June 14, 2021Open Access

Eruptive xanthoma model reveals endothelial cells internalize and metabolize chylomicrons, leading to extravascular triglyceride accumulation

Q: What is the clinical evidence from this study?

Study design: Other. Population: Hyperchylomicronemia and eruptive xanthomas. Intervention: SR-BI knockdown and chylomicron exposure vs. Control ASO / Wild-type. Primary outcome: Endothelial cell lipid droplet accumulation and chylomicron uptake.

Resultado clave

Endothelial cells internalize unhydrolyzed chylomicrons via scavenger receptor-BI (SR-BI) and metabolize them in lysosomes, providing a lipoprotein lipase-independent pathway for extravascular triglyceride accumulation.

PICO estructurado

Does SR-BI mediate LpL-independent endothelial uptake of chylomicrons leading to extravascular triglyceride accumulation?

Población

Experimental study using mouse models and cultured endothelial cells to investigate the mechanisms of chylomicron uptake and lipid droplet accumulation in the absence of lipoprotein lipase.

Intervención

SR-BI knockdown (antisense oligonucleotides), endocytosis inhibitors (dynasore), lysosomal inhibitors (BafA1), and fat gavage or chylomicron exposure.

Comparador

Wild-type/floxed controls, control antisense oligonucleotides, or untreated cells.

Resultado

Endothelial cell chylomicron uptake, lysosomal hydrolysis, and lipid droplet accumulation.surrogate

The study identifies an LpL-independent, SR-BI-mediated pathway for endothelial chylomicron uptake and lysosomal metabolism that drives extravascular lipid accumulation, explaining the formation of eruptive xanthomas in hyperchylomicronemia.

Limitaciones

Findings are primarily based on mouse models and in vitro cell cultures
Colorimetric assays were unable to detect an increase of fatty acids in the media of MECs exposed to a chylomicron pulse

Resumen

Although tissue uptake of fatty acids from chylomicrons is primarily via lipoprotein lipase (LpL) hydrolysis of triglycerides (TGs), studies of patients with genetic LpL deficiency suggest additional pathways deliver dietary lipids to tissues. Despite an intact endothelial cell (EC) barrier, hyperchylomicronemic patients accumulate chylomicron-derived lipids within skin macrophages, leading to the clinical finding eruptive xanthomas. We explored whether an LpL-independent pathway exists for transfer of circulating lipids across the EC barrier. We found that LpL-deficient mice had a marked increase in aortic EC lipid droplets before and after a fat gavage. Cultured ECs internalized chylomicrons, which were hydrolyzed within lysosomes. The products of this hydrolysis fueled lipid droplet biogenesis in ECs and triggered lipid accumulation in cocultured macrophages. EC chylomicron uptake was inhibited by competition with HDL and knockdown of the scavenger receptor-BI (SR-BI). In vivo, SR-BI knockdown reduced TG accumulation in aortic ECs and skin macrophages of LpL-deficient mice. Thus, ECs internalize chylomicrons, metabolize them in lysosomes, and either store or release their lipids. This latter process may allow accumulation of TGs within skin macrophages and illustrates a pathway that might be responsible for creation of eruptive xanthomas.

Me gusta

Guardar

Ver artículo completo

Cite This Study

Cabodevilla et al. (Mon,) conducted a other in Hyperchylomicronemia and eruptive xanthomas. SR-BI knockdown and chylomicron exposure vs. Control ASO / Wild-type was evaluated on Endothelial cell lipid droplet accumulation and chylomicron uptake. Endothelial cells internalize unhydrolyzed chylomicrons via scavenger receptor-BI (SR-BI) and metabolize them in lysosomes, providing a lipoprotein lipase-independent pathway for extravascular triglyceride accumulation.

synapsesocial.com/papers/6a2decd015e9f7b61dd54e84 https://doi.org/https://doi.org/10.1172/jci145800

Also Consider

Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context:

Me gusta

Guardar

Ver artículo completo