冷应激对大鼠附睾白色脂肪组织的影响[j]。线粒体的变化

Dragutin Loncˇar, Björn A. Afzelius, Barbara Cannon
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引用次数: 94

摘要

我们已经发现,在大鼠的严重冷应激后,附睾白色脂肪组织(WAT)获得了棕色脂肪组织(BAT)的许多形态学特征(神经支配、血管化、脂肪细胞外观)。在本研究中,我们分析了线粒体的特征。冷应激大鼠附睾脂肪垫线粒体增大,体积为对照组的1.7倍(实验组0.5 μm3,对照组0.3 μm3)。线粒体约占细胞质的60%(对照组为14%),因此接近所有细胞中报道的最高值。在实验脂肪组织(对照组为7 μm2)和细胞质(对照组为1.4 μm2)中,呈直状或微波浪状的嵴完全跨越线粒体宽度,分别占线粒体面积26 μm2/1 μm3和15 μm2/1 μm3。线粒体基质变成电子透明的,可以包含层状螺旋,线粒体表面也可以。这些附睾WAT的线粒体在形态学和形态计量学上与冷暴露啮齿动物BAT中的线粒体相似。在附睾线粒体中,免疫电镜未发现bat特异性解偶联蛋白thermogenin的存在,slot-blot技术也无法检测到thermogenin mRNA。我们得出结论,即使在这些极端的冷应激条件下,WAT也不能采用BAT的产热素依赖性产热。剧烈的线粒体生成只能解释为组织中极高代谢的指示,从而对细胞的能量转换能力施加了前所未有的压力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Epididymal white adipose tissue after cold stress in rats II. Mitochondrial changes

We have previously shown that after severe cold stress of rats the epididymal white adipose tissue (WAT) acquires many of the morphological characteristics (innervation, vascularization, appearance of adipocytes) of brown adipose tissue (BAT). In the present study, the mitochondrial characteristics have been analyzed. Mitochondria from the epididymal fat pad of cold-stressed rats become enlarged and had a volume 1.7 times greater than that in the control group (0.5 μm3 in the experimental versus 0.3 μm3 in the control group). The mitochondria occupied about 60% of the cytoplasm (14% in the control group), thus approaching the highest value reported for any cell. The straight or slightly wavy cristae completely traversed the width of the mitochondria and occupied an area of 26 μm2/1 μm3 of mitochondrion in the experimental adipose tissue (7 μm2 in the control group) and 15 μm2/1 μm3 of cytoplasm (1.4 μm2 in the control). The mitochondrial matrix became electron lucid and could contain lamellar whorls, as could the surface of the mitochondria. These mitochondria of epididymal WAT resembled, both morphologically and morphometrically, mitochondria in the BAT of cold-exposed rodents. In the epididymal mitochondria, immunoelectron microscopy did not reveal the presence of the BAT-specific uncoupling protein thermogenin, nor could the slot-blot technique detect thermogenin mRNA. We conclude that even under these extreme conditions of cold stress, WAT cannot adopt the thermogenin-dependent thermogenesis of BAT. The dramatic mitochondriogenesis can be interpreted only as being indicative of an extremely high metabolism in the tissue, thus placing unprecedented pressure on the energy turnover capacity of the cell.

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