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ABSTRACT: A mouse IgE test for the prospective identification of chemical respiratory allergens has been proposed previously. In this method, respiratory sensitizing potential is measured as a function of induced changes in the serum concentration of IgE following topical exposure of mice to the test material. In previous studies, changes in serum IgE were measured after treatment of mice with only a single concentration of chemical. The purpose of the investigations reported here was to examine dose-response relationships in the mouse IgE test with both chemical respiratory allergens and chemicals considered not to cause pulmonary hypersensitivity. The respiratory sensitizers examined were toluene diisocyanate (TDI), di-phenylmethane-4,4′-diisocyanate (MDI), hexamethylene diisocyanate (HDI), and trimellitic anhydride (TMA), all of which are known to cause occupational respiratory allergy in a proportion of exposed individuals. Results were compared with those obtained with 2,4-dinitrochlorobenzene (DNCB) and oxazolone, two contact allergens known or suspected not to cause sensitization of the respiratory tract. In each case, induced changes in serum IgE were measured under conditions of exposure, with respect to application concentrations, where all chemicals elicited positive responses in the local lymph node assay provoking lymphocyte hyperplasia in lymph nodes draining the site of treatment. In the mouse IgE test, exposure to TDI, MDI, HDI, and TMA in each instance caused a substantial dose-related increase in the serum concentration of IgE measured 14 days following the initiation of treatment. In contrast, exposure of mice to the contact allergens DNCB and oxazolone resulted in either no change in serum IgE levels (DNCB) or only a comparatively modest increase (oxazolone). These data confirm that chemical contact and respiratory allergens differ markedly with respect to the quality of immune response induced in mice and their ability to stimulate changes in the serum concentration of IgE. It is proposed that the mouse IgE test may provide a useful alternative approach to the prospective identification of chemicals that have the ability to cause sensitization of the respiratory tract.
09/2008; 5(1):51-60.
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ABSTRACT: The murine local lymph node assay (LLNA) has been developed as an alternative method for the identification of skin sensitizing chemicals. Measurement is made of the proliferation of lymphocytes within lymph nodes draining the site of exposure to the test chemical. This report describes a collaborative study in which 25 test chemicals were evaluated in each of four participating laboratories and the results compared with existing data from guinea pig predictive tests. Nineteen chemicals were predicted to be sensitizers in the guinea pig. Of these, 14 were correctly identified in the LLNA (9 by all laboratories and 5 by two or three laboratories). Five chemicals predicted to be contact allergens by guinea pig tests failed to elicit positive LLNA responses. With adoption of a 5 day rather than a 4 day exposure period to the test chemical and administration of maximum soluble test concentrations, positive reactions could be obtained with each of the chemicals initially negative in the LLNA. The LLNA and guinea pig tests were in agreement for all three chemicals predicted to be nonsensitizers in the guinea pig. Positive LLNA responses were obtained with four chemicals (including a re-evaluation of one initially negative in the LLNA) for which guinea pig results were equivocal in three cases and negative in another. These results suggest that the LLNA may provide a rapid and reliable elective prescreen for the identification of contact allergens.
09/2008; 1(1):30-43.
