Vilas Gonzalo L, Berthiaume Luc G
Department of Cell Biology, Faculty of Medicine and Dentistry, University of Alberta, 555 Medical Science Building, Edmonton, Alberta, Canada T6G 2H7.
Biochem J. 2004 Jan 1;377(Pt 1):121-30. doi: 10.1042/BJ20030951.
ApoB (apolipoprotein B)-containing lipoprotein particles, such as chylomicrons, very-low-density and low-density lipoprotein particles, transport triacylglycerol and cholesteryl esters in the bloodstream. A palmitoylation site was previously mapped to Cys-1085 in a functional truncated apoB variant (apoB-29) and abolished by mutagenesis. This Cys-1085Ser mutation resulted in secretion of smaller and denser lipoprotein particles containing 80% less cholesteryl ester and triacylglycerol than wild-type controls. We show that palmitoylation of apoB-29 occurs in the ER (endoplasmic reticulum), stimulates the ER-Golgi transport rate of apoB-29 almost 2-fold, doubles the secretion efficiency of wild-type apoB-29 in comparison with (Cys-1085Ser)apoB-29 and reduces significantly the association of wild-type apoB-29 with calnexin in comparison with (Cys-1085Ser)apoB-29. While non-palmitoylated apoB-29 co-localized extensively with constitutively secreted transferrin, wild-type apoB-29 did so only partially and was enriched in ER extensions. Our results suggest that palmitoylation of apoB regulates the biogenesis of nascent apoB-containing lipoprotein particles by concentrating apoB in a specialized ER compartment and by stimulating dissociation from constituents of the ER quality-control machinery. This reduced interaction would lead to a faster ER-Golgi transit time and a higher secretion efficiency of wild-type apoB-29. Palmitoylation could regulate the amount of apoB available for secretion of neutral lipids.
含载脂蛋白B(ApoB)的脂蛋白颗粒,如乳糜微粒、极低密度脂蛋白和低密度脂蛋白颗粒,在血液中运输三酰甘油和胆固醇酯。先前已将一个棕榈酰化位点定位到功能性截短的ApoB变体(ApoB-29)中的半胱氨酸-1085,并且通过诱变将其消除。这种半胱氨酸-1085丝氨酸突变导致分泌的脂蛋白颗粒更小、密度更高,其胆固醇酯和三酰甘油含量比野生型对照少80%。我们发现ApoB-29的棕榈酰化发生在内质网(ER)中,将ApoB-29的ER-高尔基体运输速率提高了近2倍,与(半胱氨酸-1085丝氨酸)ApoB-29相比,野生型ApoB-29的分泌效率提高了一倍,并且与(半胱氨酸-1085丝氨酸)ApoB-29相比,野生型ApoB-29与钙连蛋白的结合显著减少。虽然未棕榈酰化的ApoB-29与组成型分泌的转铁蛋白广泛共定位,但野生型ApoB-29只是部分共定位,并且在ER延伸部分富集。我们的结果表明,ApoB的棕榈酰化通过将ApoB集中在一个特殊的ER区室中,并通过刺激其与ER质量控制机制成分的解离,来调节新生含ApoB脂蛋白颗粒的生物合成。这种减少的相互作用将导致更快的ER-高尔基体转运时间和野生型ApoB-29更高的分泌效率。棕榈酰化可以调节可用于中性脂质分泌的ApoB的量。