Glucagon resistance impairs amino acid metabolism in individuals with metabolic dysfunction-associated steatotic liver disease (MASLD), but the underlying mechanism remains unclear. Given that glucagon mediates its effects through cyclic adenosine monophosphate (cAMP), impaired cAMP responses have been proposed as the molecular center of glucagon resistance. In this study, we investigated if the glucagon-induced cAMP response is impaired by metabolic dysfunction, thereby contributing to glucagon resistance. Plasma cAMP responses to an intravenous bolus injection of glucagon were analyzed in 64 individuals with or without MASLD and type 1 diabetes (T1D). In parallel, hepatic cAMP secretion during glucagon stimulation was determined using in-situ liver perfusion in lean and diet-induced-obese (DIO) mice with hepatic steatosis. Participants with obesity and MASLD showed higher baseline plasma cAMP, but neither glucagon, insulin, steatosis nor BMI could explain this. Across all groups, glucagon-induced cAMP responses were similar. Similarly, DIO mice displayed preserved hepatic cAMP release in response to glucagon compared to lean controls. These findings suggest that the glucagon-induced cAMP response is maintained in MASLD independently of insulin. Thus, hepatic glucagon resistance in MASLD may be due to non-cAMP-dependent signaling.
Reiche et al. (Mon,) studied this question.
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