Magnesium deficiency in hairless rats results in a transient erythematous rash within several days, the pathogenetic mechanisms of which are not yet well defined. However, the extremely pruritic rash closely mimics the acute clinical features of atopic dermatitis. Owing to the similarity of clinical signs between hypomagnesaemic rats and patients with atopic dermatitis, this rodent skin condition holds promise as a model for the in vivo evaluation of new treatment modalities against pruritic inflammatory skin conditions. The efficacy of the new ascomycin macrolactam derivative SDZ ASM 981 was tested in hypomagnesaemic rats by systemic or topical administration using prophylactic or therapeutic treatment regimens. Oral treatment of diseased rats with SDZ ASM 981 (12.5 mg kg-1 daily) inhibited the erythematous pruritic rash within 1 day after the start of treatment. This was associated with a clear reduction in histaminaemia, leucocytosis, eosinophilia and serum nitric oxide levels. The same daily oral dose of SDZ ASM 981 administered before the onset of the rash proved to be an efficacious prophylactic treatment regimen to prevent signs. Topical treatment of the ears with 0.4% SDZ ASM 981 locally inhibited and prevented inflammatory changes in a therapeutic and prophylactic treatment regimen, respectively. The histo- and immunopathological skin changes, as well as the numbers of degranulated mast cells in the dermis, were reversed towards normal after oral and topical administration. The pharmacological activity of SDZ ASM 981 reported here corresponds well to its anti-inflammatory and antipruritic activity observed in atopic dermatitis patients, confirming the usefulness of this rat model in drug evaluations.
Weaned hairless rats were fed a diet deficient in fat, magnesium and folacin. After approximately 1 week, an erythematous dermatitis developed which was associated with extreme generalized pruritus. Scratching led to excoriations and hemorrhagic crusting. The acute stage (pruritic rash) resolved after several days and was followed by sporadic non-itching relapses. Subsequent to the onset of symptoms, rats were treated orally, once daily for 3 days with CyA, CyH or FK506. The immunosuppressants CyA and FK506 caused a dose-dependent inhibition of symptoms in contrast to CyH. The immediate clinical response was associated with changes in blood histamine, white blood cell counts and histological parameters. Since CyH is known to lack immunosuppressive activity, these results may indicate that the cutaneous changes induced by the nutritional deficiency are associated with immunological abnormalities. The results may also indicate mechanisms influenced by CyA and FK506 but not by CyH; for example, release of chemical mediators from inflammatory cells.
Pimecrolimus (SDZ ASM 981, Elidel) is a nonsteroid inflammatory cytokine inhibitor specifically developed for the treatment of inflammatory skin diseases. Its effect on the elicitation and sensitization phases of oxazolone-induced contact hypersensitivity was compared with tacrolimus and cyclosporine A (CyA) in BALB/c mice using the ear swelling assay. The compounds were administered orally. Elicitation was dose-dependently inhibited by all three compounds. The minimal effective doses were 30 mg per kg (pimecrolimus, tacrolimus) and 90 mg per kg (CyA), respectively. There was no impairment of sensitization by pimecrolimus up to the highest dose tested (120 mg per kg), in contrast to CyA (60% inhibition at 60 mg per kg) and tacrolimus (71% inhibition at 30 mg per kg). Weight and cellularity of the draining lymph nodes in mice treated with tacrolimus or CyA during sensitization were reduced. In addition, proliferation of T cells after secondary stimulation was inhibited in cell cultures from lymph nodes of mice treated with tacrolimus or CyA. Thus, in contrast to tacrolimus and CyA, pimecrolimus exerts a more selective immunomodulatory effect. It does not impair the primary immune response (sensitization phase) but effectively inhibits the secondary phase, the elicitation phase that is the clinical manifestation of contact hypersensitivity.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.