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I Kimber, J Hilton,
R J Dearman,
G F Gerberick,
C A Ryan,
D A Basketter,
L Lea,
R V House,
G S Ladics,
S E Loveless,
K L Hastings
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ABSTRACT: The murine local lymph node assay (LLNA) is a method for the predictive identification of chemicals that have a potential to cause skin sensitization. Activity is measured as a function of lymph node cell (LNC) proliferative responses stimulated by topical application of test chemicals. Those chemicals that induce a threefold or greater increase in LNC proliferation compared with concurrent vehicle controls are classified as skin sensitizers. In the present investigations we have evaluated further the reliability and accuracy of the LLNA. In the context of an international interlaboratory trial the sensitization potentials of six materials with a history of use in topical medicaments have been evaluated: benzoyl peroxide, hydroquinone, penicillin G, streptomycin sulfate, ethylenediamine dihydrochloride, and methyl salicylate. Each chemical was analyzed in the LLNA by all five laboratories. Either the standard LLNA protocol or minor modifications of it were used. Benzoyl peroxide and hydroquinone, both human contact allergens, elicited strong LLNA responses in each laboratory. Penicillin G, another material shown previously to cause allergic contact dermatitis in humans, was also positive in all laboratories. Streptomycin sulfate induced equivocal responses, in that this material provoked a positive LLNA response in only one of the five laboratories, and then only at the highest concentration tested. Ethylenediamine dihydrochloride dissolved in a 3:1 mixture of acetone with water, or in 4:1 acetone:olive oil (one laboratory), was uniformly negative. However, limited further testing with the free base of ethylene diamine yielded a positive LLNA response when applied in acetone:olive oil (AOO). Finally, methyl salicylate, a nonsensitizing skin irritant, was negative at all test concentrations in each laboratory. Collectively these data serve to confirm that the local lymph node assay is sufficiently robust to yield equivalent results when performed independently in separate laboratories and indicate also that the LLNA is of value in assessing the skin sensitization potential of topical medicaments.
Journal of Toxicology and Environmental Health Part A 05/1998; 53(7):563-79. · 1.83 Impact Factor
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ABSTRACT: Chemicals vary considerably in their intrinsic ability to cause allergic contact dermatitis. Presently, there are no experimental methods available for the quantitative assessment of the relative sensitizing potency of chemical allergens.
The objective of the investigations described here was to evaluate the use of the local lymph node assay for determining the relative skin sensitizing potential of chemicals. This has been addressed by comparing the sensitizing potency of formaldehyde with glutaraldehyde.
Dose responses induced by formaldehyde and glutaraldehyde in the local lymph node assay, using either acetone or dimethylformamide (DMF) as the application vehicle, have been measured. Relative skin sensitizing potency was estimated as a function of the amount of chemical required to induce a threefold increase in lymph node cell proliferative activity, a mathematically derived EC3 value (estimated concentration required to induce a stimulation index of 3).
In both vehicles, glutaraldehyde induced substantially more vigorous responses in the local lymph node assay (EC3 values of 0.006mol/L in acetone and 0.002mol/L in DMF) than did formaldehyde (EC3 values of 0.18mol/L in acetone and 0.11mol/L in DMF).
These results demonstrate that glutaraldehyde has a considerably greater potential to induce skin sensitization than does formaldehyde; the data are consistent with what is known of the ability of these chemicals to cause allergic contact dermatitis in humans. Using formaldehyde and glutaraldehyde as examples, the results here illustrate the utility of EC3 values derived from local lymph node assay responses for the estimation of the relative potency of skin sensitizing chemicals.
American Journal of Contact Dermatitis 04/1998; 9(1):29-33.
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ABSTRACT: Whereas many foreign proteins are immunogenic, only a proportion is also allergenic, having the capacity to induce the quality of immune response necessary to support the production of IgE antibody. We have demonstrated previously that intraperitoneal administration to mice of proteins such as ovalbumin (OVA) or the industrial enzyme A. oryzae lipase, which possess significant allergenic potential, stimulates the production of both IgG and IgE antibody. Identical exposure to bovine serum albumin (BSA), a protein with limited potential to cause immediate respiratory or gastrointestinal hypersensitivity reactions, induced IgG responses only. In the current investigations, the quality of immune responses induced following exposure to these proteins via mucosal tissue (intranasal) has been compared with those provoked following administration via a non-mucosal (intraperitoneal) route of exposure. Intranasal or intraperitoneal administration of BSA, OVA or A. oryzae lipase elicited in each case vigorous IgG and IgG1 antibody responses. For all three proteins, at every concentration tested, and via both routes of exposure, IgG1 antibody titres paralleled closely IgG titres. However, the three materials displayed a differential potential to provoke IgE responses and this correlated with their known allergenic potential in humans. Thus, OVA and A. oryzae lipase stimulated strong IgE antibody responses, whereas BSA provoked low titre IgE only at the highest concentration tested (5% administered intraperitoneally). The quality of induced responses was not affected by the route of exposure. It would appear, therefore, that the stimulation of IgG and IgG1 antibody responses is a reflection of protein immunogenicity whereas protein allergenicity is associated with the induction of strong IgE responses.
