The temporal patterns of edema and accumulation of the PMN marker enzyme, myeloperoxidase (MPO), were examined following application of tetradecanoylphorbol acetate (TPA) to mouse ears. After application of 2.5 micrograms TPA, edema peaked at 6 hr, while MPO activity peaked at 24 hr. Pharmacological agents with defined mechanisms of action, delivered orally or topically, were assessed for effects on these responses. For oral administration, compounds were delivered 1 hr before and 6 hr after TPA and for topical administration compounds were delivered at 15 min and 6 hr after TPA. Topical and oral corticosteroids inhibited both edema and MPO accumulation. Cyclooxygenase and lipoxygenase inhibitors were very effective against MPO accumulation but were either inactive or moderately active vs edema. Anti-histamine/anti-serotonin agents had little effect on edema, but could inhibit or exacerbate MPO accumulation depending on dose and route of administration. Topically applied histamine itself did not effect TPA-induced edema, but markedly suppressed MPO accumulation. Acetone, the vehicle, when topically applied between 0.5 and 2 hr after TPA inhibited MPO accumulation by 60-80%, but had little effect on edema. Acetone applied before 0.5 hr or after 2 hr had no effect on either parameter. These results indicate that in the TPA-induced ear inflammation model the MPO response at 24 hr may be a useful additional indicator of drug activity.
Application of arachidonic acid (AA) (0.1-4 mg) to the ears of mice produces immediate vasodilatation and erythema (5 min) followed by the abrupt development of edema which is maximal at 40-60 min. The onset of edema coincides with extravasation of protein and leukocytes. After 1 h, the edema begins to wane rapidly and the inflammatory cells leave the tissue so that by 6 h the ears have returned to near normal except for residual erythema. During the period 6-48 h, AA-treated ears show a greatly diminished response with respect to edema and cell infiltrate when AA is applied a second time. Inhibitor studies show that the inflammatory response is due to formation of AA metabolites via both the cyclooxygenase and lipoxygenase pathways. Under appropriate conditions, AA-induced ear edema can be used as a model to screen for compounds showing in vivo lipoxygenase inhibitory activity. Although relatively large doses of AA were applied topically, there was only a modest stimulation of epidermal DNA synthesis and mitotic index with no consequent hyperplasia. Although arachidonic acid is capable of eliciting most aspects of an inflammatory response, the reaction is abrupt in onset and of short duration. Additional factors appear to be required to produce a prolonged inflammatory response with associated tissue destruction, or inflammatory cell activation and immobilization in situ.
When freshly drawn, heparinized human whole blood is incubated with 50 microM calcium ionophore A23187, platelets are stimulated to produce thromboxane B2 (TxB2) by activation of prostaglandin G/H synthase-l (PGHS-1). TxB2 concentration, as measured by immunoassay, is maximal at 20-30 min and declines thereafter. Addition of acetylsalicylic acid (IC50 = 2.8 microM) or other nonsteroidal antiinflammatory drugs (NSAIDs) 15 min or 4.5h prior to 30 min stimulation with ionophore results in concentration dependent inhibition of TxB2 production. When blood is incubated with 0.01-10 micrograms/ml E. colilipopolysaccharide (LPS), PGHS-2 is induced and TxB2 levels become detectable at 3h and continue to increase through 24h. Using a 5h incubation with 10 micrograms/ml LPS, aspirin (10 microM added at 0 h), which is rapidly metabolized to salicylic acid, had no effect on 10 micrograms/ml LPS-induced TxB2, but inhibited TxB2 production by ionophore A23187 added at 4.5h through acetylation of pre-existing PGHS-1. In a 5h assay, NSAIDs added at 0 h were compared for inhibition of TxB2 production stimulated by addition of ionophore A23187 at 4.5h (PGHS-1), or by addition of LPS at 0 h (PGHS-2). Most NSAIDs were more potent against PGHS-1 than PGHS-2. Diclofenac, naproxen and flufenamic acid were equipotent or slightly selective for PGHS-2. Diflunisal and nimesulide were > 4-fold selective for PGHS-2, and NS-398 was > 30-fold selective for PGHS-2.
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