Evaluation of a proposed in vitro test strategy using neuronal and non-neuronal cell systems for detecting neurotoxicity.

The European Commission White Paper, "Strategy for a future chemicals policy" (EC, 2001) is estimated to require the testing of approximately 30,000 "existing" chemicals by 2012. Recommended in vitro tests require validation. As the White Paper (EC, 2001) requires neurotoxic data, this study evaluated an in vitro testing strategy for predicting in vivo neurotoxicity. The sensitivities of differentiated PC12 cells and primary cerebellum granule cells (CGC) were compared to undifferentiated PC12 cells which can indicate basal cytotoxicity. Cytotoxicants and neurotoxicants selected for testing covered a range of mechanisms and potencies. Neurotoxicants were not distinguished from cytotoxicants despite significantly different cell system responses using all endpoints; cell viability/activity, ATP depletion, MMP depolarisation, ROS production and cytoskeleton modifications. For all chemicals tested, neuronal-like cell systems were generally less sensitive than undifferentiated PC12 cells. Acute oral rodent LD(50) values correlated with cytotoxicity IC(50) values for the respective chemicals tested in each cell system. This study concluded that although simple non-specific assays are required to distinguish basal cytotoxicity from specific neurotoxicity by using different cell systems with different states of neuronal differentiation, further work is required to determine suitable combinations of cell systems and endpoints capable of distinguishing neurotoxicants from cytotoxicants.

Assessment of primary eye and skin irritants by in vitro cytotoxicity and phototoxicity models: an in vitro approach of new arginine-based surfactant-induced irritation.

Extensive efforts have been made, recently, to find surfactants with lower irritation potential than those presently commercially available, for use in pharmaceutical and cosmetic preparations. Cytotoxic and phototoxic effects of a novel family of dicationic arginine-diglyceride surfactant compounds, 1,2-diacyl,3-O-(l-arginyl)-rac-glycerol with alkyl chain lengths in the range from 8 to 14 carbon atoms, were compared to three commercial surfactants. The end-points used to assess toxicity were the red blood cell lysis assay and uptake of the vital dye neutral red 24h after dosing (NRU), respectively. Two immortalized cell lines, murine fibroblast cell line, 3T3, and one human keratinocyte cell line, HaCaT, were used as in vitro models to predict the potential phototoxicity which could result in irritation, determined by resazurin reduction to resorufin and neutral red uptake (NRU). All tested surfactants had cytotoxicity effects as demonstrated by and decrease of NR uptake, which showed a clear concentration-response relationship. Concentrations resulting in 50% inhibition of NR uptake (IC(50)) range from 1 microM(-1) (hexadecyl trimethyl ammonium bromide) to 565 microM(-1) (12,12-l-arginine). Erythrocyte haemolysis also showed a clear concentration-response relationship, the 50% of haemolysis ranged from 37 microM(-1) (10,10-l-arginine) to 151 microM(-1) (sodium lauryl sulphate). Phototoxicity was performed with 12,12-l-acetyl-arginine, the most stable chemical structure. The validated 3T3 NRU photoxicity assay was used and revealed a phototoxic potential.

Age-dependent survival and infectivity of Schistosoma mansoni cercariae.

The age dependency of the mortality, spontaneous de-tailing and infectivity of cercariae of Schistosoma mansoni has been determined at 25 degrees C. Infectivity was assessed with respect to stratum corneum-like differentiated human keratinocyte cultures (validated by comparison with fresh human skin samples) and displayed a complex age-dependent pattern. From 1 to 9 h post-emergence cercariae showed a plateau of maximal infectivity (around 90% attachment). Thereafter, infectivity declined. Immediately after release, infectivity at around 60% was significantly lower than the plateau values and this could be an adaptation for spatial dispersal of cercariae. Age-dependent patterns of cercarial mortality and spontaneous de-tailing closely mirrored the infectivity pattern except in relation to the low initial infectivity value. These findings suggest that, at a population level, the age-dependent decline in cercarial infectivity towards human skin is essentially driven by cercarial mortality. The recently described phenomenon of delayed tail loss (DTL) in S. mansoni cercariae infecting human skin is confirmed in the present study. For cercariae aged up to 13.5 h post-emergence, 90% or more of invading cercariae took their tails with them into the keratinocyte culture. The infection dynamics described in this study suggest that diurnally shed S. mansoni cercariae, with peak emergence around mid-day, will have near maximal infectivity towards humans in contact with water through all remaining daylight hours in the tropics.

