Modulation of 11β-Hydroxysteroid Dehydrogenase as a Strategy to Reduce Vascular Inflammation

Glucocorticoids have adverse systemic effects, including obesity, hypertension, and hyperglycemia, that may predispose to cardiovascular disease. The effect of glucocorticoid use on cardiovascular disease has not been quantified. To test the hypothesis that users of exogenous glucocorticoids have an increased risk for cardiovascular disease. A cohort study using a record linkage database. Tayside, Scotland, United Kingdom. 68,781 glucocorticoid users and 82,202 nonusers without previous hospitalization for cardiovascular disease who were studied between 1993 and 1996. The average daily dose of glucocorticoid exposure during follow-up was categorized as low (inhaled, nasal, and topical only), medium (oral, rectal, or parenteral or =7.5 mg of prednisolone equivalent). Poisson regression model, sensitivity analysis, and propensity score methods were used to investigate the association between glucocorticoid exposure and cardiovascular outcome. 4383 cardiovascular events occurred in 257,487 person-years of follow-up for a rate of 17.0 (95% CI, 16.5 to 17.5) per 1000 person-years in the comparator group, and 5068 events occurred in 212,287 person-years for a rate of 23.9 (CI, 23.2 to 24.5) per 1000 person-years in the group exposed to glucocorticoids (22.1, 27.2, and 76.5 in low, medium, and high groups, respectively). The absolute risk difference was 6.9 (CI, 6.0 to 7.7) per 1000 person-years (5.1, 10.1, and 59.4, respectively). After adjustment for known covariates, the relative risk for a cardiovascular event in patients receiving high-dose glucocorticoids was 2.56 (CI, 2.18 to 2.99). Because the data were observational, residual confounding cannot be excluded. Treatment with high-dose glucocorticoids seemed to be associated with increased risk for cardiovascular disease.

Our increasing appreciation of the importance of inflammation in vascular disease has focused attention on the molecules that direct the migration of leukocytes from the blood stream to the vessel wall. In this review, we summarize roles of the chemokines, a family of small secreted proteins that selectively recruit monocytes, neutrophils, and lymphocytes to sites of vascular injury, inflammation, and developing atherosclerosis. Chemokines induce chemotaxis through the activation of G-protein-coupled receptors, and the receptors that a given leukocyte expresses determines the chemokines to which it will respond. Monocyte chemoattractant protein 1 (MCP-1), acting through its receptor CCR2, appears to play an early and important role in the recruitment of monocytes to atherosclerotic lesions and in the formation of intimal hyperplasia after arterial injury. Acute thrombosis is an often fatal complication of atherosclerotic plaque rupture, and recent evidence suggests that MCP-1 contributes to thrombin generation and thrombus formation by generating tissue factor. Because of their critical roles in monocyte recruitment in vascular and nonvascular diseases, MCP-1 and CCR2 have become important therapeutic targets, and efforts are underway to develop potent and specific antagonists of these and related chemokines.