Miller J P
Baillieres Clin Endocrinol Metab. 1990 Dec;4(4):807-32. doi: 10.1016/s0950-351x(05)80080-1.
Hepatic diseases differ from most other causes of secondary dyslipidaemia in that the circulating lipoproteins are not only present in abnormal amounts but they frequently also have abnormal composition, electrophoretic mobility and appearance. Pre-beta and alpha bands can be absent on electrophoresis in all types of liver disease although material in the VLDL and HDL ranges can be isolated in the ultracentrifuge. Cholestatic liver disease has been the most extensively studied and the hyperlipidaemia can be extreme with marked elevations of free cholesterol and phospholipids. This results largely from the presence of LP-X, an abnormal LDL, with a vesicular structure that appears in rouleaux formation under the electron microscope. It is virtually specific for cholestasis and familial LCAT deficiency. The LDL, however, is heterogeneous and may also contain a large triglyceride-rich particle (LP-Y) as well as more normal-looking particles, which are none the less depleted in cholesteryl esters and rich in triglycerides. Indeed, when patients with cholestasis are hypertriglyceridaemic the excess triglyceride is to be found predominantly in these two LDL fractions rather than in VLDL. HDL in cholestasis may contain disc-like particles, similar to those newly secreted by the liver and intestine, as well as more normal-looking spherical particles. In extrahepatic obstruction concentrations of HDL and its major apolipoproteins, apoAI and apoAII, are frequently reduced, although a subfraction rich in apoE is often found. In all but the latest stages of chronic intrahepatic cholestasis due to primary biliary cirrhosis, however, HDL, especially HDL2, concentrations are increased, probably due to the presence of a circulating inhibitor of HL. Many of these lipoprotein changes found in cholestasis resemble those of familial LCAT deficiency, although the hyperlipidaemia is not usually so severe in the latter condition. Indeed, in patients with cholestasis but well-preserved LCAT activity many of the characteristic lipoprotein changes, such as LP-X, LP-Y and discoidal HDL, may not be seen. In acute hepatocellular disease, such as alcoholic or viral hepatitis, it is not unusual for the patient to go through a cholestatic phase and many of the same lipoprotein changes may be seen. In cirrhosis without cholestasis the patients are not usually significantly hyperlipidaemic and in advanced cases cholesterol and apoB levels may be reduced. Although LCAT activity and the proportion of plasma cholesterol esterified may also be markedly reduced, LP-X is not usually seen, possibly because the flux of free cholesterol and phospholipid (lecithin), the LCAT substrates, is relatively low. Discoidal HDLs are often present.(ABSTRACT TRUNCATED AT 400 WORDS)
肝脏疾病与大多数其他继发性血脂异常的病因不同,在于循环中的脂蛋白不仅数量异常,其组成、电泳迁移率及外观也常常异常。各类肝病患者在电泳时前β和α带可能缺失,不过在超速离心机中可分离出极低密度脂蛋白(VLDL)和高密度脂蛋白(HDL)范围内的物质。胆汁淤积性肝病是研究最为广泛的,其高脂血症可能极为严重,游离胆固醇和磷脂显著升高。这主要是因为存在LP-X,一种异常的低密度脂蛋白(LDL),具有囊泡结构,在电子显微镜下呈缗钱状排列。它实际上是胆汁淤积和家族性卵磷脂胆固醇酰基转移酶(LCAT)缺乏的特异性指标。然而,LDL是异质性的,还可能包含一个富含大量甘油三酯的颗粒(LP-Y)以及外观更正常的颗粒,这些颗粒的胆固醇酯减少而甘油三酯丰富。实际上,胆汁淤积患者出现高甘油三酯血症时,过量的甘油三酯主要存在于这两种LDL组分中,而非VLDL。胆汁淤积时的HDL可能包含盘状颗粒,类似于肝脏和肠道新分泌的颗粒,以及外观更正常的球形颗粒。在肝外梗阻时,HDL及其主要载脂蛋白apoAI和apoAII的浓度常常降低,不过常可发现富含apoE的亚组分。然而,在原发性胆汁性肝硬化所致的慢性肝内胆汁淤积的除最新阶段外的所有阶段,HDL尤其是HDL2的浓度升高,这可能是由于存在一种肝脂酶(HL)的循环抑制剂。胆汁淤积中发现的许多脂蛋白变化类似于家族性LCAT缺乏的情况,尽管后者的高脂血症通常没那么严重。实际上,在LCAT活性良好的胆汁淤积患者中,许多特征性的脂蛋白变化,如LP-X、LP-Y和盘状HDL可能看不到。在急性肝细胞疾病,如酒精性或病毒性肝炎中,患者经历胆汁淤积期并不罕见,可能会出现许多相同的脂蛋白变化。在无胆汁淤积的肝硬化患者中,通常不会有明显的高脂血症,在晚期病例中胆固醇和apoB水平可能降低。尽管LCAT活性及血浆胆固醇酯化比例也可能显著降低,但通常看不到LP-X,可能是因为游离胆固醇和磷脂(卵磷脂)这两种LCAT底物的通量相对较低。盘状HDL常常存在。(摘要截选至400字)
