SummaryWe examined the role of cytokines in the cutaneous response to the application of trinitrochlorobenzene (TNCB) in both nonsensitized and sensitized mice, i .e., in the irritant reaction (IR) and contact hypersensitivity reactions (CH). When administered immediately before challenge, anti-tumor necrosis factor (TNF) antibody abrogated the ear swelling response in CH; antibody directed against interferon y or antibodies to both granulocyte/macrophage colony-stimulating factor and interleukin 3 (IL3) had a partial inhibitory effect ; anti-IIr2 receptor antibody had no effect . AntiTNF prevented the various features of the CH, as seen on histological sections, e.g., leukocyte infiltration and hemorrhages within the dermis and keratinocytes necrosis. Anti-TNF antibody also prevented the IR . The presence of TNF mRNA was evaluated on Northern blots ; TNF-ci mRNA was detectable in an untreated ear, increased after the application of TNCB in nonsensitized mice, and was highest in sensitized mice. TNF mRNA accumulation, which was evident 0 .5 h after hapten application and lasted >72 h, was abolished by treatment with antiTNF antibody, thus suggesting an auto-amplification of TNF production . The cellular origin of TNF mRNA was explored by in situ hybridization ; basal keratinocytes showed the highest labeling, but TNF mRNA was also detectable in cells of the dermal infiltrate. After hapten (TNCB) application at sites susceptible (the ear) or resistant (the foot pad) to CH or IR, a close correlation was observed between TNF mRNA accumulation and the intensity of the inflammatory reaction . The major role played by TNF in both the CH and the IR explains the histologically similar aspects of these reactions and the extreme variability of these reactions at various anatomical sites.T he epicutanous application of highly reactive compounds (haptens) to the skin can elicit two types of reactions ; the primary "irritant" reaction (IR)t and the contact hypersensivity reaction (CH) when the subject has been previously sensitized (1-3). The ability of a chemical contactant to induce CH and IR is related to its ability to couple covalently to a protein of the skin (4) . Histologically, IR and CH are characterized by vasodilation, the extravasation of leukocytes in the upper dermis (i.e., monocytes, polymorphs, and eosinophils), and epidermal alterations such as keratinocyte damage (5, 6) .T lymphocytes play an inductive role in CH as well as in other delayed-type hypersensitivity (DTH) reactions elicited by the subcutaneous injection of antigen . The CH is dependent upon T lymphocytes of the CD8+ phenotype (7), in contrast to the DTH, which is mainly dependent upon 'Abbreviations used in this paper: CH, contact hypersensitivity reaction ; DTH, delayed-type hypersensitivity; GM, granulocyte/macrophage ; IR, irritant reaction . the CD4+ subset (8) . T lymphocytes of either the CD4 or CD8 subset secrete a large variety of cytokines that might be involved in the inflammatory reaction of CH (9, 10) . In this report, we investiga...
