Endoh A, Kristiansen S B, Casson P R, Buster J E, Hornsby P J
Huffington Center on Aging, Baylor College of Medicine, Houston, Texas 77030, USA.
J Clin Endocrinol Metab. 1996 Oct;81(10):3558-65. doi: 10.1210/jcem.81.10.8855801.
Based on indirect evidence, it has often been assumed that the zona reticularis of the adult human adrenal cortex is the source of the adrenal androgens, dehydroepiandrosterone (DHEA) and DHEA sulfate (DHEAS), but direct tests of this concept have been few. Using the techniques of cell culture, Northern blotting, and RIA, we compared the properties of separated adult zonal cells to those of fetal zone cells, a cell type well known to secrete large amounts of DHEA(S) due to its low expression of 3 beta-hydroxysteroid dehydrogenase (3 beta HSD). In nine glands from donors of a wide age range, the zona fasciculata and zona reticularis were separated and dissociated, and the cells were placed in culture. After 5 days, serum was removed by a 24-h period in serum-free defined medium followed by a 24-h exposure to cAMP analogs, with the optional addition of insulin, also in serum-free medium. The separated fasciculata and reticularis cells showed large differences in the DHEA(S)/cortisol (F) production ratios from added pregnenolone precursor, consistent with the synthesis of only F and essentially no DHEA(S) by fasciculata cells and with the synthesis of mostly DHEA(S) with little or no F by both reticularis cells and fetal zone cells. The different patterns of steroidogenesis were accompanied by a much lower level of expression of type II 3 beta HSD in reticularis cells, similar to that in fetal zone cells. In contrast, other genes were similarly regulated in the two adult zones and in the fetal zone by both cAMP and insulin. The levels of messenger ribonucleic acids for 17 alpha-hydroxylase, cholesterol side-chain cleavage enzyme, 21-hydroxylase, and 11 beta-hydroxylase responded to cAMP and insulin in both reticularis cells and fetal zone cells in the same pattern as that previously established in fasciculata cells. The central role of the limited expression of 3 beta HSD in the DHEA(S)-synthesizing property of reticularis cells was established by inhibition of 3 beta HSD in fasciculata cells with trilostane, which caused them to increase their DHEA/F production ratio to a level exceeding even that in fetal zone cells. There did not appear to any age-related changes in gene expression that could account for the large age-related decline in DHEA(S) biosynthesis in humans in either reticularis or fasciculata cells. Thus, the most likely cause of the age-related decline in adrenal androgen biosynthesis is an age-related decline in the number of functional reticularis cells, without a major change in the differentiated properties of the zonal cells as a function of age.
基于间接证据,人们常常认为成年人类肾上腺皮质的网状带是肾上腺雄激素、脱氢表雄酮(DHEA)和硫酸脱氢表雄酮(DHEAS)的来源,但对这一概念的直接测试却很少。我们运用细胞培养、Northern印迹和放射免疫分析技术,将分离出的成年带区细胞的特性与胎儿带区细胞的特性进行了比较,胎儿带区细胞因3β-羟基类固醇脱氢酶(3βHSD)表达水平低而以分泌大量DHEA(S)而闻名。从年龄范围广泛的供体获取的9个腺体中,束状带和网状带被分离并解离,细胞被置于培养中。5天后,在无血清限定培养基中培养24小时以去除血清,随后在无血清培养基中用cAMP类似物处理24小时,可选择性添加胰岛素。分离出的束状带和网状带细胞从添加的孕烯醇酮前体生成DHEA(S)/皮质醇(F)的比率存在很大差异,这与束状带细胞仅合成F且基本不合成DHEA(S)一致,而网状带细胞和胎儿带区细胞则主要合成DHEA(S),很少或不合成F。不同的类固醇生成模式伴随着网状带细胞中II型3βHSD表达水平低得多,类似于胎儿带区细胞。相比之下,其他基因在两个成年带区和胎儿带区受cAMP和胰岛素的调控方式相似。网状带细胞和胎儿带区细胞中17α-羟化酶、胆固醇侧链裂解酶、21-羟化酶和11β-羟化酶的信使核糖核酸水平对cAMP和胰岛素的反应模式与先前在束状带细胞中确定的模式相同。用曲洛司坦抑制束状带细胞中的3βHSD,导致其DHEA/F生成比率增加到甚至超过胎儿带区细胞的水平,从而确立了3βHSD有限表达在网状带细胞DHEA(S)合成特性中的核心作用。在网状带或束状带细胞中,似乎没有任何与年龄相关的基因表达变化能够解释人类中与年龄相关的DHEA(S)生物合成大幅下降。因此,肾上腺雄激素生物合成与年龄相关下降的最可能原因是功能性网状带细胞数量与年龄相关的减少,而带区细胞的分化特性不会随年龄发生重大变化。