Food and Chemical Toxicology 01/1998; 35(12):1209-18. · 3.00 Impact Factor
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ABSTRACT: A debate continues regarding the immunological properties of 2,4-dinitrothiocyanobenzene (DNTB). In some investigations this chemical was shown not to cause skin sensitization when applied topically but to induce instead hyporesponsiveness or immunological tolerance. In other studies DNTB was found to cause skin sensitization, but not tolerance. However, this chemical continues to be used to discriminate between the properties of skin sensitizing and non-sensitizing chemicals. This study demonstrates that topical exposure of mice to DNTB induces skin sensitization in mice and that this is associated with the accumulation of dendritic cells in draining lymph nodes and the stimulation of lymph node cell proliferation; the latter responses being of equivalent magnitude to those stimulated by 2,4-dinitrochlorobenzene (DNCB), a chemical known to cause contact sensitization. Moreover, exposure of mice to DNTB, as with exposure to DNCB, resulted in the development of a cytokine secretion pattern by draining lymph node cells (LNC) characteristic of contact allergens. Thus, DNTB and DNCB each induced the production by LNC of high levels of interferon-gamma, but little or no interleukin 4 or interleukin 10. Finally, DNTB was shown in the guinea pig maximization test to behave as an extreme skin sensitizer. These results confirm that DNTB should not be regarded as a universal tolerogen and that it possesses a significant potential to induce contact sensitization. The use of this chemical as a presumptive non-sensitizer and/or tolerogen for the evaluation of the selectivity of new predictive test methods for the identification of contact allergens is therefore considered to be inappropriate.
Food and Chemical Toxicology 03/1997; 35(2):261-9. · 3.00 Impact Factor
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ABSTRACT: The dinitrohalobenzenes are known to cause skin sensitization and have been used in many seminal investigations of the relationships between physicochemical characteristics and sensitizing potential. The electrophilic theory of skin sensitization implies that contact allergic potential should correlate positively with ability of chemicals to react with proteins to form immunogenic hapten-protein conjugates. It is intriguing, therefore, that previous studies in guinea pigs and mice have suggested that such correlations do not apply to dinitrohalobenzenes. To address this, we have examined, using the murine local lymph node assay (LLNA), the sensitizing activity of 2,4-dinitrofluorobenzene (DNFB), 2,4-dinitrochlorobenzene (DNCB), 2,4-dinitrobromo-benzene (DNBB) and 2,4-dinitroiodobenzene (DNIB). In contrast to previous investigations, it was found that the ability of these chemicals to provoke responses in the LLNA correlated closely with their reported protein reactivity. On the basis of these data, it is proposed that dinitrohalobenzenes conform to the electrophilic theory of skin sensitization and that they should be regarded as direct acting haptens.
Contact Dermatitis 03/1997; 36(2):97-100. · 3.51 Impact Factor
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ABSTRACT: What limited evidence there is indicates that the formulation in which a chemical allergen is encountered on the skin can have a marked impact upon the induction of cutaneous immune responses and the subsequent development of contact sensitization. The purpose of the present investigations was to examine further this phenomenon by analysis of the influence of dibutyl phthalate (DBP) on dermal sensitization to fluorescein isothiocyanate (FITC), a skin sensitizing fluorochrome. Addition of DBP augmented very substantially, in a dose-dependent fashion, the ability of topically applied FITC to stimulate proliferative responses in mice by draining lymph node cells (LNC), a correlate of skin sensitizing potential. Under these conditions, exposure of mice to DBP alone failed to elicit significant LNC responses. The influence of DBP on the accumulation of dendritic cells (DC) induced by FITC was examined also. Although 10% DBP had little effect on the numbers of DC found within draining nodes 18 hr following exposure of mice to FITC, the phthalate did result in a very substantial increase in the frequency of lymph node DC bearing detectable antigen (FITC+ DC). Furthermore, in the presence of DBP the median amount of FITC associated with antigen-bearing DC was higher. In vitro skin absorption studies indicated that DBP was associated with a small increase in percutaneous absorption of FITC. Collectively these data demonstrate that the vehicle formulation can exert a marked influence on dermal sensitization and that one mechanism which may be relevant is the increased acquisition of antigen by DC, associated possibly with altered penetration of the allergen into or through the skin.
