Viability Of Human Lymphocytes Research Articles

Evaluation of the Toxicity of Two Electron-Deficient Half-Sandwich Complexes against Human Lymphocytes from Healthy Individuals.

Electron-deficient half-sandwich complexes are a class of under-studied organometallics with demonstrated potential as metallodrug candidates. This study investigates the effect of two 16-electron organoruthenium complexes ([(p-cym)Ru(benzene-1,2-dithiolato)] (1) and [(p-cym)Ru(maleonitriledithiolate)] (2)) on the cell viability of non-immortalised human lymphocytes from healthy individuals. The genotoxic effects of 1 and 2 in lymphocytes are also investigated by using the Comet and cytokinesis-block micronucleus assays. Gene expression studies were carried out on a panel of genes involved in apoptosis and the DNA damage-repair response. Results show that the two 16-electron complexes do not have significant effect on the cell viability of human lymphocytes from healthy individuals. However, an increase in DNA damage is induced by both compounds, presumably through oxidative stress production.

Phytochemical composition and in vitro safety evaluation of Ziziphora clinopodioides Lam. ethanolic extract: Cytotoxicity, genotoxicity and mutagenicity assessment

Ethnopharmacological relevanceThe application of the herb Ziziphora clinopodioides Lam. in folk medicine and as a food additive has been recommended due to its many claimed bioactivities. Regardless of the plant benefits, its safety considerations are largely unknown. Aim of the studyThe aim of the present research was to determine the chemical compositions and cytotoxicity, genotoxicity, and mutagenicity potentials of the ethanolic extract of Ziziphora clinopdioides Lam. (EEZC). Materials and methodsGC-MS and LC-MS analysis were used for chemical composition determination. The MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) and trypan blue exclusion dye assays were used for cytotoxicity and the Comet assay was employed for genotoxicity assessment on human blood lymphocytes. Also, the Ames Salmonella/microsome test was carried out for the evaluation of mutagenicity. ResultsPulegone was the main component of the n-hexane fraction. Different phenolic acids and flavonoids were detected by LC-MS. The cytotoxicity study indicated a conspicuous decline in human lymphocyte viability ranging from 52% to 100% as showed by the MTT assay and 67% up to 100% by the trypan blue assay, at 1 and 10 mg/mL, respectively. The Comet assay results revealed a dose dependent genotoxicity, in so much as 90% and 98% of the cells were screened as damaged at concentrations of 5 and 10 mg/mL, respectively. An incidence rate of 8% and 13% of grade 4 damage was observed at 5 and 10 mg/mL, respectively. Additionally, the DNA damage index (DI) was elevated dose-dependently by a rising concentration of the extract, wherein the DI at 10 mg/mL concentration was 2.22, which was 22 times greater than that of negative control, and even more than positive control. The Ames test exhibited no signs of mutagenicity for neither Salmonella typhimurium TA98 nor TA100 strains, accompanied or unaccompanied by S9 metabolic activation. ConclusionResults indicated a dose-dependent cytotoxicity and genotoxicity potential of the EEZC on human lymphocytes, suggesting that this plant should be used with caution by consumers, even in the food and pharmaceutical industries. Since the plant usage in daily life continues to increase due to its ever growing phytotherapical and phytonutritional properties, it may pose a health risk by its high concentration's uptake. Although no mutagenicity of this extract was observed in this study, further research is recommended to clarify the mutagenic risks of this herb.

The Therapeutic Effects of an Antimicrobial Peptide Protonectin (IL-12) on A549 Cancer Cell Line

In the study, the impact of protonectin (IL-12) on the bioavailability of human lung carcinoma cell line A549 as well as on HFLF healthy lung fibroblast cells was investigated for 24 h and 48 h. Results demonstrated highest cytotoxicity of protonectin on the A549 cell line at 12 µg/ml and 50 µg/ml, and after 48 h and 24 h cell incubation respectively. No cytotoxicity was observed during the incubation of normal HFLF lung cells with the IL-12 peptide. The peptide did not have any significant impact on the hemolysis of human and cattle red blood cells as well as on the viability of human lymphocytes. The effect of protonectin on gene expression of BMI-1 and CD44 as cancer markers was investigated by the real-time RT-PCR. Results indicated that the effect of the peptide on down-regulation of the BMI-1 gene expression was higher compared to CD44 at 12 µg/ml over 24 h and 48 h. A dose and time-dependent pattern was observed in the production of reactive oxygen species (ROS) in the treated A549 cells. From this study, it can be concluded that protonectin has a significant impact on cancer cells for the down-regulation of gene expression of cancer markers and for the up-regulation of the production of ROS.

