Runge D, Schmidt H, Christ B, Jungermann K
Institut für Biochemie, Fachbereich Medizin, Georg-August-Universität Göttingen, Federal Republic of Germany.
Eur J Biochem. 1991 Jun 15;198(3):641-9. doi: 10.1111/j.1432-1033.1991.tb16062.x.
Rat hepatocytes were cultured for 24 h in the presence or absence of 100 nM dexamethasone (DX). After a medium change, phosphoenolpyruvate carboxykinase (PCK) was induced by addition of glucagon at different concentrations, from physiological 0.1 nM to hyperphysiological 10 nM, again in the presence or absence of 100 nM dexamethasone. 1. With dexamethasone addition during the culture and induction phase (DX+/+), 10 nM glucagon increased PCK mRNA abundance (Northern blot analysis) and activity (in vitro translation) synchronously to the same extent with maxima after 2 h and PCK enzyme activity after a time lag with a maximum after 6 h. The total detectable PCK mRNA amount was apparently also translationally active. 10 microM N6,2'-O-dibutyryladenosine 3',5'-(cyclic)phosphate (Bt2cAMP) as the second messenger had essentially the same effect as 10 nM glucagon. 2. In the absence of dexamethasone during the preculture and the induction phase (DX-/-), 10 nM glucagon and 10 microM Bt2cAMP could enhance PCK mRNA only about half-maximally. Glucagon or dexamethasone added alone in physiological concentrations of 0.1 nM and 100 nM, respectively, were unable to increase PCK mRNA. However, treatment of the cells with dexamethasone also enabled 0.1 nM glucagon to enhance PCK mRNA to a maximum after 2 h, independent of the presence of dexamethasone during the induction period (DX+/+ and DX+/- cells). Thus, dexamethasone was a permissive agent in that it shifted the sensitivity of the cells towards glucagon into the physiological concentration range. 3. In the presence of dexamethasone during the culture and induction phase (DX+/+) 0.1 nM glucagon maximally enhanced the transcription of the PCK gene (nuclear run on) fourfold after 30 min; in the absence of dexamethasone during both phases (DX-/-) glucagon was without any effect. The overall transcriptional rate was not significantly different in cells with and without dexamethasone during the culture and induction phase (DX+/+ vs. DX-/-). Thus, dexamethasone acted permissively mainly on the transcription of the PCK gene. 4. With culture in the presence of dexamethasone over decreasing periods of time, 1 nM glucagon could induce submaximal PCK mRNA amounts already after 1-3 h steroid culture. This restitution by dexamethasone of the PCK mRNA inducibility by glucagon was inhibited by cycloheximide. This suggested that ongoing protein synthesis was required for the permissive action of dexamethasone on the expression of the PCK gene. The results allow the following conclusions.(ABSTRACT TRUNCATED AT 400 WORDS)
大鼠肝细胞在存在或不存在100 nM地塞米松(DX)的情况下培养24小时。更换培养基后,通过添加不同浓度的胰高血糖素诱导磷酸烯醇丙酮酸羧激酶(PCK),浓度范围从生理浓度0.1 nM到超生理浓度10 nM,同样是在存在或不存在100 nM地塞米松的情况下。1. 在培养和诱导阶段添加地塞米松(DX+/+)时,10 nM胰高血糖素使PCK mRNA丰度(Northern印迹分析)和活性(体外翻译)同步增加到相同程度,2小时后达到最大值,PCK酶活性在滞后一段时间后于6小时达到最大值。可检测到的PCK mRNA总量显然也具有翻译活性。10 μM N6,2'-O-二丁酰腺苷3',5'-(环)磷酸酯(Bt2cAMP)作为第二信使与10 nM胰高血糖素具有基本相同的作用。2. 在预培养和诱导阶段不存在地塞米松(DX-/-)时,10 nM胰高血糖素和10 μM Bt2cAMP仅能将PCK mRNA增强至约最大程度的一半。分别以0.1 nM和100 nM的生理浓度单独添加胰高血糖素或地塞米松,均无法增加PCK mRNA。然而,用地塞米松处理细胞也能使0.1 nM胰高血糖素在2小时后将PCK mRNA增强至最大值,与诱导期是否存在地塞米松无关(DX+/+和DX+/-细胞)。因此,地塞米松是一种允许性因子,因为它将细胞对胰高血糖素的敏感性转移到了生理浓度范围内。3. 在培养和诱导阶段存在地塞米松(DX+/+)时,0.1 nM胰高血糖素在30分钟后使PCK基因的转录(核转录)最大增强四倍;在两个阶段均不存在地塞米松(DX-/-)时,胰高血糖素无任何作用。在培养和诱导阶段存在或不存在地塞米松的细胞中,总体转录速率没有显著差异(DX+/+与DX-/-)。因此,地塞米松主要对PCK基因的转录起允许性作用。4. 在存在地塞米松的情况下培养不同时间,1 nM胰高血糖素在类固醇培养1 - 3小时后就能诱导出次最大量的PCK mRNA。地塞米松对胰高血糖素诱导PCK mRNA能力的这种恢复作用被环己酰亚胺抑制。这表明持续的蛋白质合成是地塞米松对PCK基因表达起允许性作用所必需的。结果得出以下结论。(摘要截断于400字)
