Abstract

Extracts of the plant Sinomenium acutum have been used safely since ancient times in Chinese medicine for treatment of rheumatic diseases, and the purified alkaloid, sinomenine, was recently shown to have anti-inflammatory and antirheumatic effects. This study describes the effects of sinomenine in the high responder ACI-->Lewis cardiac transplant model in which allograft rejection occurred at 5 days posttransplant. Treatment with sinomenine (15-30 mg/kg/day i.p.) or a subtherapeutic dose of cyclosporine (CsA, 1.5 mg/kg/day, i.m.) prolonged allograft survival only marginally (mean survival of 5.4 and 7.8 days, respectively). In contrast, the combination of sinomenine and CsA had a statistically significant synergistic effect, with a mean survival of 42.2 days (P < 0.001). Allografts harvested at day 5 from recipients treated with either sinomenine or CsA showed dense mononuclear cell infiltrates with widespread subepicardial infarcts, edema, and microvascular platelet and fibrin deposition. Immunohistologic analysis showed that intragraft leukocytes consisted of >75% macrophages with approximately 10-20% T cells and <5% B or NK cells. Mononuclear cell activation was shown by expression of IL-2R (CD25, 10-20%) and labeling for IL-2 (approximately 10%), and IFN-gamma (10-20%), as well as TNF-alpha (>50%) and iNOS (>50%), but only low levels of IL-4 or IL-10 (<5%). Intragraft endothelial cells were activated, as shown by upregulation of MHC class II antigen and ICAM-1 (CD54) compared with only basal levels in normal donors hearts. Combined sinomenine/CsA therapy significantly enhanced graft morphology, resulting in only mild mononuclear cell infiltration, and an absence of infarcts, platelets, or fibrin deposition. Though residual intragraft mononuclear cells at day 5, as in control grafts, consisted primarily of macrophages plus small numbers of IL-2R+ T cells, these cells lacked expression of IL-2, had only low levels of IFN-gamma, but showed dense labeling for IL-4 and IL-10. In addition, TNF-alpha and iNOS were reduced to basal levels and no endothelial cell activation was observed, despite high titers of endothelium-bound IgM, IgG, and C3. Mitogen-induced in vitro proliferation of rat thymocytes was also more effectively decreased by the sinomenine/CsA combination than by either agent alone. These studies demonstrate the therapeutic value of sinomenine in transplantation, and indicate that this agent has novel and interesting antimacrophage, T cell, and endothelial effects that warrant further evaluation.

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