Splenic lymphocytes of adult Xenopus respond differentially to PMA in vitro by either dying or dividing: significance for cancer resistance in this species.

Wild-type populations of amphibians, unlike mammalians, appear to be resistant to spontaneous and chemically induced neoplasms. Few true cancers have been reported for non-isogeneic members of Xenopus laevis, despite their widespread use in laboratories around the world. Injection of even the most powerful direct mammalian oncogens e.g. N-methyl N-nitrosourea, that depleted specific populations of T lymphocytes, did not induce cancer. Phorbol diesters, e.g. PMA, are mitogens and apoptogens in both amphibian, and mammalian immunocytes. In mammalian cells, regulation of the cell cycle and of apoptosis are often intimately linked, however, a disjunction in time between early apoptosis and later cell cycling, has been observed with PMA-treated Xenopus splenocytes. Thus, a particular difference between amphibians and mammals may be the requirement to enter the cell cycle before a progression to death by apoptosis. This hypothesis was tested here using dual staining flow cytometry. Xenopus laevis splenocytes were cultured for 8, 24 and 48 hours with phorbol 12-myristate 13-acetate (PMA), previously shown to be mitogenic and apoptotic with mature Xenopus lymphocytes. The cells were stained with FITC-conjugated Annexin V or with FITC-labeled deoxyuridine triphosphates (FITC-dUTP) to assay for the apoptotic markers phosphotidylserine or DNA strand breaks respectively. Phycoerythrin (PE)-conjugated anti-human proliferating cell nuclear antigen (PE-PCNA) was used as a cell cycle marker that is present during the entire cell cycle. Propidium iodide (PI) binds DNA and was used to assay for late stage apoptosis, as well as to assess DNA content. Significantly higher levels of apoptosis develop rapidly in PMA-exposed splenocytes and are maintained at 24 hours, declining by 48 hours. Cells expressing PCNA or incorporating PI in excess of the normal genomic level were found by 48 hours following PMA exposure. The absence of any significant rise in a small (<5%) dual staining cell population indicates that the apoptotic cell population remained distinct from cells already in the cell cycle from the onset of PMA exposure. Thus, Xenopus splenocytes respond differentially to PMA. Those that undergo apoptosis rapidly were quiescent, non-cycling small lymphocytes. Moreover, the cells that eventually begin division, following PMA exposure, were unaffected by the early apoptosis and do not themselves die while in the cell cycle. The rapid apoptotic response of X. laevis cells to PMA may confer a natural cancer resistance in this species, as cells that fail to enter the cell cycle after exposure to cancer promoting reagents cannot express genetic destabilization that might have led to transformation.

Effects of THz Exposure on Human Primary Keratinocyte Differentiation and Viability.

Primary human keratinocytes can be driven,in vitro, to differentiate, viaactivation of transglutaminases, by raisingthe culture medium calcium concentrationabove 1 mM. This results intransglutaminase regulated cross linking ofspecific amino acids with resultantcornified envelope formation. Thedifferentiation was monitored via theincorporation of fluorescein cadaverineinto the cornified envelops. Thisdifferentiation assay was combined withassessment of reductive capacity ofresazurin, as a measure of cellactivity/viability.One primary aim is to assess the effects ofTHz radiation on human skin, since medicalimaging of the body through the skin isenvisaged.Human keratinocytes, at passage 2 fromisolation, were grown to confluence, andtransported in a buffered salt solution at22 (°)C. The exposure to the THz sourcewas for 10, 20 or 30 minutes at roomtemperature.No donor specific inhibition or stimulationof cell activity, compared with non-exposedcells, was noted following exposure in therange 1 to 3 THz, at up to 0.45J/cm(2).The differentiation also occurred in anormal way, for exposed and non-exposedcells, with the FC incorporation increasingbetween day 3 and day 8, as previouslynoted.