Malathion induced cancer-linked gene expression in human lymphocytes

BackgroundMalathion is the most widely used organophosphate pesticide in agriculture. Increasing cancer incidence in agricultural workers and their children links to the exposure of malathion. Identification of genes involved in the process of carcinogenesis is essential for exploring the role of malathion. The alteration in gene expression by malathion in human lymphocytes has not been explored yet, although hematological malignancies are rampant in humans. ObjectiveThis study investigates the malathion induced expression of cancer associated genes in human lymphocytes. MethodsHuman lymphocyte viability and colony-forming ability were analyzed in malathion treated and control groups. Gene expression profile in control and malathion treated human lymphocytes were performed using a microarray platform. The genes which have significant functions and those involved in different pathways were analyzed using the DAVID database. Differential gene expression upon malathion exposure was validated by quantitative real-time (qRT)-PCR. ResultsMalathion caused a concentration-dependent reduction in human lymphocyte viability. At low concentration (50 μg/mL) of malathion treatment, human lymphocytes were viable indicating that low concentration of malathion is not cytotoxic and induces the colony formation. Total of 659 genes (15%) were up regulated and 3729 genes (85%) were down regulated in malathion treated human lymphocytes. About 57 cancer associated genes related to the growth and differentiation of B and T cells, immunoglobulin production, haematopoiesis, tumor suppression, oncogenes and signal transduction pathways like MAPK and RAS were induced by malathion. ConclusionThis study evidences the carcinogenic nature of malathion. Low concentration of this pesticide is not cytotoxic and induces differentially regulated genes in human lymphocytes, which are involved in the initiation, progression, and pathogenesis of cancer.

Antigiardiasic activity of Cu(II) coordination compounds: Redox imbalance and membrane damage after a short exposure time

Giardiasis is a widespread illness that affects inhabitants of underdeveloped countries, being children and seniors the highest risk population. The several adverse effects produced by current therapies besides its increasing ineffectiveness due to the appearance of resistant strains evidence the urgent need for new therapeutic approaches. We present the antigiardiasic effect of eight Cu(II) coordination compounds, which belong to the family Casiopeínas. Two of them, 4,7-diphenyl-1,10-phenanthroline(acetylacetonato)copper(II) nitrate (CasIII-Ha,36 μM) and 4,7-diphenyl-1,10-phenanthroline(glycinato)copper(II) nitrate (CasI-gly,36 μM) have shown the best antiproliferative effect in Giardia intestinalis trophozoite cultures, both with the higher lipophilic character of the series. The antiproliferative effect of these coordination compounds is attributable to its capacity to interact with the cellular membrane and to increase reactive oxygen species (ROS) concentration within the parasite since the first hours of exposure, (2–6 h). We found that these compounds mainly induced the cell death of trophozoites by apoptosis, contrary to metronidazole, which induces apoptosis and necrosis in the same ratio. The cytotoxic effects on lymphocytes and macrophages isolated from human peripheral blood allowed us to establish a selectivity index and in turn, identify and propose the best candidates to continue with the assays in animal models. The selected molecules do not include the most active compounds against trophozoites, instead of that, we propose the compounds 4′,4′-dimethyl-2,2′-bipyridine(acetylacetonato)copper(II) nitrate (CasIII-ia,IC50 = 156 μM) and 4,7-dimethyl-1,10-phenanthroline(acetylacetonato) copper(II) nitrate (CasIII-Ea,IC50 = 125 μM), which possess an antiproliferative efficacy comparable with Metronidazole but also are those that produce the lowest effect on the viability of human lymphocytes and macrophages.

Perfluorooctanesulfonate (PFOS) Induces Apoptosis Signaling and Proteolysis in Human Lymphocytes through ROS Mediated Mitochondrial Dysfunction and Lysosomal Membrane Labialization.

