Hoff H F, O'Neil J, Smejkal G B, Yashiro A
Cleveland Clinic Foundation, Research Institute, OH 44195.
Chem Phys Lipids. 1994 Jan;67-68:271-80. doi: 10.1016/0009-3084(94)90147-3.
Although Lp(a) is an independent risk factor for cardiovascular diseases in humans, the precise pathogenetic mechanisms are still unknown. We have shown that Lp(a) accumulates in human atherosclerotic lesions, and some particles undergo oxidation. Since, following agarose electrophoresis of both plaque extracts and plasma, a region close to the origin immunostained intensely for apo(a) but was lipid-free, we sought to identify whether such samples contained lipid-free apo(a), as previously reported to occur in plaque extracts. Immunochemically identifiable apo(a) was found following density-gradient ultracentrifugation both in the 1.05 < d < 1.09 and the d > 1.21 density fraction from both plasma and plaque extracts. However, because in a competitive binding RIA, displacement curves of apo(a) in plasma and the d > 1.21 were not parallel, it is premature to ascribe a relative amount of total apo(a) to this fraction. Whereas apo(a) immunoblots of SDS-PAGE under reducing conditions of the d > 1.21 fraction of a plaque extract with high apo(a) content showed high molecular weight bands consistent with apo(a) isoforms, the corresponding d > 1.21 fraction showed multiple low molecular weight bands characteristic of fragmentation. Since the d > 1.21 of arterial extracts contained all the material immunostaining for apo(a) migrating towards the cathode, characteristic of immunoglobulins (IgG), we asked whether fragments of apo(a) might have associated with human IgG both in plasma and tissue extracts, or whether our anti-apo(a) reacted with epitopes on human IgG. Immunoblotting with our anti-apo(a) of samples of plasma and plaque extracts run on agarose electrophoresis or SDS-PAGE further demonstrated intense staining of multiple bands in the molecular weight range of human IgG. Furthermore, a fraction of plasma and tissue extracts that bound to a protein G affinity column demonstrated immunostaining for apo(a) and was in the size range of IgG. Although one polyclonal anti-apo(a) provided by another laboratory showed the same findings as our antibody, two other polyclonal anti-apo(a) failed to demonstrate immunostaining of human IgG, either on agarose electrophoresis or SDS-PAGE. We speculate that the Lp(a) immunogen used to prepare our anti-apo(a) may have undergone modest oxidation, thus exposing epitopes not normally expressed on apo(a) in native Lp(a). Either antibodies to these epitopes could be recognizing apo(a) fragments, possibly released during oxidation, which are then covalently bound to IgG, or oxidation of apo(a) creates epitopes on apo(a) that are homologous with IgG, thereby leading to cross-reactivity with IgG.(ABSTRACT TRUNCATED AT 400 WORDS)
尽管脂蛋白(a)[Lp(a)]是人类心血管疾病的独立危险因素,但其确切的发病机制仍不清楚。我们已经表明,Lp(a)在人类动脉粥样硬化病变中蓄积,并且一些颗粒会发生氧化。由于在对斑块提取物和血浆进行琼脂糖电泳后,靠近原点的一个区域对载脂蛋白(a)[apo(a)]进行了强烈免疫染色,但无脂质,我们试图确定这些样本中是否含有无脂质的apo(a),正如先前报道在斑块提取物中出现的那样。在来自血浆和斑块提取物的密度梯度超速离心后的1.05<d<1.09和d>1.21密度级分中均发现了免疫化学可识别的apo(a)。然而,由于在竞争性结合放射免疫分析中,血浆中apo(a)和d>1.21级分的置换曲线不平行,因此将总apo(a)的相对量归因于该级分还为时过早。在还原条件下对高apo(a)含量的斑块提取物的d>1.21级分进行十二烷基硫酸钠-聚丙烯酰胺凝胶电泳(SDS-PAGE)的apo(a)免疫印迹显示,高分子量条带与apo(a)异构体一致,而相应的d>1.21级分显示出多个特征性的低分子量条带,提示片段化。由于动脉提取物的d>1.21级分包含所有向阴极迁移的对apo(a)进行免疫染色的物质,这是免疫球蛋白(IgG)的特征,我们询问apo(a)片段是否可能在血浆和组织提取物中与人IgG相关联,或者我们的抗apo(a)是否与人类IgG上的表位发生反应。用我们的抗apo(a)对在琼脂糖电泳或SDS-PAGE上运行的血浆和斑块提取物样本进行免疫印迹,进一步证明了在人类IgG分子量范围内多条带的强烈染色。此外,与蛋白G亲和柱结合的一部分血浆和组织提取物显示出对apo(a)的免疫染色,且大小在IgG范围内。尽管另一个实验室提供的一种多克隆抗apo(a)显示出与我们的抗体相同的结果,但另外两种多克隆抗apo(a)在琼脂糖电泳或SDS-PAGE上均未显示出对人类IgG的免疫染色。我们推测,用于制备我们的抗apo(a)的Lp(a)免疫原可能已经经历了适度氧化,从而暴露出天然Lp(a)中apo(a)通常不表达的表位。针对这些表位的抗体要么可以识别可能在氧化过程中释放的apo(a)片段,这些片段随后与IgG共价结合,要么apo(a)的氧化在apo(a)上产生与IgG同源的表位,从而导致与IgG的交叉反应。(摘要截断于400字)