The relative embryotoxicity of 1,3-dichloro-2-propanol on primary chick embryonic cells.

1,3-Dichloro-2-propanol (1,3-DCP) is a chlorinated compound used in the fabrication of industrial products such as hard resins, celluloid or paints. It has also been detected in instant soups and soy sauce. 1,3-DCP has been associated with major necrosis of the liver in humans [Chem.-Bio. Interact. 80 (1991) 73]. In humans and laboratory animals, 1,3-DCP is metabolised to dichloroacetone (1,3-DCA) by cytochromes P450 2E1 and 1A2 [J. University Occup. Environ. Health 14 (1992) 13]. 1,3-DCA is a hepatotoxin. We suggest that 1,3-DCA could be embryotoxic at doses that do not cause adverse maternal hepatic damage. To investigate the embryotoxic effects of 1,3-DCA, we have adapted a micromass culture method from Atterwill and colleagues [1992. A tiered system for in vitro neurotoxicity testing. In: Zbinden, G. (Ed.), The Brain in Bits and Pieces. Verlag M.T.C., Vollikon, pp. 89-91], using chick midbrain cells and from Wiger et al. [Pharmacol. Toxicol. 62 (1988) 32] using chick mesenchymal cells. The basis of the micromass system is that embryotoxins in vitro are likely to affect development and differentiation of disaggregated neuronal and limb bud micromass cultures. The endpoints chosen for the midbrain assay are resazurin reduction (viability), total protein content (cell number), morphological quantification of neuronal cultures (neuronal projection number) and of limb bud cultures (cartilage nodule number). Preliminary results using chick whole embryo cultures indicated that 1,3-DCA had an inhibitory effect on whole chick embryo development. We also found that embryonic derived cells were sensitive to 1,3-DCA but not 1,3-DCP at concentrations above 1 microM, suggesting a potential teratogenic effect of 1,3-DCA. The exposure to 1,3-DCP is not limited to industrial settings, and hence a better knowledge of its effects and tissue specific actions on embryonic-derived cells would be beneficial.

The attachment of Schistosoma mansoni cercariae to human skin cells.

Most of our knowledge about the process of penetration of skin, by cercariae of Schistosoma mansoni, has been gained from studies carried out in vivo with laboratory animals. Human skin is significantly different from that of other animals but there are obvious practical difficulties in directly studying attachment and penetration with human skin. Techniques have been developed which enable a 3-dimensional skin equivalent to be grown in tissue culture, made from different types of human skin cells. The aim of the present study was to investigate cercarial interactions with confluent cultures of the individual skin cell types that make up normal human skin and which will be used to construct a multi-component model. Cercariae behaved differently towards the various cell types tested. They responded least to monolayers of endothelial cells and most to primary keratinocytes, derived from human foreskin and differentiated at an air/liquid interface. This study demonstrates, therefore, that cercariae are capable of distinguishing between different types of skin cells and they preferentially attach to differentiated cells which form the epidermis.

Electrical stimulation of transforming growth factor-beta 1 secretion by human dermal fibroblasts and the U937 human monocytic cell line.

The in vitro effects on human dermal fibroblasts and the U937 human monocytic cell line of three phases of electrical microcurrents generated by the ACE Stimulator were investigated. The growth and viability of growing and confluent dermal fibroblasts were not directly influenced by the separate microcurrent phases. One form of microcurrent (designated phase 1) stimulated both dermal fibroblasts and U937 cells to secrete transforming growth factor-beta 1 (TGF-beta 1), which is an important regulator of cell-mediated inflammation and tissue regeneration, but none of the three phases stimulated secretion of the pro-inflammatory cytokine interleukin-6 by U937 cells. The stimulation of TGF-beta 1 secretion in these experiments was not dramatic (a median increase over control levels of 20-30%), although it could be biologically significant.

Hydrogen peroxide induced stress in human keratinocytes and its effect on bithionol toxicity.