Perfluorinated compounds (PFCs) such as perfluorooctanesulfonate (PFOS) are stable chemicals that accumulate in biological matrix. Toxicity of these compounds including immunotoxicity has been demonstrated in experimental models and wildlife. Although limited number of studies examined the effects of PFOS on human lymphocytes but so far no research has investigated the complete mechanisms of PFOS cytotoxicity toward human lymphocytes. The main goal of this investigation was to find out the mechanisms underlying the cytotoxic effect of PFOS toward human lymphocytes using accelerated cytotoxicity mechanisms screening (ACMS) technique. Human lymphocytes were isolated from blood of healthy donors using Ficoll-paquePLUS standard method. Cell viability was determined following 12 h of incubation of human lymphocytes with 100-500 µM PFOS. Our results showed that IC50 concentration (163.5 µM) of PFOS reduced viability of human lymphocytes approximately 50% via increased ROS formation, lipid peroxidation, glutathione depletion and damage to cell sub organelles such as mitochondria and lysosomes. Besides, in this study we demonstrated involvement of cellular proteolysis and activation of caspase-3 in PFOS induced lymphocyte cytotoxicity. We finally concluded that at environmentally related concentration, PFOS can induce toxic effect toward human lymphocytes through induction of oxidative stress and damage to cell sub organelles.

4-Methylthiobutyl isothiocyanate (Erucin) from rocket plant dichotomously affects the activity of human immunocompetent cells

Isothiocyanates (ITC) from the Brassicaceae plant family are regarded as promising for prevention and treatment of cancer. However, experimental settings consider their therapeutic action without taking into account the risk of unwanted effects on healthy tissues. In the present study we investigated the effects of Eruca sativa seed extract containing MTBITC (Erucin) and pure Erucin from rocket plant on healthy cells of the human immune system in vitro. Hereby, high doses of the plant extract as well as of Erucin inhibited cell viability of human lymphocytes via induction of apoptosis to comparable amounts. Non-toxic low concentrations of the plant extract and pure Erucin altered the expression of the interleukin (IL)-2 receptor but did not affect further T cell activation, proliferation and the release of the effector molecules interferon (IFN)-gamma and IL-2 of T-lymphocytes. However, the activity of NK-cells was significantly reduced by non-toxic concentrations of the plant extract and pure Erucin. These results indicate that the plant extract and pure Erucin interfere with the function of human T lymphocytes and decreases the activity of NK-cells in comparable concentrations. Long-term clinical studies with ITC-enriched plant extracts from Brassicaceae should take this into account.

Exposure to a histone deacetylase inhibitor has detrimental effects on human lymphocyte viability and function.

Histone deacetylase inhibitors (HDACi) have been reported to increase tumor antigen expression, and have been successfully tested as adjuvants for melanoma immunotherapy in mouse models. In this work, we tested the effects of a pan-HDACi on human lymphocytes and melanoma cell lines. Effects of the pan-HDACi panobinostat (LBH589) on cell viability, cell cycle, apoptosis, and DNA damage were determined in peripheral blood mononuclear cells (PBMC) from 2 healthy donors, 13 patients with metastatic melanoma, 2 bone marrow samples from patients with different malignances, and 12 human melanoma cell lines. Intracellular signaling in lymphocytes, with or without cytokine stimulation, was analyzed by phospho-flow cytometry in one of each type. The IC50 in PBMCs was <20 nmol/L compared with >600 nmol/L in melanoma cell lines; >40% apoptotic cell death in PBMCs versus <10% in melanoma cell lines was seen at the same concentration. Phospho-histone variant H2A.X (pH2A.X) increased 2-fold in healthy donor PBMCs at 1 nmol/L, whereas the same effect in the melanoma cell line M229 required 10 nmol/L. pH2A.X was inhibited slightly in the PBMCs of 3 patients with metastatic melanoma at 1 nmol/L and in the melanoma cell line M370 at 10 nmol/L. Panobinostat inhibited phospho-STAT1/3/5/6, -p38, -ERK, -p53, -cyclin D3, and -histone H3 in flow cytometry-gated healthy donor B and T cells, whereas it induced up to 6-fold activation in patients with metastatic melanoma and bone marrow samples. In human lymphocytes, panobinostat alters key lymphocyte activation signaling pathways and is cytotoxic at concentrations much lower than those required for melanoma antitumor activity, resulting in an adverse therapeutic window.

Effect of vitamin C supplementation on chromosome damage, apoptosis and necrosis ex vivo.

