Document Type

Article

Embargo Period

6-1-1979

Publication Date

6-1-1979

Abstract

Scleroderma, which follows rheumatoid arthritis and systemic lupus erythematosus as the third most prevalent rheumatic disorder, is poorly understood. Connective tissue abnormalities have been explored extensively (1); recently, vascular involvement has been emphasized as a unifying pathogenetic concept (2, 3). The vascular features in scleroderma include Raynaud's phenomenon; an early, edematous phase of the disorder; telangiectasia; capillary abnormalities as seen by nailfold and ultrastructural microscopy; and widespread vascular pathology noted in all involved organs. The most striking histological abnormalities occur in small arteries and arterioles and consist of distinctive intimal proliferation of cells arranged concentrically in a matrix of ground substance; the cells are thought to originate from medial smooth muscle and to migrate toward the intima after injury to the endothelium (4). Evidence for endothelial injury includes: (a) the disappearance of endothelium in association with thrombosis or fibrinoid necrosis in ultrastructural studies; (b) the absence of endothelial cells within the thickened intima (4, 3) the duplication of basement membrane, a common observation in scleroderma and known to occur after endothelial perturbation in other settings. The ability to isolate, characterize, and maintain endothelial cells in vitro provides a target-cell population to study endothelial damage in scleroderma. The present report describes the effect of scleroderma serum on endothelial, smooth muscle, and fibroblast cell types. Sera from patients with scleroderma (31/52) and Raynaud's syndrome (11/19) contain cytotoxic activity specific for endothelial cells which is nondialyzable, heat-stable, and elutes with albumin on gel-filtration chromatography.

Journal

Journal of Experimental Medicine

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