The endothelial vesicle system in cryofixed frog mesenteric capillaries analysed by ultrathin serial sectioning.

J Frøkjaer-Jensen
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引用次数: 36

Abstract

Conventional EM sections of chemically fixed capillary endothelial cells reveal numerous apparently free smooth plasmalemmal vesicles. However, the method of ultrathin (less than 150 A) serial sectioning has shown that the smooth vesicle profiles arise merely as a result of the EM thin sectioning of two sets of complex vesicular invaginations from the luminal and abluminal cell surfaces, which end blindly in the cytoplasm. While 50-70% of the total population of vesicular profiles appear to lack connections to the cell surface in conventional (500-700 A thick) EM thin sections less than 1% truly free vesicles can be found by the ultrathin serial section analyses. In the present study it is examined whether similar conclusions apply to endothelial cells which were directly frozen by slam-freezing and subsequently freeze-substituted. The three-dimensional organization of the plasmalemmal vesicular system was analyzed in four series of 19, 18, 13, and 10 ultrathin sections (approximately 110 A thick) of capillaries from frog mesenteries quickly excised from decapitated frogs (Rana pipiens). None of 920 vesicular profiles (diameter 500-1,200 A) which appeared free in individual thin sections of the series represented free vesicles; all profiles either communicated with other vesicles, the cell surface, or in rare cases turned out to be part of cytoplasmic tubular membrane structures. It is concluded that free smooth plasmalemmal vesicles are very rare in rapidly frozen as well as in directly fixed frog capillary endothelium. The volume density of profiles (13-15%), the proportion of apparently free vesicle profiles (70%), and interconnected profiles (20%) were similar to the picture previously found in single EM sections of frog mesenteric capillaries. No transendothelial channels were found in the four series of ultrathin sections of capillaries. However, continuities between the luminal and abluminal cell surfaces were seen in the endothelium of venules. Furthermore, in the ultrathin series of the capillaries, vesicular units belonging to the two sets of invaginations and cytoplasmic tubular membrane structures were in more cases found in very close contact-as fused to share one unit membrane. If this finding is representative for the in vivo situation, it may reflect that the vesicular system represents a highly dynamic system with possibilities for mixing of membranes, cellular traffic of lipid, membrane proteins, and receptors between internal compartments and the cell surfaces, as well as occasional exchange of macromolecules between blood and tissue through rare temporary connections between the two sets of surface invaginations, without actually moving vesicles.

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超薄连续切片分析冷冻青蛙肠系膜毛细血管内皮泡系统。
化学固定毛细血管内皮细胞的常规电镜切片显示许多明显自由光滑的质乳小泡。然而,超薄(小于150 A)连续切片的方法表明,光滑的囊泡轮廓仅仅是由于从腔室和腔室细胞表面对两组复杂的囊泡内陷进行EM薄切片的结果,这些囊泡内陷盲目地终止于细胞质中。在常规(500-700 A厚)EM薄片中,50-70%的囊泡剖面似乎缺乏与细胞表面的连接,而通过超薄连续切片分析,可以发现不到1%的真正自由囊泡。在本研究中,研究了是否类似的结论适用于内皮细胞直接冷冻,然后冷冻替代。从被斩首的蛙(Rana pipiens)上迅速切除的肠系膜上的毛细血管,分别为19、18、13和10个超薄切片(厚度约为110 A),分析了浆层囊泡系统的三维组织。920个囊泡(直径500- 1200 A)在该系列的单个薄片上显示为自由囊泡,其中没有一个是自由囊泡;所有的轮廓要么与其他囊泡、细胞表面相通,要么在极少数情况下成为细胞质管状膜结构的一部分。结论:在快速冷冻和直接固定的青蛙毛细血管内皮中,游离光滑的质乳小泡是非常罕见的。剖面的体积密度(13-15%)、明显自由囊泡剖面的比例(70%)和相互连接的剖面(20%)与之前在青蛙肠系膜毛细血管的单张EM切片上发现的图像相似。四组毛细血管超薄切片均未见跨内皮通道。然而,在小静脉的内皮中可以看到管腔和腔腔细胞表面之间的连续性。此外,在超薄系列的毛细血管中,属于两套内陷和细胞质管状膜结构的囊泡单位在更多的情况下被发现非常紧密地接触-融合在一起共用一个单位膜。如果这一发现对体内情况具有代表性,它可能反映了囊泡系统代表了一个高度动态的系统,具有膜混合的可能性,细胞内隔室和细胞表面之间的脂质、膜蛋白和受体的细胞运输,以及血液和组织之间偶尔的大分子交换,通过两组表面内陷之间罕见的临时连接,而没有实际移动的囊泡。
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Real time computer simulation of transmission electron microscope images with tilted illumination: grain boundary applications. Cryofixation of vascular endothelium. The endothelial vesicle system in cryofixed frog mesenteric capillaries analysed by ultrathin serial sectioning. Lectin and immunolabeling of microvascular endothelia. Quick-freeze, deep-etch studies of endothelial components, with special reference to cytoskeletons and vesicle structures.
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