Verghese Philip B, Arrese Estela L, Howard Alisha D, Soulages Jose L
Department of Biochemistry and Molecular Biology, Oklahoma State University, 147 Noble Research Center, Stillwater, OK 74078, USA.
Arch Biochem Biophys. 2008 Oct 15;478(2):161-6. doi: 10.1016/j.abb.2008.07.025. Epub 2008 Aug 7.
A possible role of cellular uptake and re-secretion of apoA-I in the mechanism of cholesterol efflux induced by apoA-I was investigated using a novel experimental approach. Incubation of adipocytes with a recombinant human apoA-I containing a consensus PKA phosphorylation site, pka-ApoA-I, leads to the appearance of phosphorylated protein in the cell culture medium unambiguously proving cellular uptake and re-secretion of pka-ApoA-I. Phosphorylation of apoA-I is abolished by PKA inhibitors and enhanced by PKA activators demonstrating the specific involvement of PKA. Studies on the concentration dependence of pka-apoA-I phosphorylation and competition experiments with human apoA-I suggest that apolipoprotein uptake is a receptor mediated process. A possible role of apoA-I recycling in the mechanism of cholesterol efflux was investigated by determining the rates of apoA-I induced cholesterol efflux and apoA-I recycling in the presence and in the absence of Brefeldin A (BFA). The studies showed that BFA strongly inhibits cholesterol efflux without affecting the rate of apoA-I recycling. Since BFA affects vesicular trafficking of ABCA1, this study suggests that the interaction of apoA-I with ABCA1 does not mediate apolipoprotein uptake and re-secretion. This result suggests that lipidation of apoA-I and apolipoprotein uptake/re-secretion are independent processes.
利用一种新的实验方法,研究了载脂蛋白A-I(apoA-I)的细胞摄取和再分泌在apoA-I诱导的胆固醇流出机制中的可能作用。用含有PKA磷酸化共有位点的重组人apoA-I(pka-ApoA-I)孵育脂肪细胞,导致细胞培养基中出现磷酸化蛋白,明确证明了pka-ApoA-I的细胞摄取和再分泌。PKA抑制剂可消除apoA-I的磷酸化,而PKA激活剂可增强其磷酸化,这表明PKA有特异性参与。对pka-apoA-I磷酸化的浓度依赖性研究以及与人apoA-I的竞争实验表明,载脂蛋白摄取是一个受体介导的过程。通过测定在存在和不存在布雷菲德菌素A(BFA)的情况下apoA-I诱导的胆固醇流出速率和apoA-I再循环速率,研究了apoA-I再循环在胆固醇流出机制中的可能作用。研究表明,BFA强烈抑制胆固醇流出,而不影响apoA-I再循环速率。由于BFA影响ABCA1的囊泡运输,该研究表明apoA-I与ABCA1的相互作用不介导载脂蛋白的摄取和再分泌。这一结果表明,apoA-I的脂化和载脂蛋白的摄取/再分泌是独立的过程。