Fundamental and Applied Toxicology 10/1996; 33(1):24-30.
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ABSTRACT: Attempts to develop predictive test methods for the identification of chemical respiratory allergens have to date focused almost exclusively on the guinea pig. In recent years there has, however, been a growing interest in the mouse as a model for examination of sensitization potential. In this article two alternative approaches to the toxicological investigation of respiratory sensitization are described. Both are based on an understanding of the nature of immune responses induced in mice by chemical allergens. The mouse IgE test seeks to identify chemicals capable of causing allergic sensitization of the respiratory tract as a function of induced increases in the serum concentration of IgE. The second approach, cytokine fingerprinting, makes use of the observation that chemical allergens of different types provoke in mice qualitatively divergent immune responses characterized by discrete cytokine secretion profiles.
Toxicology Letters 09/1996; 86(2-3):193-8. · 3.23 Impact Factor
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ABSTRACT: Formaldehyde causes upper respiratory tract irritation and has been reported in some investigations to be a cause of occupational allergic asthma. The data are equivocal, however, and it has proved difficult to confirm that exposure to formaldehyde induces respiratory sensitization or provokes the production of specific immunoglobulin E (IgE) antibody. In this study the sensitizing properties of formaldehyde were examined experimentally. This chemical elicited strong positive responses in three independent methods for the prospective identification of contact sensitizing chemicals-the guinea pig maximization test, the occluded patch test of Buehler and the murine local lymph node assay. In contrast, in a novel predictive test method for assessment of respiratory sensitization potential-the mouse IgE test-formaldehyde at the same test concentrations was negative. Furthermore, formaldehyde induced in mice a pattern of cytokine secretion by draining lymph node cells inconsistent with the stimulation of IgE antibody responses or respiratory sensitization. These data indicate that, although formaldehyde is a potent contact allergen, it lacks a significant potential to cause sensitization of the respiratory tract.
Food and Chemical Toxicology 07/1996; 34(6):571-8. · 3.00 Impact Factor
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ABSTRACT: Effective skin sensitization is dependent upon immune activation of lymph nodes draining the site of exposure. The influence of vehicle formulation on the vigour of lymph node cell proliferative responses to 2,4-dinitrochlorobenzene (DNCB) has been examined. Mice (BALB/c strain) were exposed topically to 0.5% DNCB dissolved in either acetone or propylene glycol (PG). A significantly greater lymph node cell proliferative response was induced by DNCB in acetone. The observed differences were not attributable to variations in the numbers of immunostimulatory dendritic cells accumulating in the draining nodes following sensitization. In parallel studies, the absorption and cutaneous disposition of DNCB dissolved in acetone or PG were measured in vitro using static diffusion cells and full thickness mouse skin. Although flux of DNCB through the skin was comparable with both vehicles over 24 h, the absorption of the allergen during the first 4 h of exposure was significantly faster when acetone was used as the vehicle. Localization of DNCB demonstrated that much less of the chemical allergen was present in the skin at 4 h when applied in PG vehicle. However, there were no measurable vehicle effects on skin disposition of DNCB at 24 h. These data indicate that the sensitization potential of DNCB is influenced significantly by the nature of the vehicle used, possibly due to consequential effects on chemical absorption and disposition. The studies described in this paper reveal that the application vehicle may have a significant influence on the ability of DNCB to induce immune activation of draining lymph nodes and hence skin sensitization and that this may in turn be associated with important changes in the absorption and/or disposition of the chemical within the skin.