We investigated whether high dose vitamin C influenced the viability of human lymphocytes in plasma, in the presence or absence of hydrogen peroxide (512 microM) by scoring necrotic, apoptotic and micronucleated cells using the cytokinesis-block micronucleus assay. The in vitro results showed that vitamin C (0.57-2.27 mM) on its own had no effect on the above parameters. However, in the presence of hydrogen peroxide vitamin C significantly reduced the number of dividing cells and apoptosis, and increased necrosis and micronucleated cells. A double-blind placebo controlled intervention, with a cross-over, involving 11 male subjects, aged 20-40 years, was performed to determine whether high plasma vitamin C concentration resulting from vitamin C supplementation promotes or protects against genetic damage and cell death ex vivo. Venous blood samples were collected before and after an anti-oxidant-poor diet which reduced plasma vitamin C concentrations by 15% (P < 0.05), and was followed with a 2 g vitamin C supplement, which raised plasma concentrations by 115 and 125% (0.12 mM) after 2 and 4 h, respectively (P < 0.05). Plasma collected post-vitamin C ingestion did not alter micronucleus expression or apoptosis in control or hydrogen peroxide-treated lymphocytes, but it moderately increased necrosis (P < 0.08). Analysis of combined data showed that necrotic cell frequency correlated positively with micronucleated cell frequency (r = 0.66, P < 0.0001) and negatively with apoptotic cell frequency (r = -0.81, P < 0.0001). Overall, vitamin C supplementation did not appear to cause DNA damage under normal physiological conditions nor did it protect cells against hydrogen peroxide-induced toxicity.

A Rapidin VitroAssay for Evaluation of Metabolism-Dependent Cytotoxicity of Antiepileptic Drugs on Isolated Human Lymphocytes,

In vitroassessment of human lymphocyte viability by trypan blue dye exclusion in the presence of an external metabolizing system (microsomes plus NADPH) has been shown to be a useful method in assessing predisposition to idiopathic toxicity in response to various anticonvulsant drugs. The trypan blue method, however, is labor intensive, is time consuming, is prone to human error, is not suitable for high-volume toxicity screening, and excludes autolysed cells. The objective of this study was to develop a rapid, high-capacity, objective, and easyin vitrocytotoxicity method for the detection of metabolism-dependent cytotoxicity of a test chemical. Thein vitrosystem uses an external metabolizing system (rabbit microsomes) in conjunction with isolated human lymphocytes as the target cells. Cellular toxicity was determined by assessing plasma membrane integrity using a membrane-impermeant fluorescent nucleic acid dye (YO-PRO-1) and a multiwell plate scanner for fluorescence. Using this system, cells incubated with either acetaminophen (1500 μg/ml), carbamazepine (62.5 μm), phenytoin (62.5 μm), or phenobarbital (62.5 μm) showed net increases in percentage cell death of 31 ± 5, 11 ± 4, 0 ± 3, and 2 ± 3, respectively. A metabolism-dependent concentration–response was observed for valproic acid-induced cytotoxicity, which approached a plateau at a concentration of 4000 μg/ml with a net percentage cell death of 31 ± 4. This technique resolves various technical difficulties inherent in viability determinations by the trypan blue exclusion method. The YO-PRO-1 method also may be useful in a clinical setting for the assessment of patients with a genetically determined susceptibility to certain drugs and for identifying the responsible drug in patients with idiopathic toxicity undergoing multiple-drug therapy.

A Rapid in Vitro Assay for Evaluation of Metabolism-Dependent Cytotoxicity of Antiepileptic Drugs on Isolated Human Lymphocytes

