODS: Peripheral blood samples from cattle infected with T. sergenti were stained with a membrane-permeable fluorescent nucleic acid stain, SYTO16, and hydroethidine (HE). Stained parasitized erythrocytes were measured by a flow cytometer equipped with a single argon laser operating at 488 nm. RESULTS: SYTO16-stained intraerythrocytic parasites were detected on the FL1 (525 nm) and parasitized cells were separated completely from unparasitized cells. However, HE-stained erythrocytes could not be divided clearly into parasitized and unparasitized cells. SYTO16-stained parasites were reproducibly detected at a percentage above 0.1%. Contaminating leukocytes, which were indicated by CD18-positive cells, were eliminated from the analysis by narrowing the light scatter gate of the erythrocyte fraction. A correlation (r = 0.983) between the percentage of SYTO16-positive cells and parasitemia in grazing cattle was observed. CONCLUSIONS: Flow cytometric detection using SYTO16 is a rapid and reliable method of monitoring parasitemia in T. sergenti-infected cattle.     

Membrane orientation of sheep spectrin

Based primarily on studies of human erythrocytes, current theories of the structure and organization of erythrocyte membrane localize spectrin to the membrane cytoplasmic surface. Affinity purified anti-sheep spectrin antibodies were used in indirect immunofluorescence studies of intact erythrocytes from various vertebrate species and inside-out and right-side-out impermeable sheep erythrocyte vesicles. This investigation detected immunologically reactive external and potentially transmembranal determinant(s) of the sheep erythrocyte spectrin "assembly." Parallel studies using anti-sheep and anti-human spectrin antibodies, as well as 125I surface-labelling studies of intact sheep and human erythrocytes, indicated that this particular membrane orientation of spectrin was evident in sheep but not in human erythrocytes. Antisera containing antibodies to the external portion of this spectrin "assembly" demonstrated external fluorescence to a variable degree on some, but not all, vertebrate erythrocytes surveyed, confirming that the sheep erythrocyte was not the only exception. It is suggested that there may be subtle species variability in the intermolecular associations of the spectrin "assembly" with(in) the erythrocyte membrane not requiring alterations of the spectrin molecule itself.     

Measurement of erythrocyte orientation in flow by spin labeling II--phenomenological models for erythrocyte orientation rate

We present two phenomenological models describing the flowing erythrocyte orientation rate. The first concerns the onset of a stable orientation in a very dilute erythrocyte suspension. It is based on a simple formula for erythrocyte elongation as a function of shear stress, and we assume that beyond a threshold of elongation, erythrocytes take on a stable orientation, while below this threshold, they have a flipping motion. We extend this model to high hematocrit values assuming that the effect of red cell collisions imposes a random moment to each erythrocyte, shifting it from its stable orientation. We obtain an approximate expression for erythrocyte orientation rate as a function of shear rate and then we compare these results to our experimental data in part III of this series.     

Subpopulation analysis of drug-induced cell-cycle delay in human tumor cells using 90 degrees light scatter

A mitotic cell subset has been identified with nuclear light scatter. Colcemid-treated T-47D human breast cancer cells were permeabilised, stained with ethidium bromide, and analysed by flow cytometry. Cells with G2M DNA content exhibited a unimodal distribution for DNA fluorescence and forward scatter, but two peaks were discernible with 90 degrees light scatter. A discrete low-scattering cell cluster could be distinguished from the G2 cell subset on two-dimensional contour plots of 90 degrees light scatter vs. DNA fluorescence; this cluster was reproduced by mitotic shake-off experiments and varied quantitatively with mitotic indices determined either by microscopy or by stathmokinetic cell-cycle analysis of DNA fluorescence. Cell sorting confirmed that the low-scattering cell cluster comprised predominantly metaphase and anaphase cells. Identification of mitotic cells with this one-step technique enables rapid analysis of drug-induced cell-cycle delay in cell populations with different rates of cell-cycle traverse. Hence, vincristine-induced cytostasis is shown to arise in part because of premitotic G2 arrest, whereas etoposide is shown to affect cycling cells with equal sensitivity in quiescent and activated cell populations. The use of light scatter to discriminate mitotic cells in this way facilitates analysis of drug-induced cell-cycle delay and supplements the information obtainable by conventional cell-cycle analysis.     

