Long-term 2D monoculture of primary mouse LSEC preserves scavenging capacity and enables siRNA knockdown of Mrc1
Szafranska, K.; Abujayyab, B.; Struck, E.; Spigseth Hovland, D.; Holte, C. F.; Dumitriu, G.; Sorensen, K. K.; McCourt, P.
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Liver sinusoidal endothelial cells (LSEC) rapidly dedifferentiate in 2D-monoculture, losing their high endocytic activity and characteristic morphology, limiting their use in mechanistic studies. We established and validated culture conditions that preserve LSEC endocytic capacity for at least 10 days, enabling efficient in vitro siRNA-mediated gene silencing. Mouse LSEC were cultured in 5% oxygen, growth media partially exchanged daily and assessed for cell viability, endocytic capacity, morphology and ultrastructure. Despite typical culture-induced defenestration, the cells showed high viability and efficient endocytosis via scavenger-receptors. This allowed for siRNA-mediated mannose receptor knockdown exemplified by 96% and 76% reduction in Mrc1 mRNA and protein expression at 72h (validated by qPCR and Western blot), with functional assays confirming decreased mannose-receptor-mediated endocytosis. Extended maintenance of LSEC viability and functions, previously restricted to complex co-culture systems, provide a practical platform for investigating LSEC-specific molecular mechanisms and hepatic sinusoid physiology.
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