In vitro assessment of human lymphocyte viability by trypan blue dye exclusion in the presence of an external metabolizing system (microsomes plus NADPH) has been shown to be a useful method in assessing predisposition to idiopathic toxicity in response to various anticonvulsant drugs. The trypan blue method, however, is labor intensive, is time consuming, is prone to human error, is not suitable for high-volume toxicity screening, and excludes autolysed cells. The objective of this study was to develop a rapid, high-capacity, objective, and easy in vitro cytotoxicity method for the detection of metabolism-dependent cytotoxicity of a test chemical. The in vitro system uses an external metabolizing system (rabbit microsomes) in conjunction with isolated human lymphocytes as the target cells. Cellular toxicity was determined by assessing plasma membrane integrity using a membrane-impermeant fluorescent nucleic acid dye (YO-PRO-1) and a multiwell plate scanner for fluorescence. Using this system, cells incubated with either acetaminophen (1500 micrograms/ml), carbamazepine (62.5 microM), phenytoin (62.5 microM), or phenobarbital (62.5 microM) showed net increases in percentage cell death of 31 +/- 5, 11 +/- 4, 0 +/- 3, and 2 +/- 3, respectively. A metabolism-dependent concentration-response was observed for valproic acid-induced cytotoxicity, which approached a plateau at a concentration of 4000 micrograms/ml with a net percentage cell death of 31 +/- 4. This technique resolves various technical difficulties inherent in viability determinations by the trypan blue exclusion method. The YO-PRO-1 method also may be useful in a clinical setting for the assessment of patients with a genetically determined susceptibility to certain drugs and for identifying the responsible drug in patients with idiopathic toxicity undergoing multiple-drug therapy.

The determination and prevention of cytotoxic effects induced in human lymphocytes by the alkylating agent 2,2′-dichlorodiethyl sulfide (sulfur mustard, HD)

2,2′-Dichlorodiethyl sulfide (sulfur mustard, HD, 1,1′-thiobis[2-chloroethane]) is a potent vesicant which can cause severe lesions to skin, lung, and eyes. There is no convenient in vitro or in vivo method(s) to objectively measure the damage induced by HD; therefore, a simple in vitro method was developed using human peripheral lymphocytes to study HD-induced cytotoxicity. The cytotoxicity of HD was measured using dye exclusion as an indicator of human lymphocyte viability. Exposure to HD resulted in both a time- and a concentration-dependent cytotoxic effect on human lymphocytes. Using this in vitro assay, the effectiveness of various therapeutics (niacin, niacinamide, and 3-aminobenzamide) in preventing HD-induced cytotoxicity was studied. Niacinamide and 3-aminobenzamide prevented the cytotoxic effects of HD for up to 2 days.

Polyamine-dependent production of lymphocytotoxic levels of ammonia by human peripheral blood monocytes

The activity of polyamine oxidase down-regulates IL-2 production in cultures of peripheral blood mononuclear cells. Monocytes are the main source of this enzymatic activity which generates ammonia. We therefore assessed the production of ammonia by human monocytes. We report that human peripheral blood monocytes produce and secrete ammonia and that this activity peaks after 2 days of incubation in vitro. Ammonia production can be suppressed by inhibiting polyamine biosynthesis and polyamine oxidation; thus, the activity of polyamine oxidase in human monocytes generates ammonia. Ammonia production could serve as a measure of polyamine oxidase activity in human monocytes. The levels of ammonia produced in our system reduce human lymphocyte viability. Therefore, ammonia can be added to the list of macrophage products having cytotoxic and immunosuppressive potential.

Hyperthermic effects on viability and growth kinetics of human lymphoblastoid cells

During clinical hyperthermia, various blood elements may be exposed to elevated temperatures. The effect of heat on human lymphocyte viability and human lymphoblastoid cell viability and growth was therefore measured. In the viability studies, cells were heated for different times and temperatures and stained with fluorescein diacetate either immediately of at various times after treatment; dye uptake was then analysed using fluorescence microscopy. There was no significant decrease in lymphocyte viability when assayed at 0 and 24 h after heating at 42-43 degrees C for varying times. Similarly, when proliferating lymphoblastoid cells were heated at 42-43 degrees C, there was no decrease measured in viability immediately after heating. However, in contrast to the lymphocyte results, a progressive decrease of lymphoblastoid cell viability was observed with increasing time after treatment. A nadir in viability was observed 48-72 h after heating, followed by a subsequent apparent recovery. This recovery showed a correlation with cell growth, as well as lysis of non-viable cells. The cell population doubling time was also lengthened, with longer doubling times observed for more severe heat treatments.

