ATP-Binding Cassette Family C member 1 constrains metabolic responses to high-fat diet in male mice

Glucocorticoids modulate glucose homeostasis, acting on metabolically active tissues such as liver, skeletal muscle, and adipose tissue. Intra-cellular regulation of glucocorticoid action in adipose tissue impacts metabolic responses to obesity. ATP-Binding Cassette Family C member 1 (ABCC1) is a transmembrane glucocorticoid transporter known to limit the accumulation of exogenously administered corticosterone in adipose tissue. However, the role of ABCC1 in the regulation of endogenous glucocorticoid action and its impact on fuel metabolism has not been studied. Here, we investigate the impact of Abcc1 deficiency on glucocorticoid action and high fat-diet (HFD)-induced obesity. In lean mice, deficiency of Abcc1 increased endogenous corticosterone levels in skeletal muscle and adipose tissue but did not impact insulin sensitivity. In contrast, Abcc1-deficient mice on HFD displayed impaired glucose and insulin tolerance, and fasting hyperinsulinemia, without alterations in tissue corticosterone levels. Proteomics and bulk RNA sequencing in adipose tissue and skeletal muscle revealed that Abcc1 deficiency amplified the transcriptional response to an obesogenic diet in adipose tissue. Moreover, the Abcc1 deficiency impairs key signalling pathways related to glucose metabolism in both skeletal muscle and adipose tissue, in particular those related to OXPHOS machinery and Glut4. Together, our results highlight a role for ABCC1 in regulating glucose homeostasis, demonstrating diet-dependent effects that are not associated with altered tissue glucocorticoid concentrations.