Exposure to hydrogen peroxide causes oxidative stress in keratinocytes. Previous work has shown that the antiparasitic drug bithionol has an EC(50) of 0.7 microg/ml (2 microM) with primary human keratinocytes, but that these cells do not respond to photoactivated bithionol. Bithionol is known to be photoactivated by UV-A visible light, therefore this study aims to investigate the effects of inducing oxidative stress in the cells prior to bithionol treatment alone and in the presence of UV-A visible light. Oxidative stress, by hydrogen peroxide treatment, caused the cells to become sensitive to photoactivated bithionol. Bithionol alone reduced the amount of oxidative stress, while following photoactivation, an augmentation in the amount of oxidative stress and cell cytotoxicity was observed. The hydrogen peroxide treatment did not alter the sensitivity of the keratinocytes to 5 J/cm(2) UV-A visible light.

The use of an in vitro submerged keratinocyte model to predict induction of squamous metaplasia.

An in vitro submerged keratinocyte model of squamous metaplasia (SQ) in epithelia is being developed to assess the risk associated with exposure to certain environmental agents. Tracheobronchial epithelium (TBE) in vivo can respond to airborne environmental insult by becoming squamous. Epidemiological evidence suggests that cigarette smoke is capable of inducing this change. Retinoic acid has been shown to maintain cells in the mucociliary state. SQ is considered protective and adaptive but potentially preneoplastic if unrelenting and is used histologically in the diagnosis of squamous cell carcinoma. SQ is characterised by upregulation of the expression of transglutaminase I (TGI), TGI activity leading to the formation of isopeptide cross-linked envelopes and replacement of the mucociliary cell type with non-polar squamous cells out of contact with the basal lamina. The ability of the in vitro keratinocyte submerged model to predict the squamous metaplastic response in vivo has been investigated in vitro using TG catalysed fluorescein cadaverine incorporation as a measure of cross-linked envelope formation, Alamar blue conversion to measure viability and Coomassie blue incorporation to measure total cellular protein. The modulation of the squamous condition by retinoic acid (RA), cigarette smoke condensate (CSC) and nicotine has been assessed in keratinocytes cultured in Green's medium. RA inhibited FC incorporation by 95% at 1 x 10(-5) M and simultaneously increased cell viability providing evidence to support its role in the regulation of the non-differentiated state. Nicotine (0-1 mg/ml) induced a dose-dependent increase in viability at 6 days, a response that was accompanied by an increase in FC incorporation at 12 days. CSC (0-5 microg/ml) increased FC incorporation after 12 days. Hence, nicotine modulated the squamous condition by up-regulating TGI activity following a period of hyperactivity. CSC induced a gradual change to the differentiated state and RA served to maintain the cells in an undifferentiated state.

Phosphatidylserine expression on apoptotic lymphocytes of Xenopus laevis, the South African clawed toad, as a signal for macrophage recognition.

Inflammation is avoided in apoptosis by early removal of dying cells by macrophages (MOs). In mammalian cells, an early aspect of apoptosis is the translocation of phosphatidylserine (PS) from the inner leaflet of the cell membrane to the surface. PS recognition can serve as a signal for triggering removal of dying cells. PS expression on splenocytes and thymocytes of Xenopus laevis was quantified using FITC-Annexin and flow cytometry following exposure in vitro to several known apoptogens for this species. All apoptogens used induced PS expression. Dose dependency and the kinetics of PS expression following exposure to the calcium ionophore, A23187, were also examined. Peritoneal exudate cells (PEC's) were cultured with A23187-treated thymocytes to test MO capacity for recognition of PS. MO binding to apoptotic thymocytes was reduced following exposure of PEC's to a water soluble analogue of PS, phospho-L-serine. The presence of a phagocytic PS-dependent recognition system in amphibia is supportive of the evolutionary conservation of this function in mammals that is crucial in limiting inflammation induced by dying cells.

Stimulation of dichlorofluorescin oxidation by capsaicin and analogues in RAW 264 monocyte/macrophages: lack of involvement of the vanilloid receptor.