Toxicology 06/1996; 109(1):57-65. · 3.68 Impact Factor
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ABSTRACT: The local lymph node assay (LLNA) is a method used for the prospective identification in mice of chemicals that have the potential to cause skin sensitization. We report here the results of the second and final phase of an international trial in which the performance of the assay has been evaluated using seven test materials in five independent laboratories. The additional chemicals examined here included compounds which are considered less potent allergens than some of those tested in the first phase of the investigation, and includes hexylcinnamic aldehyde (HCA), a chemical recommended by the Organization for Economic Cooperation and Development (OECD) as a positive control for skin sensitization studies. In each laboratory all skin sensitizing chemicals examined (2,4-dinitrochlorobenzene {DNCB}, HCA, oxazolone, isoeugenal and eugenol) elicited positive responses of comparable magnitude as judged by the derived lowest concentration of test chemical required to elicit a 3-fold or greater increase in the proliferative activity of draining lymph node cells compared with vehicle-treated controls. We observed that sodium lauryl sulphate, considered to be a non-sensitizing skin irritant, also induced a positive response in the assay. Para-aminobenzoic acid (pABA), a nonsensitizing chemical, was negative at all test concentrations in each laboratory. Some laboratories incorporated minor modifications into the standard assay procedure, including the evaluation of lymph nodes pooled from individual mice rather than treatment groups and the use of statistical analyses. The use of statistics did not markedly change the determination of the lowest concentration yielding a positive response. These data confirm that the local lymph node assay is robust and yields equivalent results when performed independently.
Toxicology 05/1996; 108(1-2):141-52. · 3.68 Impact Factor
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ABSTRACT: Unlike the closely related chemical dinitrochlorobenzene (DNCB), which is a very strong contact allergen, dichloronitrobenzene (DCNB) has been widely regarded as a non-allergen and, as such, a useful control for its strongly sensitizing counterpart. Nevertheless, it is still an organic chemical species readily capable of penetrating skin and, rather than being regarded as completely inert, it has even been suggested to react with the immune system in such a way that it induces specific tolerance to its chemical structure. We investigated whether DCNB was in reality a non-allergen, or rather merely a weak contact sensitizer. In both a rigorously conducted guinea pig maximization test and in a modified murine local lymph node assay, DCNB was demonstrated to possess weak sensitizing activity. On this basis, DCNB cannot be regarded as inert with respect to contact allergic potential, and is therefore inappropriate as a negative control in studies of skin sensitization.
Contact Dermatitis 02/1996; 34(1):55-8. · 3.51 Impact Factor
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ABSTRACT: The murine local lymph node assay is a predictive test for the identification of skin-sensitizing chemicals. The method has been the subject both of national inter-laboratory studies and of extensive comparisons with guinea pig tests. In the investigations reported here, the local lymph node assay has been evaluated further in the context of an international study comprising five independent laboratories. In addition, the influence of minor modifications to the standard assay procedure on the performance of the test has been examined. The modified procedures investigated were exposure of mice for 4 rather than 3 consecutive days, excision of lymph nodes 4 rather than 5 days after the initiation of exposure and the use of an alternative isotope. All five laboratories, irrespective of whether the standard or a modified protocol was used, were able to identify accurately, and with comparable sensitivity, potassium dichromate and 2,4-dinitrochlorobenzene as skin sensitizers. Using standard criteria, none of the laboratories recorded positive responses with methyl salicylate, a non-sensitizer. In the standard protocol, lymph nodes are pooled for each experimental group and the vigor of responses measured as a stimulation index relative to vehicle controls. A stimulation index of 3 or greater is considered to indicate skin-sensitizing potential. One further modification adopted by three of the laboratories was to analyze nodes from individual animals and, thereby, permit statistical evaluation. This allowed a direct comparison of statistical significance with the conventional stimulation index as criteria for a positive response. The data indicate that, while statistical evaluation may provide, in some instances, for small increases in sensitivity, this may be at the expense of some loss of selectivity. There are, however, insufficient data presently to draw firm conclusions regarding the relative value of statistical analysis. These studies demonstrate that the local lymph node assay is sufficiently robust to accommodate minor procedural and technical modifications without material changes in test performance.
