Ryuichi Hattori

We have examined the cell activation-dependent redistribution of the intracellular granule membrane protein GMP-140 of human endothelial cells. By dual-label immunofluorescence, the distribution of GMP-140 within cultured human umbilical vein endothelial cells was found to coincide with the distribution of von Willebrand factor (vWF), suggesting that GMP-140 is located in the membranes of vWF-containing storage granules. Stimulation of vWF secretion resulted in an increase in GMP-140 on the cell surface, as detected by increased binding of the monoclonal antibody S12 which recognizes the extracytoplasmic domain of GMP-140. For each agonist tested (histamine, thrombin, phorbol 12-myristate 13-acetate, and the calcium ionophore A23187) a dose-dependent redistribution of GMP-140 to the endothelial surface was observed which closely paralleled the dose-dependent secretion of vWF into the cell supernatant. When cells were maximally stimulated by histamine in the presence of antibody S12, a 4-fold increase in S12 uptake by the cells was observed. This increase occurred rapidly and reached a plateau by 10 min. In contrast, when histamine-stimulated cells were first fixed with paraformaldehyde or chilled to 4 degrees C before addition of antibody S12, only a transient increase in cell surface GMP-140 was detected. Under these conditions of arrested membrane turnover during antibody binding, cell surface GMP-140 was maximal 3 min after histamine stimulation and then declined to control levels by 20 min. These data suggest that stimulated secretion of vWF from endothelial cells entails fusion of vWF-containing storage granules with the plasma membrane. Once inserted into the plasma membrane, GMP-140 is subsequently removed from the endothelial surface, most likely by an endocytic mechanism.

The effect of immune activation of the serum complement system on the secretory response of human endothelial cells was examined. Exposure of antibody sensitized cultured umbilical vein endothelial cells to human serum resulted in secretion of very high molecular weight multimers of von Willebrand factor which coincided with new surface expression of the intracellular granule membrane protein GMP-140. This response required complement activation through deposition of C5b-9 and was not observed with cells exposed to antibody plus C8-deficient serum or to membrane C5b-8 (in the absence of C9). This C5b-9-induced secretion was observed with minimal cell lysis, as assessed by the release of lactic dehydrogenase. Delayed addition of C8 and C9 to cells exposed to antibody plus C8-deficient serum revealed a rapid decay of membrane C8 binding sites accompanied by loss of the secretory response, suggesting a process of removal or inactivation of nascent C5b67 complexes deposited on the endothelial surface. Membrane assembly of C5b-9 complexes caused an increase in endothelial cytosolic [Ca2+], due to influx across the plasma membrane. This C5b-9-dependent increase in cytosolic [Ca2+] and concomitant von Willebrand factor secretion were both abolished by removal of external calcium. In addition to being linked to the level of external Ca2+, the C5b-9-induced secretory response was partially inhibited by the protein kinase inhibitor, sphingosine. The capacity of the C5b-9 proteins to stimulate endothelial cells to secrete a platelet adhesive protein provides one mechanism for increased platelet deposition at sites of inflammation, and suggests the potential for other functional changes in endothelium exposed to C5b-9 during intravascular complement activation.

BACKGROUND: Enhanced coronary vasomotion may contribute to acute coronary occlusion during the acute phase of myocardial infarction (AMI). Japanese have a higher incidence of variant angina than Caucasian patients, but racial differences in vasomotor reactivity early after AMI are controversial. METHODS AND RESULTS: The same team studied 15 Japanese and 19 Caucasian patients within 14 days of AMI by acetylcholine injection into non-infarct-related (NIRA) and infarct-related (IRA) coronary arteries followed by nitroglycerin. Incidence of vasodilation, vasoconstriction, spasm, and basal tone were assessed in proximal, middle, and distal segments after each drug bolus by quantitative angiography. Japanese patients had much lower cholesterol levels than Caucasians (183+/-59 versus 247+/-53 mg/dL, P<0.006) but showed a lower incidence of vasodilation (2% versus 9% of coronary segments) and a greater incidence of spasm after acetylcholine (47% versus 15% of arteries, P<0.00001). Incidence of spasm was higher in IRAs than in NIRAs in both populations (67% versus 39% and 23% versus 11%, respectively). Multivessel spasm was more common (64% versus 17%, P<0.02) and vasoconstriction of nonspastic segments was greater in Japanese patients (-23.4+/-14.9% versus -20.1+/-15.7%, P<0.02) in the presence of similar average basal coronary tone with respect to post-nitroglycerin dilation and of nonsignificant differences of coronary atherosclerotic score. CONCLUSIONS: Soon after AMI, Japanese patients exhibited a 3-fold-greater incidence of spasm and greater vasoconstriction of nonspastic segments after acetylcholine than Caucasians. The causes of such differences warrant further investigation because they may have relevant pathophysiological and therapeutic implications.

Assembly of the terminal complement proteins C5b-9 on human endothelial cells results in increased cytosolic calcium and nonlytic secretion of high molecular weight multimers of von Willebrand factor from intracellular storage granules. We now demonstrate that this C5b-9-induced secretory response is accompanied by vesiculation of membrane particles from the endothelial surface which express binding sites for factor Va and support prothrombinase activity. Exposure of factor Va binding sites after C5b-9 assembly was accompanied by greater than 2-fold increase in prothrombinase activity, which was not observed for cells exposed to C5b-8 (in the absence of C9). By contrast, only a 3-16% increase in prothrombinase activity was observed when these cells were maximally stimulated to secrete by either histamine, thrombin, or the Ca2+ ionophore A23187. Increased prothrombinase activity after C5b-9 was not accompanied by a change in thrombomodulin activity, and was unrelated to cell lysis, the complement-treated cells remaining greater than 99% viable. Endothelial prothrombinase activity was predominately associated with small membrane vesicles (less than 1 microns diameter) released from the cell monolayer. Analysis by fluorescence-gated flow cytometry revealed that these vesicles incorporate the C5b-9 proteins and express binding sites for factor Va. The capacity of the C5b-9 proteins to induce vesiculation of the endothelial plasma membrane and thereby expose catalytic surface for the prothrombinase enzyme complex may contribute to fibrin deposition associated with immune endothelial injury.