Effect of ( dl)-5-methyltetrahydrofolate on lymphoid leukemia cell lines

We studied the effect of ( dl)-5-methyltetrahydrofolate (mTHF) on the tymphoid cell lines BALM 3, CCRF-SB, CEM, Daudi, MOLT 4 and P3HR1, employing doses in the mM range. The growth of all the lines studied was inhibited by mTHF in a dose-dependent fashion. mTHF demonstrated a substantial cytocidal effect on leukemic lymphoid cells of up to 3 log, as measured by limiting dilution analysis, at a concentration of 10 −3 M. At this dose normal human lymphocyte viability was not affected, and their mitogen-induced proliferation was only slightly impaired. We tested the effect of high doses of mTHF on a clone of CEM cells (CEM-MTXr) infected with the pSDHT retrovirus able to transduce a dominant-acting gene encoding a mutant, less efficient, dihydrofolate reductase. CEM-MTXr cells were inhibited by high doses of mTHF to the same degree as the parental line, thus suggesting that the enzymatic reactions leading to folate reduction are not involved in the cytocidal effect of mTHF.

Ultrastructural Correlates of the Protection Afforded by Niacinamide against Sulfur Mustard-Induced Cytotoxicity of Human Lymphocytes in Vitro

Sulfur mustard (HD) has been shown to cause a concentration-dependent decrease in viability of human lymphocytes in vitro as measured by dye exclusion; this decrease is preventable by inhibitors of poly(adenosine diphosphatase ribose) polymerase such as niacinamide. The present study investigates the morphologic correlates of the protection afforded by niacinamide through scanning and transmission electron microscopic analysis of human lymphocytes incubated in the presence or absence of 10(3) M niacinamide for 24 h at 37 degrees C and exposed in vitro to 10(-3) M HD. Lymphocytes exposed to HD alone demonstrated 30% to 40% viability and loss of microvilli, large cytoplasmic vacuoles, extensive blebbing of the perinuclear envelope, loss of cytoplasmic organelles, condensation of nuclear chromatin, and multiple perforations of the plasmalemma. In the presence of niacinamide HD-treated lymphocytes had a viability of 87% and, except for blunting of the microvilli, essentially normal ultrastructure. Although the sequence of observed ultrastructural changes was not established, results of this morphologic study suggest that, in addition to the prevention of plasmalemmal defects and dye infusion, the mechanism of niacinamide protection appears to include preservation of the morphologic and functional integrity of cellular organelles.

Lymphokine regulation of activated (G1) lymphocytes. I. Prostaglandin E2-induced inhibition of interleukin 2 production.

PGE2-induced inhibition of the proliferatory response of PHA-stimulated human PBL and Con A-stimulated murine thymocytes was analyzed by flow cytometry. It was found that the activation process (G0-G1a transition) was not influenced by PGE2 over a wide range of concentrations (10(-10) to 10(-6) M), nor was the formation of IL 2 receptors inhibited. Similarly, the viability of human lymphocytes was practically unaltered. In contrast, the IL 2-dependent cell cycle event (G1a-G1b transition), which is required for proliferation, was inhibited in a dose-dependent fashion. The addition of IL 2-containing supernatants to such cultures prevented the PGE2-mediated block in the G1a phase and reconstituted a normal lymphocyte proliferation. Furthermore, lower IL 2 titers were measured in supernatants from PHA-stimulated human PBL treated with PGE2. These findings strongly suggest that PGE2 primarily exerts its inhibitory effect on lymphocyte proliferation through an inhibition of IL 2 production.

CROMOLYN SODIUM: EFFECT ON LYMPHOCYTE ACTIVATION AND VIABILITY IN VITRO

The effect of cromolyn sodium on in vitro human lymphocyte viability and activation by phytohemagglutinin and PPD has been investigated in 24 subjects. The presence of cromolyn in the culture (10 mug/ml) significantly reduces the viability of lymphocytes at both 3 days and 5 days. This concentration is probably greater than that which would normally be present in the blood of patients receiving therapeutic amounts of cromolyn, but less than that to which pulmonary lymphocytes would be exposed following inhalation of cromolyn. Cromolyn in concentrations of 0.1 to 100 mug/ml has no effect upon thymidine uptake or viability of lymphocytes following phytohemagglutinin or PPD stimulation.

Separation and prolongation of viability of human lymphocytes for tissue typing. Evaluation of a technic.

A system is described whereby human lymphocyte suspensions can be isolated from defibrinated blood so that they retain more than 85 per cent viability consistently for 14 days. Such lymphocytes are fully reactive in the lymphocytotoxicity test for HL‐A antigens and can be shipped through the mails.