Wang L, Fast D G, Attie A D
Department of Biochemistry, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.
J Biol Chem. 1997 Oct 31;272(44):27644-51. doi: 10.1074/jbc.272.44.27644.
Secretion of apolipoprotein B (apoB) from mammalian cells requires the presence of functional microsomal triglyceride transfer protein (MTP). We previously reported that co-expressing the human intestinal form of apoB, B48, with both subunits of human MTP in oleate-treated Sf21 cells led to a dramatic induction of B48 secretion. Deletion mutagenesis studies showed that the cysteine-enriched amino terminus of apoB was necessary for the MTP responsiveness (Gretch, D. G., Sturley, S. L., Wang, L., Dunning, A., Grunwald, K. A. A., Wetterau, J. R., Yao, Z., Talmud, P., and Attie, A. D. (1996) J. Biol. Chem. 271, 8682-8691). We therefore hypothesized that the small subunit of MTP, protein-disulfide isomerase (PDI), plays a role in apoB secretion by facilitating correct disulfide bond formation. To determine whether the enzymatic activities of PDI are important for MTP-stimulated apoB secretion, the wild type PDI subunit was replaced with an active site mutant, mPDI (Cys36 --> Ser/Cys380 --> Ser), lacking both disulfide shuffling and redox activities. MTP containing mPDI was fully functional in promoting apoB and triglyceride secretion. Therefore, the shufflase and redox activities of PDI are not necessary for the function of MTP. Since PDI exists in large molar excess over the other subunit of MTP, the role of free PDI (independent of the MTP complex) was investigated. PDI or mPDI was co-expressed with B48 and B17, a fragment encompassing the amino-terminal 17% of apoB. Mutant PDI significantly and specifically reduced the accumulation of the B17 and B48 both intracellularly and in the culture medium. The reduction was partially eliminated by the protease inhibitor N-acetyl-leucyl-leucyl-norleucinal, consistent with rapid co- or post-translational degradation of apoB in the presence of mPDI. Treating the cells with oleate reversed the effect of mPDI on B48 secretion in a dose-dependent manner, but had no effect on B17.
哺乳动物细胞中载脂蛋白B(apoB)的分泌需要功能性微粒体甘油三酯转移蛋白(MTP)的存在。我们之前报道过,在经油酸处理的Sf21细胞中,将人肠道形式的apoB即B48与人MTP的两个亚基共表达,会显著诱导B48的分泌。缺失诱变研究表明,apoB富含半胱氨酸的氨基末端对于MTP反应性是必需的(格雷奇,D.G.,斯特利,S.L.,王,L.,邓宁,A.,格伦瓦尔德,K.A.A.,韦特劳,J.R.,姚,Z.,塔尔穆德,P.,以及阿蒂,A.D.(1996年)《生物化学杂志》271,8682 - 8691)。因此我们推测,MTP的小亚基即蛋白二硫键异构酶(PDI),通过促进正确的二硫键形成在apoB分泌中发挥作用。为了确定PDI的酶活性对于MTP刺激的apoB分泌是否重要,将野生型PDI亚基替换为活性位点突变体mPDI(半胱氨酸36→丝氨酸/半胱氨酸380→丝氨酸),其既缺乏二硫键重排活性也缺乏氧化还原活性。含有mPDI的MTP在促进apoB和甘油三酯分泌方面完全有功能。因此,PDI的重排酶和氧化还原活性对于MTP的功能不是必需的。由于PDI以大大超过MTP另一个亚基的摩尔过量存在,研究了游离PDI(独立于MTP复合物)的作用。将PDI或mPDI与B48以及B17共表达,B17是包含apoB氨基末端17%的片段。突变型PDI显著且特异性地减少了B17和B48在细胞内以及培养基中的积累。蛋白酶抑制剂N - 乙酰 - 亮氨酰 - 亮氨酰 - 正亮氨酸部分消除了这种减少,这与在存在mPDI的情况下apoB的快速共翻译或翻译后降解一致。用油酸处理细胞以剂量依赖的方式逆转了mPDI对B48分泌的影响,但对B17没有影响。
1)PDI在MTP复合物中的作用涉及其已知酶活性以外的功能;2)游离PDI的一种或两种酶活性对于apoB分泌的不依赖MTP的步骤是重要的;3)油酸在高生理浓度下可影响apoB分泌并补偿PDI活性的不足。
