Cholestyramine treatment of healthy humans rapidly induces transient hypertriglyceridemia when treatment is initiated

Bile acid (BA) production in mice is regulated by hepatic farnesoid X receptors and by intestinal fibroblast growth factor (FGF)-15 (in humans, FGF-19), a suppressor of BA synthesis that also reduces serum triglycerides and glucose. Cholestyramine treatment reduces FGF-19 and induces BA synthesis, whereas plasma triglycerides may increase from unclear reasons. We explored whether FGF-19 may suppress BA synthesis and plasma triglycerides in humans by modulation of FGF-19 levels through long-term cholestyramine treatment at increasing doses. In a second acute experiment, metabolic responses from 1 day of cholestyramine treatment were monitored. Long-term treatment reduced serum FGF-19 by >90%; BA synthesis increased up to 17-fold, whereas serum BAs, triglycerides, glucose, and insulin were stable. After long-term treatment, serum BAs and FGF-19 displayed rebound increases above baseline levels, and BA and cholesterol syntheses normalized after 1 wk without rebound reductions. Acute cholestyramine treatment decreased FGF-19 by 95% overnight and serum BAs by 60%, while BA synthesis increased fourfold and triglycerides doubled. The results support that FGF-19 represses BA synthesis but not serum triglycerides. However, after cessation of both long-term and 1-day cholestyramine treatment, circulating FGF-19 levels were normalized within 2 days, whereas BA synthesis remained significantly induced in both situations, indicating that also other mechanisms than the FGF-19 pathway ar...
Source: AJP: Endocrinology and Metabolism - Category: Endocrinology Authors: Tags: Research Article Source Type: research