Abstract
Hepatic very low-density lipoprotein (VLDL) is essential for maintaining lipid metabolism in the liver. Sphingosine kinases (SphKs) are essential rate-limiting enzymes that catalyze sphingosine phosphorylation to Sphingosine-1-phosphate (S1P). SphKs exist as two isoforms, SphK1 and SphK2, both highly expressed in the liver. SphK1 plays a critical role in regulating hepatic inflammation and drug metabolism. This study aimed to determine whether SphK2 regulates hepatic lipid metabolism, particularly VLDL secretion. Immunohistochemical staining revealed decreased SphK2 protein levels within regions proximal to hepatic lipid accumulation in individuals diagnosed with metabolic dysfunction-associated steatotic liver disease (MASLD). Sphk2(-/-) mice exhibited spontaneous hepatocyte lipid accumulation and reduced VLDL secretion. Proteomic analysis revealed that SphK2 deficiency impaired soluble N-ethylmaleimide-sensitive fusion attachment protein receptor (SNARE) complex interactions involved in vesicular transport and organelle membrane fusion. Furthermore, SphK2 deficiency results in accelerated degradation of the SEC22B, STX5A, and GS28 proteins via chaperone-mediated autophagy (CMA), impeding VLDL transport to the Golgi apparatus. MYH1485, a specific activator of mTOR, induces mTORC2 phosphorylation, thereby inhibiting the degradation of SNARE complexes by CMA and counteracting the lipid accumulation induced by SphK2 deficiency. Exogenous S1P supplementation markedly reversed the reduction in mTORC2 phosphorylation and suppressed CMA, thereby improving VLDL secretion. Our study elucidates an inventive regulatory mechanism by which SphK2 modulates CMA by activating mTORC2 phosphorylation, promoting VLDL secretion, and balancing lipid metabolism in the liver. These findings provide insights into SphK2 function and the underlying mechanisms involved in the regulation of VLDL secretion, which may facilitate MASLD treatment. Proposed model for the role of SphK2 in hepatic VLDL secretion. In hepatocytes, the inhibition of SphK2 activity decreased S1P production, which subsequently downregulates the mTORC2 pathway. This process accelerates the degradation of the SNARE complex components STX5A, GS28, and SEC22B via CMA, which regulates the mutual recognition between VTVs and the Golgi apparatus, ultimately reducing VLDL secretion in hepatocytes.