Regulation of retinol-binding protein metabolism in cultured rat liver cell lines

Retinol-binding protein (RBP), the plasma transport protein for vitamin A, is synthesized and secreted by the liver. In vitamin A deficiency, RBP secretion is blocked, leading to low serum and high liver levels of RBP. Administration of retinol to the intact rat stimulates a rapid secretion of RBP from liver into serum. We explored the use of a liver cell culture system to study the regulation of the synthesis and secretion of RBP. We found two lines of differentiated rat hepatoma cells, MH₁C₁ and H₄ II EC₃ (H₄), that synthesized RBP during culture in vitro. The net synthesis of RBP was a function of the number of cells per dish and the duration of incubation. Both cell lines synthesized RBP when incubated in Neuman and Tytell's Serumless Medium (NTS medium), while the MH₁C₁ cells also synthesized RBP in Ham's F-12 medium with added serum. A relatively large proportion (14–56%) of the RBP was retained within the cells when they were incubated in the vitamin A-free NTS medium alone. Addition of serum to NTS medium stimulated the release of RBP from the cells into the medium and also increased the net synthesis of RBP. These effects were not due to the increased adhesion of the cells to the petri dish. Addition of retinol (at levels of 0.35 or 3.5 nmole/ml) to the NTS medium resulted in the stimulation of RBP secretion from the cells into the medium and an increase in the net synthesis of RBP. By contrast, retinol had no effect on either the net synthesis or the cell-to-medium distribution of rat serum albumin. The data from these cell lines in culture suggest that retinol has a specific regulatory effect on RBP metabolism. These cells thus resemble the normal rat liver cell in vivo in regard to the known regulation of RBP metabolism.