Postnatal triglyceride accumulation is regulated by mineralocorticoid receptor activation under basal and stress conditions.

ABSTRACT

KEY POINTS Glucocorticoids (GCs) either enhance or reduce obesity in mammals, but limited information exists on the role of corticosteroid receptors in mediating the effect of GCs on lipid metabolism during postnatal development. Mineralocorticoid receptor (MR) activation leads to triglyceride (TG) accumulation post-feeding, whereas glucocorticoid receptor (GR) activation reduces TG levels. The TG profile was inversely related to the lipoprotein lipase (lpl) transcript abundance, and this gene was downregulated by MR activation. Cortisol plays an important role in adipogenesis during postnatal development in zebrafish, and this includes gene/pathway-specific signalling by GR, MR and GR/MR interactions. Ubiquitous MR and GR knockout in zebrafish provides an excellent model to study the mode of action of GCs in regulating lipid metabolism. ABSTRACT Glucocorticoids (GCs) act through two receptors, the mineralocorticoid receptor (MR) and the glucocorticoid receptor (GR), which differ in both their affinity to bind GCs and their function. As MR has 10-fold higher affinity for GCs compared to GR, it has been postulated that MR activation occurs at basal levels, while stress levels of these steroid hormones activate GR signalling. There is a growing body of evidence that both these receptors are involved in GC-mediated lipid metabolism. However, the role of GCs in lipogenesis and lipolysis is controversial, as these steroids appear to both enhance and reduce obesity. As lipid synthesis is a critical part of early development, we hypothesized that both MR and GR contribute to lipid regulation by GCs during postnatal growth. Using MR and GR knockout zebrafish, we demonstrate that MR activation, but not GR activation, is involved in triglyceride (TG) accumulation during the larval development post feeding. Lack of MRs did not affect the gene expression of fatty acid synthase (fas), or acyl-CoAdiacylglycerol acyltransferase 2 (dgat2), but increased lipoprotein lipase (lpl) transcript abundance. Activation of GR with exogenous cortisol decreased TG levels and increased lpl mRNA levels, but these responses require the presence of MR. Larval transcriptome revealed that MR was the primary regulator of genes involved in lipid synthesis, while GR activation favoured lipid catabolism. Our results underscore a key role for MR activation in mediating postnatal lipid accumulation, as well as cooperatively regulating GR-mediated lipolysis during postnatal stress.