Williams K J, Petrie K A, Brocia R W, Swenson T L
Department of Physiology and Biochemistry, Medical College of Pennsylvania, Philadelphia 19129.
J Clin Invest. 1991 Oct;88(4):1300-6. doi: 10.1172/JCI115434.
We showed previously that net secretory output of apolipoprotein B (apo B) from cultured human hepatoma cells (HepG2) is regulated by rapid reuptake of nascent lipoproteins before they have diffused away from the vicinity of the cells. We now sought to determine if the nascent lipoproteins could be remodeled to enhance or impede reuptake. We found that lipoprotein lipase (LpL), an enzyme that hydrolyzes lipoprotein triglyceride, reduced HepG2 output of apo B to one-quarter to one-half of control. The reduction was apparent during co-incubations as short as 2 h and as long as 24 h. Heparin, which blocks receptor-mediated binding of lipoproteins, abolished the effect of LpL on apo B output, without causing enzyme inhibition. To assess uptake directly, we prepared labeled nascent lipoproteins. LpL tripled the cellular uptake of labeled nascent lipoproteins, from 15.2% +/- 0.7% to 48.7% +/- 0.3% of the total applied to the cells. Cellular uptake of 125I-labeled anti-LDL receptor IgG was unaffected by LpL; thus, LpL enhanced reuptake by altering lipoproteins, not receptors. Because LpL is present in the space of Disse in the liver, we conclude that LpL may act on newly secreted lipoproteins to enhance reuptake in vivo. LpL deficiency would reduce local reuptake of apo B, which would appear as overproduction, thereby providing a mechanistic link between partial LpL deficiency and familial combined hyperlipidemia.
我们之前表明,培养的人肝癌细胞(HepG2)中载脂蛋白B(apo B)的净分泌输出受新生脂蛋白在从细胞附近扩散开之前的快速再摄取调节。我们现在试图确定新生脂蛋白是否可以重塑以增强或阻碍再摄取。我们发现,脂蛋白脂肪酶(LpL),一种水解脂蛋白甘油三酯的酶,将HepG2中apo B的输出降低至对照的四分之一至二分之一。在短至2小时和长达24小时的共孵育期间,这种降低很明显。肝素可阻断受体介导的脂蛋白结合,消除了LpL对apo B输出的影响,而不会导致酶抑制。为了直接评估摄取,我们制备了标记的新生脂蛋白。LpL使标记的新生脂蛋白的细胞摄取增加了两倍,从施加到细胞上的总量的15.2%±0.7%增加到48.7%±0.3%。125I标记的抗LDL受体IgG的细胞摄取不受LpL影响;因此,LpL通过改变脂蛋白而不是受体来增强再摄取。由于LpL存在于肝脏狄氏间隙中,我们得出结论,LpL可能作用于新分泌的脂蛋白以增强体内再摄取。LpL缺乏会减少apo B的局部再摄取,这将表现为过度产生,从而在部分LpL缺乏和家族性混合性高脂血症之间提供了一种机制联系。