Recent studies in rodent models suggest that liver X receptors (LXRs) may play an important role in the maintenance of glucose homeostasis and islet function. To date, however, no studies have comprehensively examined the role of LXRs in human islet biology. Human islets were isolated from non-diabetic donors and incubated in the presence or absence of two synthetic LXR agonists, TO-901317 and GW3965, under conditions of low and high glucose. LXR agonist treatment enhanced both basal and stimulated insulin secretion, which corresponded to an increase in the expression of genes involved in anaplerosis and reverse cholesterol transport. Furthermore, enzyme activity of pyruvate carboxylase, a key regulator of pyruvate cycling and anaplerotic flux, was also increased. Whereas LXR agonist treatment up-regulated known downstream targets involved in lipogenesis, we observed no increase in the accumulation of intra-islet triglyceride at the dose of agonist used in our study. Moreover, LXR activation increased expression of the genes encoding hormone-sensitive lipase and adipose triglyceride lipase, two enzymes involved in lipolysis and glycerolipid/free fatty acid cycling. Chronically, insulin gene expression was increased after treatment with TO-901317, and this was accompanied by increased Pdx-1 nuclear protein levels and enhanced Pdx-1 binding to the insulin promoter. In conclusion, our data suggest that LXR agonists have a direct effect on the islet to augment insulin secretion and expression, actions that should be considered either as therapeutic or unintended side effects, as these agents are developed for clinical use.The liver X receptors (LXRs), 2 LXR␣ (NR1H3), and LXR (NR1H2) are members of the nuclear hormone receptor superfamily and function to integrate lipid metabolic and inflammatory signaling (1). Upon binding to oxysterol ligands and heterodimerization with retinoid X receptors, LXRs bind to conserved LXR-responsive elements in target genes to regulate their expression. LXRs augment lipogenesis through transcriptional up-regulation of the genes encoding sterol regulatory binding-protein 1c (SREBP-1c), fatty acid synthase (FAS), and stearoyl-CoA desaturase 1 (SCD). They also function to regulate reverse cholesterol transport through the induction of genes encoding the ATP binding cassette transporters (ABCs) (2, 3). Furthermore, LXRs contribute to the regulation of innate immunity and have anti-inflammatory effects that are mediated through repression of several downstream targets of NF-B (nuclear factor light chain-enhancer of activated B cells) (4, 5).In addition to these well described effects on lipid metabolism and inflammation, LXRs also appear to play a role in the maintenance of glucose homeostasis. Oral administration of synthetic LXR agonists to diabetic rodent models, including obese db/db mice and Zucker fatty rats, results in improved glucose tolerance (6, 7). These effects of LXR agonists appear to arise in part from actions on insulin-sensitive tissues, as LXRs have been shown to enhance...
