Endothelium and inflammation.

During the past decade, our understanding of the pathophysiology of coronary heart disease (CAD) has undergone a remarkable evolution. To date atherosclerosis is considered an inflammatory disease, whose the endothelial dysfunction represents an early key event. When the arterial endothelium encounters certain bacterial products or risk factors, such as dyslipidemia, vasoconstrictor hormones involved in hypertension, the products of glycoxidation associated with hyperglycemia, or proinflammatory cytokines derived from excess adipose tissue, these cells increase the expression of adhesion molecules that promote the sticking of blood leukocytes to the inner surface of the arterial wall. Once in the arterial intima these cells communicate with endothelium and smooth muscle cells, under the influence of mediators of inflammation and immunity, such as the cytokines and complements components, prostanoids and leukotrienes. Thus, the activated endothelium promotes the development of the atherosclerotic disease process, i.e., vascular inflammation and thrombosis by producing vasoconstrictor substances, by inducing the expression of adhesive receptors for leukocytes and platelets, the production of tissue factor and endothelin, and by increasing the production of the plasminogen activator inhibitor-1. Emerging data support the concept that assessment of endothelial vasomotion may be a useful biomarker for atherosclerotic vascular disease.

T cells and cytokines in atherogenesis.

Recent findings suggest that inflammation plays a key role in atherosclerosis from the earliest stage of lesion initiation, to the ultimate complication of thrombosis. In patients who died because of acute coronary syndromes (ACS), coronary atherosclerotic plaques are characterized by the presence of macrophages, and to a lesser extent T-lymphocytes, at the immediate site of either plaque rupture or superficial erosion. The rupture-related inflammatory cells are activated, indicating ongoing inflammation. ACS patients are also characterized by activated circulating lymphocytes, monocytes and neutrophils, and by increased concentrations of proinflammatory cytokines and of the highly sensitive acute phase reactant C-reactive protein. Interestingly, an unusual subset of T cells, CD4+ CD28null T cells, involved in vascular complication of rheumatoid arthritis because of their functional profile predisposing for vascular injury, are expanded in the peripheral blood and infiltrate the coronary lesions of ACS patients. The presence of activated T lymphocytes implies antigenic stimulation, but the nature of such antigen(s) remains to be investigated. Several autoantigens expressed in the atherosclerotic plaque, including oxidized LDL and heat shock proteins, and infectious agents are able to elicit an immune response. The inflammatory component is not localized to the 'culprit' plaque, but it is diffused to the entire coronary vascular bed, and involves also the myocardium.