Increased adherence of oxidant-treated human and bovine erythrocytes to cultured endothelial cells

Bovine erythrocytes, which normally lack phosphatidyl choline in their membranes, when treated with either H2O2 or diamide (1-3 mM), showed a partial appearance of phosphatidyl ethanolamine (PE 40%) and phosphatidyl serine (PS, 30-33%) in the external leaflet of the bilayer and a concomitant increased (four- to five-fold) propensity to adhere to cultured bovine aortic endothelial cells. Similar treatment of normal human erythrocytes caused an alteration in the organization of the phospholipid bilayer and also resulted in their increased adherence to endothelial cells derived either from human umbilical vein or bovine aorta. Treatment of RBCs with H2O2 at low concentration (0.5 mM) resulted in cross-linking of spectrin without significant changes in the orientation of aminophospholipids but the RBCs exhibited 15-20% increase in adherence to endothelial cells. Pretreatment of either human or bovine erythrocytes with antioxidants such as vitamin E (2 mM) prevented both oxidant-induced reorganization of phospholipids in the bilayer and enhancement of adherence to endothelial cells. Introduction of either phosphatidyl serine or phosphatidyl ethanolamine but not phosphatidyl choline into erythrocyte membranes increased their adherence to endothelial cells threefold. Oxidant-treated RBCs exhibited enhanced binding and fluorescence of Merocyanine 540 dye (MC-540), which is sensitive to the packing of lipids in the lipid bilayer. On flow cytometric analysis, 78% of H2O2 (0.5 mM)-treated erythrocytes compared to 30% of untreated RBCs exhibited MC-540 binding and fluorescence, indicating differences in the lipid packing in the outer leaflet of the bilayer. Oxidant-treated erythrocytes adhere preferentially to endothelial cells rather than to bovine aortic smooth muscle cells and skin fibroblasts. It is suggested that the alterations in the erythrocyte membrane surface due to spectrin cross-linking and the organization of the phospholipids concomitant with less ordered packing in the external leaflet of the bilayer, either induced by oxidative manipulation in normal RBC or in pathological erythrocytes, play a role in erythrocyte-endothelial cell interaction.     

Altered self-erythrocyte recognition and destruction in an inbred line of tilapia (Oreochromis aureus)

Carboxyfluorescein diacetate (cFDA)-stained autologous and syngeneic tilapia (Oreochromis aureus) erythrocytes are recognized by effector peripheral blood leukocytes and lysed after a short culture period of 4 h. The hemolysis level was evaluated by measuring the fluorescence of the released cFDA. The degree of lysis of stained target erythrocytes of 60 individuals revealed a trimodal distribution statistically stratified into three groups of low (LR), intermediate (IR), and high (HR) responders. Depletion of the majority of phagocytes from leukocytes lowered the lysis level of HR to that of LR. A highly significant increase of LR cytotoxicity was obtained after the addition of conditioned medium from HR but only in the presence of phagocytes. Genetic analysis of offspring from four crosses (IR x HR, IR x LR, HR x LR, and LR x LR) revealed a quantitative trait locus (QTL) segregating for the level of response linked to markers UNH207 and UNH231 on linkage group 6 of tilapia. Based on segregation analysis of 58 gynogenetic BIU-1 offspring, the distances from the centromere were estimated as 21.5, 11.5, and 9.0 cM for UNH207, UNH231, and the QTL, respectively. It is suggested that 1) self-target recognition and destruction requires both cFDA-altered self-erythrocyte membrane and membrane structures normally present in autologous, syngeneic, and xenogeneic targets; 2) natural cytotoxic cells and/or macrophages are involved in erythrocyte lysis; and 3) the lysis level is codominantly inherited by a QTL segregating on tilapia linkage group 6.