Toxicology 12/1995; 103(1):63-73. · 3.68 Impact Factor
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ABSTRACT: We have shown previously that the alkylating agent streptozotocin (STZ) fails to induce responses in the murine local lymph node assay, a predictive test for contact sensitizing potential. In the present study, we demonstrate that this same compound when injected intradermally into the ears of mice provokes a dose-dependent induction of draining lymph node cell proliferation. These data indicate that the intrinsic immunogenicity of STZ is not displayed in the local lymph node assay under conditions of conventional topical exposure, secondary to a failure to cross the lipophilic stratum corneum in sufficient quantities. This finding has implications for the discernment of structure-activity relationships in contact sensitization.
Contact Dermatitis 10/1995; 33(3):165-7. · 3.51 Impact Factor
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ABSTRACT: It is known that a variety of materials, including both low molecular weight chemicals and proteins, is able to induce occupational respiratory allergy. We have shown previously that exposure of mice to chemical respiratory sensitizers results in both a marked increase in the serum concentration of IgE and the appearance of specific IgE antibody. In the present study we have examined the characteristics of immune responses induced in mice following intraperitoneal exposure to 3 protein respiratory allergens, ovalbumin (OVA), a lipase from Aspergillus oryzae (LP) and an amylase from Bacillus subtilis (AM) and to a fourth protein, bovine serum albumin (BSA), which is considered usually not to cause respiratory sensitization. Under conditions where all proteins provoked IgG antibody responses, only OVA, LP and AM elicited specific IgE antibody. As judged by passive cutaneous anaphylaxis (PCA) assay, BSA failed to induce an IgE response. In contrast to chemical respiratory sensitizers, the protein allergens examined here failed to cause a substantial increase in the serum concentration of IgE; OVA and AM induced no increase in serum IgE and LP only a comparatively modest increase relative to control values. In conclusion, these data demonstrate that while protein respiratory allergens are able to provoke specific IgE antibody, they fail to cause a marked increase in the concentration of this immunoglobulin in the sera of treated mice. It would appear, therefore, that the mouse IgE test, which seeks to evaluate chemical respiratory sensitization potential as a function of induced changes in the concentration of serum IgE, will be inappropriate for the identification of protein respiratory allergens. Nevertheless, identification of protein allergens may be possible by exploiting the observations reported here that such proteins induce in mice specific IgE antibody responses.
Toxicology Letters 08/1994; 73(1):43-53. · 3.23 Impact Factor
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ABSTRACT: The murine local lymph node assay has been developed as an alternative method for the identification of contact allergens. In contrast to guinea pig tests, which rely on visual assessment of challenge-induced dermal reactions, the local lymph node assay measures events occurring during the induction of skin sensitization. Contact allergic potential is measured as a function of hyperplastic responses in draining lymph nodes following systemic administration of [(3)H]thymidine. We have now examined whether the production in vitro of interleukin 6 (IL-6) by draining lymph node cells isolated from sensitized mice provides an alternative endpoint for the local lymph node assay. In comparative experiments, the production of IL-6 by lymph node cells in culture correlated closely with proliferative responses in vitro. Only chemicals known to cause contact sensitization elicited measurable (> 150 pg/ml) IL-6 production; non-sensitizing chemicals, including skin irritants, did not. Experience to date suggests that IL-6 production may provide a useful alternative read-out for the identification of chemicals which have a significant skin-sensitizing potential.
