Conclusions
Altogether, SAAR promotes cardiac alterations indicative of physiological rather than pathological remodeling, primarily through FGF21-independent mechanisms.
Methods
Male C57BL/6J wild-type and FGF21 knockout mice were randomized into four dietary regimens, including normal fat and high-fat diets (HFDs) with and without SAAR, over five weeks.
Results
SAAR significantly reduced body weight and visceral adiposity while increasing serum FGF21 levels. In the heart, SAAR-induced molecular metabolic alterations are indicative of enhanced lipid utilization, glucose uptake, and mitochondrial biogenesis. SAAR also elicited opposing effects on the cardiac gene expression of FGF21 and adiponectin. Regarding cellular stress responses, SAAR mitigated the HFD-induced increase in the cardiac expression of genes involved in oxidative stress, inflammation, and apoptosis, while upregulating antioxidative genes. Structurally, SAAR did not induce alterations indicative of cardiac hypertrophy and it counteracted HFD-induced fibrotic gene expression. Overall, most alterations induced by SAAR were FGF21-independent, except for those related to lipid utilization and glucose uptake. Conclusions: Altogether, SAAR promotes cardiac alterations indicative of physiological rather than pathological remodeling, primarily through FGF21-independent mechanisms.