In studies into the oxidative burst in RAW 264 monocyte/macrophages, it was observed that capsaicin, a vanilloid receptor agonist, stimulated dichlorofluorescin (DCFH) oxidation in a concentration-dependent manner, which could be blocked by capsazepine, a vanilloid receptor antagonist. However, by use of a number of vanilloid agonists (including N-octyl-3-chloro-4-hydroxyphenylacetamide, 4m), we demonstrated that there was no relationship between vanilloid agonist potency and the capacity to stimulate DCFH oxidation. The oxidative burst stimulators Tween 20 and phorbol myristyl acetate (PMA) also stimulated reactive oxygen species generation, which again was inhibited by capsazepine. Use of the selective inhibitor diphenyliodonium iodide ruled out a role for plasma membrane NAD(P)H oxidase as the site of capsaicin- and 4m-stimulated DCFH oxidation. However, this DCFH oxidation was modulated by a number of inhibitors of mitochondrial respiration. Rotenone enhanced DCFH oxidation induced by capsaicin and 4m, whilst malonic acid and potassium cyanide inhibited this response. 2,4-Dinitrophenol, an inhibitor of oxidative phosphorylation, was without effect. The antioxidant trolox c inhibited DCFH oxidation stimulated by capsaicin, 4m, and PMA, whereas N-acetylcysteine, a precursor of glutathione, was without effect. Capsazepine inhibited DCFH oxidation in unstimulated cells and in cells treated with menadione, a redox-cycling quinone. Capsazepine was also a potent antioxidant when measured in a Fe3+ reduction assay. We concluded that DCFH oxidation stimulated by vanilloid analogues was not mediated via a vanilloid receptor, but rather by impairment of mitochondrial electron transport.

Apoptosis and the cell cycle in Xenopus: PMA and MPMA exposure of splenocytes.

Spontaneous and induced cancers are rare in non-isogeneic or inbred amphibians. Neoplastic cells become immortalized through loss of a normal capacity to die by apoptosis. Mature lymphocytes of mammals require activation and entry into the cell cycle in order to become susceptible to apoptosis. Whether Xenopus lymphocytes differ from mammalian lymphocytes in this regard is examined. In vitro exposure of PMA, or its analogue, MPMA, to adult splenocytes of Xenopus laevis was used to affect apoptosis. Flow cytometric analysis of FITC-Annexin V/propidium iodide (PI) fluorescence (apoptosis) and BrdU uptake (DNA synthesis) were assayed concurrently in the same lymphocyte population over time. Significant increases in apoptotic levels were induced throughout a 72 hour period in PMA-treated cells only. Lymphocytes were also separated by size for analysis. Several subpopulations of lymphocytes were identified, the most interesting of which was small and apoptotic within 4 hours, after PMA exposure. PMA-induced DNA synthesis did not become elevated until after 24 hours. "Direct" apoptosis, i.e. without cell cycle entry, was found only in these small, mature lymphocytes. Since small lymphocytes make up the vast majority of those being analyzed, "direct" apoptosis may be a determining mechanism in the resistance to neoplasia observed in Amphibia. Cells that die more readily are less likely to transform into neoplastic cells.

Adrenergic modulation of apoptosis in splenocytes of Xenopus laevis in vitro.

Impaired and healthy cells undergo suicide using an intrinsic genetic program. Exposure to stress-related alpha2- or beta-adrenergics for 4 or 20 h in vitro had no effect on apoptosis in splenocytes of adult Xenopus laevis, while a 4-hour coincubation of clonidine, an alpha2-agonist, with a calcium ionophore (A23187) or a phorbol diester (PMA), enhanced apoptosis induced by each apoptogen alone. Clonidine did not affect apoptosis stimulated with dexamethasone (DEX), however. Comparable in vitro exposures to isoproterenol, a beta-agonist, reduced apoptotic levels stimulated by all three apoptogens alone. Following 20 h coexposure, clonidine no longer affected A23187-induced apoptosis, but reduced PMA-induced apoptosis, while isoproterenol enhanced apoptosis stimulated with both. Neither agonist modulated apoptosis induced by 20 h of exposure to DEX. Thus, adrenergic agonists modulated apoptosis in cells coexposed to A23187 and PMA, in a time-dependent and adrenoceptor class-dependent fashion. These stress-induced products can affect concurrent apoptosis reversibly over time in vitro, and thus possibly in vivo.

