Studies on the Structure of Human Fibronectin

Plasma fibronectin is a glycoprotein that consists of two polypeptide chains of approximately 250,000 and 245,000 daltons, joined by disulfide bonds located near one end of the molecule. Fibronectin was isolated from human plasma by gelatin-agarose affinity chromatography and DEAE-cellulose ion exchange chromatography. The two subunit chains were found to be similar or identical with respect to primary structure, using a one-dimensional peptide mapping technique

Populations of Human T Lymphocytes That Traverse the Vascular Endothelium Stimulated by Borrelia burgdorferi Are Enriched with Cells That Secrete Gamma Interferon

Some diseases are characterized by prevalence in the affected tissues of type 1 T lymphocytes, which secrete gamma interferon (IFN-γ) and other proinflammatory cytokines. For example, type 1 T cells predominate in the lesions of patients with Lyme disease, which is caused by the bacterium Borrelia burgdorferi. We used an in vitro model of the blood vessel wall to test the premise that the vascular endothelium actively recruits circulating type 1 T cells to such lesions. When T lymphocytes isolated from human peripheral blood were examined, the populations that traversed monolayers of resting human umbilical vein endothelial cells (HUVEC) or HUVEC stimulated by interleukin-1β or B. burgdorferi were markedly enriched for T cells that produced IFN-γ compared to the initially added population of T cells. No enrichment was seen for cells that produced interleukin-4, a marker for type 2 T lymphocytes. Very late antigen-4 and CD11/CD18 integrins mediated passage of the T cells across both resting and stimulated HUVEC, and the endothelium-derived chemokine CCL2 (monocyte chemoattractant protein 1) was responsible for the enhanced migration of T cells across stimulated HUVEC. These results suggest that the vascular endothelium may contribute to the selective accumulation of type 1 T cells in certain pathological lesions, including those of Lyme disease

Cultured endothelial cell monolayers that restrict the transendothelial passage of macromolecules and electrical current

ABSTRACT Bovine microvascular endothelial cells (BMECs) proliferated to confluence on the stromal surface of human amniotic membrane that had been denuded of its natural epithelium. The resulting cultures had the following characteristics: (a) The endothelial cells formed a thin, continuous monolayer and, like their in vivo counterparts, contained basal adhesion plaques and large numbers of cytoplasmic vesicles and 10-nm filaments. In addition, the endothelial cells elaborated a basement membrane-like structure. (b) The borders of the BMECs reacted with AgN0 3 to produce the "flagstone " pattern typical of endothelium stained with this reagent in vivo. (c) More than 90 % of the zones of contact between endothelial cells examined 8 d after plating prevented passage of a macromolecular probe (wheat germ agglutinin conjugated to horseradish peroxidase) across the BMEC monolayer. (d) 8 d-old cultures displayed a transendothelial electrical resistance that averaged 69 ± 28 Q.cm 2. Monolayers of BMECs maintained on amnion thus resemble in vivo endothelium in several respects and should provide a useful and relevant model for the in vitro study of various phenomena that occur at the microvascular wall. The microvascular endothelium plays an important role i