Toxicology in Vitro 08/1994; 8(4):711-3. · 2.78 Impact Factor
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ABSTRACT: Twenty organic Salmonella mutagens, seven of which (including benzo[a]pyrene) are established skin carcinogens, and one of which (2-chloroethanol) is a well-defined noncarcinogen to skin, have been evaluated for skin-sensitizing activity using the local lymph node assay. The relative mutagenicity of the agents to Salmonella was also established. Fourteen of the chemicals were positive in the local lymph node assay, including the seven skin carcinogens. 2-Chloroethanol was inactive as a sensitizing agent. We suggest that a variety of factors contributes to the lack of sensitizing activity of the remaining six bacterial mutagens: extremes of intrinsic chemical reactivity, high water solubility reducing dermal translocation, and inappropriate dermal metabolism. Two reference skin-sensitizing agents (an oxazolinone and fluorescein isothiocyanate) were established as in vitro clastogens after their recognition as nonmutagens to Salmonella. These data imply that mutagenicity, rather than simply activity in the Salmonella assay, is a primary stimulus for electrophilic sensitization and carcinogenic initiation in the skin. We conclude that genotoxicity data for an agent can provide indications of the agent's potential to induce skin sensitization and that genotoxins which are skin-sensitizing agents have an enhanced potential to initiate skin carcinogenesis. We suggest that common, albeit individually distinct, structure-activity relationships underpin genotoxicity, skin sensitization, and the initiation of skin carcinogenesis. These relationships should simplify the hazard evaluation of chemicals and contribute to a reduction in animal usage. Several predictions of skin carcinogenicity are made based on the data presented.
Environmental Health Perspectives 05/1993; 101(1):62-7. · 7.04 Impact Factor
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ABSTRACT: The influence of the anionic surfactant sodium lauryl sulphate (SLS) on the ability of the contact allergen 2,4-dinitrochlorobenzene (DNCB) to provoke draining lymph node cell proliferative responses, a correlate of skin sensitizing potential, has been examined in mice. Topical application of 10% SLS with 0.1% DNCB caused a more vigorous proliferative response than did exposure to 0.1% DNCB alone. Lower concentrations (0.1% or 1%) of SLS were ineffective and 10% SLS failed to influence proliferative responses to higher concentrations (0.5% or 1%) of DNCB. Using an in vitro model for measurement of percutaneous absorption 10% SLS was shown not to increase the skin penetration of 0.1% DNCB. We therefore examined the influence of SLS on the accumulation of dendritic cells (DC) in lymph nodes draining the site of exposure, an important early event during the induction phase of skin sensitization. The frequency of DC in draining nodes was measured following topical application of SLS, DNCB or a combination of both. Epicutaneous exposure to 0.1% DNCB caused only a modest increase in the number of lymph node DC. However, 10% SLS or a mixture of 10% SLS with 0.1% DNCB each resulted in a significant elevation of DC numbers. It is proposed that SLS augments the skin sensitizing potential of sub-irritant concentrations of DNCB via an increase in the number of immunostimulatory DC which reach the draining nodes.
Toxicology 02/1993; 77(1-2):181-91. · 3.68 Impact Factor
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ABSTRACT: The relative skin-sensitizing potency of 3 biocides, 5-chloro-2-methyl-4-isothiazolin-3-one (the major active ingredient in Kathon CG), 1,2-benzisothiazolin-3-one and 2-methyl-4,5-trimethylene-4-isothiazolin-3-one, was assessed using the murine local lymph node assay. Potency was ranked according to the lowest dose of material which, following epicutaneous exposure, induced a significant proliferation of T lymphocytes in the draining lymph nodes. The results showed that 5-chloro-2-methyl-4-isothiazolin-3-one was able to induce proliferative activity at significantly lower dose levels than the other 2 biocides and that it may therefore be a more potent skin sensitizer.
Contact Dermatitis 10/1991; 25(3):172-7. · 3.51 Impact Factor