Apoptosis and the cell cycle in Xenopus laevis: PHA and PMA exposure of splenocytes.

T cell receptor (TCR) ligation and protein kinase C (PKC) activation stimulate proliferation and modulate apoptosis in both mammalian and amphibian lymphocytes. The potential relationship between apoptosis and the cell cycle in mature Xenopus laevis splenic lymphocytes is addressed by monitoring apoptosis and DNA synthesis over time, using incorporation of propidium iodide (PI) and flow cytometry. Aliquots of the same populations of cells are followed after exposure in vitro to phytohemagglutinin (PHA) or phorbol 12-myristate 13-acetate (PMA). Significant increases in apoptosis preceed those in DNA synthesis by 12 to 16 h following exposure to both reagents. Since apoptosis preceeds DNA synthesis, these dying cells clearly do not need to enter the S phase of the cell cycle before becoming apoptotic, in contrast to mammalian T cells. Another striking difference is that the reagent with weaker mitogenic properties in this species, PHA, is significantly a more potent apoptogen, than the strong mitogen, PMA. The two phenomena then appear to be inversely related in Xenopus cells. Data on DNA synthesis suggest independence of the two phenomena, as DNA synthesis is stimulated in direct proportion to the strength of each reagent as a mitogen. Mature mammalian T-cells undergo apoptosis only when previously activated. The Xenopus lymphocytes examined were not deliberately activated by exposure to antigen or lectin. PMA, a cancer promoter in mammals, usually 'rescues' mammalian cells from apoptosis, but stimulates apoptotic increases in Xenopus cells. Thus, mature Xenopus lymphocytes may be more readily stimulated to die by cancer inducing agents than mammalian lymphocytes. This could make them less susceptible to transformation into immortalized cancer cells. This characteristic may considerably contribute to the observed resistance to spontaneous and chemically-induced neoplasia in wild type, non-isogeneic or non-inbred Xenopus.

Fluorescein cadaverine incorporation as a novel technique for the characterization of terminal differentiation in keratinocytes.

A novel technique for detecting transglutaminase activity and the production of cornified envelopes in keratinocytes has been devised. This was based on the enzymatic incorporation of fluorescein-labelled cadaverine (FC) into cornified envelopes. The addition of FC (20mum) to the incubation medium served as an amine donor for transglutaminase reactions in place of protein lysine residues. Cells incorporating the label became visible with fluorescence microscopy and were quantified by fluorimetry. There was a significant difference in the level of FC incorporation into cornified envelopes under the various media conditions and time points employed. The greatest incorporation was observed by keratinocytes cultured in Green's medium and fluorescent intensity decreased in the order: Green's> KGM with calcium>KGM. Confocal imaging of keratinocytes dual stained with FC and propidium iodide revealed the presence of distinct layers and demonstrated how FC was incorporated into differentiating cells and not the basal layer. FC incorporation has the potential to serve as a rapid assessment of terminal differentiation in keratinocytes. It is simple and less time-consuming than currently available alternative techniques. This approach also has the advantage of combining microscopic and quantitative data.

Histamine-induced Changes in the Actin Cytoskeleton of the Human Microvascular Endothelial Cell line HMEC-1.

Increased permeability of the microvascular endothelium is a component of the inflammatory response. Inflammatory mediators such as histamine contribute to this permeability change. Modulation of cytoskeletal F-actin has been implicated as part of the cellular mechanism involved. Permeability changes occur predominantly at the microvascular level while the majority of current knowledge stems from research on cells from large vessels. We have therefore utilized an immortalized human dermal microvascular cell line, HMEC-1. Confluent monolayers were exposed to histamine (10 mum, 100 mum) for 1, 5, 10 or 15 minutes. F-Actin changes were detected by labelling with FITC-conjugated phalloidin. Histamine exposure resulted in the rounding of cells with the formation of intercellular gaps. The percentage of rounded cells and the number of gaps increased with exposure time. F-actin was redistributed from a peripheral band in control cultures to a perinuclear zone. Continual presence of the agonist was required for these phenotypic changes to occur. Removal of histamine caused reversal of these observations. Cells exposed to histamine for 1 minute needed 15 minutes to recover their normal morphology and F-actin distribution. These reversible effects suggest that F-actin redistribution maybe part of the microvascular cell response to histamine.

