Katz S S, Small D M, Brook J G, Lees R S
J Clin Invest. 1977 Jun;59(6):1045-54. doi: 10.1172/JCI108727.
The physical states and phase behavior of the lipids of the spleen, liver, and splenic artery from a 38-yr-old man with Tangier disease were studied. Many intracellular lipid droplets in the smectic liquid crystalline state were identified by polarizing microscopy in macrophages in both the spleen and liver, but not in the splenic artery. The droplets within individual cells melted sharply over a narrow temperature range, indicating a uniform lipid composition of the droplets of each cell. However different cells melted over a wide range, 20-53 degrees C indicating heterogeneity of lipid droplet composition between cells. Furthermore, most of the cells (81%) had droplets in the liquid crystalline state at 37 degrees C. X-ray diffraction studies of splenic tissue at 37 degrees C revealed a diffraction pattern typical of cholesterol esters in the smectic liquid crystalline state. Differential scanning calorimetry of spleen showed a broad reversible transition from 29-52 degrees C, with a maximum mean transition temperature at 42 degrees C, correlating closely with the polarizing microscopy observations. The enthalpy of the transition, 0.86+/-0.07 cal/g of cholesterol ester, was quantitatively similar to that of the liquid crystalline to liquid transition of pure cholesterol esters indicating that nearly all of the cholesterol esters in the tissue were free to undergo the smectic-isotropic phase transition. Lipid compositions of spleen and liver were determined, and when plotted on the cholesterol-phospholipid-cholesterol ester phase diagram, fell within the two phase zone. The two phases, cholesterol ester droplets and phospholipid bilayers were isolated by ultracentrifugation of tissue homogenates. Lipid compositions of the separated phases approximated those predicted by the phase diagram. Extracted lipids from the spleen, when dispersed in water and ultracentrifuged, underwent phase separation in a similar way. Thus (a) most of the storage lipids in the liver and spleen of this patient were in the liquid crystalline state at body temperature, (b) the phase behavior of the storage lipids conformed to that predicted by lipid model systems indicating lipid-lipid interactions predominate in affected cells, (c) lipid droplets within individual cells have similar compositions, whereas droplet composition varies from cell to cell, and (d) cholesterol ester does not accumulate in the splenic artery. Since Tangier patients lack high density lipoprotein, we conclude that high density lipoprotein-mediated cholesterol removal from cells is essential only for those cells which have an obligate intake of cholesterol (macrophages).
对一名患有丹吉尔病的38岁男性的脾脏、肝脏和脾动脉的脂质物理状态和相行为进行了研究。通过偏光显微镜在脾脏和肝脏的巨噬细胞中鉴定出许多近晶态液晶状态的细胞内脂质滴,但在脾动脉中未发现。单个细胞内的脂质滴在狭窄的温度范围内急剧熔化,表明每个细胞的脂质滴具有均匀的脂质组成。然而,不同的细胞在20-53摄氏度的宽范围内熔化,表明细胞间脂质滴组成存在异质性。此外,大多数细胞(81%)在37摄氏度时具有液晶态的脂质滴。对37摄氏度的脾脏组织进行X射线衍射研究,发现了近晶态液晶状态下胆固醇酯的典型衍射图谱。脾脏的差示扫描量热法显示在29-52摄氏度之间有一个宽的可逆转变,最大平均转变温度为42摄氏度,与偏光显微镜观察结果密切相关。转变的焓为0.86±0.07卡/克胆固醇酯,在数量上与纯胆固醇酯从液晶态到液态转变的焓相似,表明组织中几乎所有的胆固醇酯都可自由进行近晶态-各向同性相转变。测定了脾脏和肝脏的脂质组成,并绘制在胆固醇-磷脂-胆固醇酯相图上,落在两相区内。通过组织匀浆超速离心分离出胆固醇酯滴和磷脂双层这两相。分离相的脂质组成接近相图预测的组成。从脾脏中提取的脂质,分散在水中并超速离心后,以类似的方式发生相分离。因此,(a)该患者肝脏和脾脏中的大多数储存脂质在体温下处于液晶态,(b)储存脂质的相行为符合脂质模型系统预测的行为,表明脂质-脂质相互作用在受影响的细胞中占主导地位,(c)单个细胞内的脂质滴具有相似的组成,而不同细胞间脂质滴组成不同,(d)胆固醇酯不积聚在脾动脉中。由于丹吉尔病患者缺乏高密度脂蛋白,我们得出结论,高密度脂蛋白介导的细胞胆固醇清除仅对那些必须摄取胆固醇的细胞(巨噬细胞)至关重要。