Expression of a Fas-like proapoptotic molecule on the lymphocytes of Xenopus laevis.

Ligation of the externally expressed Fas (APO1/CD95) molecule will initiate programmed cell death (apoptosis), in many mammalian developing and adult cells. Fas-induced apoptosis has not been demonstrated with the cells of any non-mammalian vertebrate. We immunostained suspensions of splenocytes from adult Xenopus laevis, the South African clawed toad, with a polyclonal rabbit anti-human Fas antibody raised against the amino acid residues 321-335 of human Fas. The binding was specific, as it was dramatically reduced by preincubation of the antibody with the Fas peptide used to make it, but not with a Fas-ligand (FasL) peptide. The binding was enhanced after in vitro exposure of the splenocytes to phytahemagglutinin (PHA), a T cell mitogen and apoptogen in this species. Sections of developing Xenopus larval tissue were also immunostained with the polyclonal rabbit anti-human Fas antibody. Consistent binding of thymocytes and splenocytes was not observed until early metamorphosis in these immunological sites. A monoclonal mouse anti-human Fas antibody, previously used to stimulate apoptosis in mammalian cells, induced significant levels of apoptosis in adult Xenopus splenocytes and additionally, bound specifically to a splenocyte extract, as assayed by ELISA. Thus, a molecule on Xenopus splenocytes shares both structural and functional homologies with human Fas, indicating the evolutionary conservation within vertebrates of this means of initiating apoptosis.

In situ lymphocyte apoptosis in larval Xenopus laevis, the South African clawed toad.

During Anuran metamorphosis larval structures regress, adult structures form anew and impaired T cell immune functions are noted, as are alterations in endogenous glucocorticoid titers. In situ histological data, after staining for DNA fragmentation, reveal patterns of lymphocyte suicide in the thymus and spleen of non-antigenically challenged, laboratory bred, developing larvae, that do not correlate with either impaired immune functions or plasma glucocorticoid titers. Apoptotic levels in the thymus are high in premetamorphic stages, low during prometamorphosis and high again, after metamorphic climax, reflecting a periodic removal of thymocytes. Lymphocytic apoptosis in the spleen is low during premetamorphosis, rises in prometamorphic stages, principally within the red pulp, reaching a peak at climax, before declining as metamorphosis is completed.

Human keratinocyte cultures in an in vitro approach for the assessment of surfactant-induced irritation.

A specific, mechanistic, in vitro approach for the assessment of human skin irritation potential is outlined for the evaluation of surfactants and the results compared with in vivo human patch test data. The level of free available surfactant monomer and the solubilization of the corn protein zein in vitro were confirmed to be related to surfactant in vivo human skin irritation potential. In vitro cytotoxicity to monolayer keratinocyte cultures could not discriminate between the moderate human skin irritant sodium dodecyl sulfate (SDS) and the mild irritants cocamidopropylbetaine (CA) and Polysorbate 20 (P20). An in vitro stratified differentiated human epidermal equivalent (HEE) exhibited reduced cytotoxicity to the test chemicals, compared with monolayer culture responses, and was able to discriminate between the toxic potential of SDS and CA. Stimulation of interleukin-1alpha release from the A431 human keratinocyte cell line reflected in vivo erythema scores more closely than cytotoxic potential, and coincided with nitric oxide production by macrophages upon exposure to A431-conditioned medium. Combination of these mechanistic assays has allowed a profile of likely in vivo human responses to be approximated. Additional knowledge of skin penetrability and rate of recovery from toxic damage would affirm these predictions.