Marten N W, Sladek F M, Straus D S
Biology Department, University of California, Riverside 92521-0121, USA.
Biochem J. 1996 Jul 15;317 ( Pt 2)(Pt 2):361-70. doi: 10.1042/bj3170361.
The transcription of several genes that are preferentially expressed in the liver, including the serum albumin, transthyretin and carbamyl phosphate synthetase-I genes, is specifically decreased in animals consuming inadequate amounts of dietary protein. The high level of transcription of these genes in the liver is directed in part by a number of liver-enriched transcription factors, including hepatocyte nuclear factors (HNF)-1, -3, and -4, and proteins of the CCAAT/enhancer-binding protein (C/EBP) family. In the present study, we investigated the possibility that the co-ordinate decrease in transcription of the nutritionally sensitive genes in protein-deprived rats results from altered activity of one or more of the liver-enriched transcription factors. For HNF-4, Western blots indicated no change in the level of nuclear HNF-4 protein in liver of protein-deprived animals, whereas we observed a 40% reduction in the DNA binding activity of HNF-4 as measured by electrophoretic mobility shift assay (EMSA). Furthermore, the binding affinity of HNF-4 for DNA was unaltered by dietary protein deprivation, while the number of HNF-4 molecules able to bind to DNA (Bmax) was reduced, as determined by Scatchard analysis. This indicates that in the protein-restricted rats a portion of the pool of HNF-4 protein is inactivated or otherwise prevented from binding to DNA. The overall DNA binding activity of C/EBP alpha and beta was increased in protein-restricted animals. This change occurred in the absence of a change in the amount of the full-length forms of these two proteins, quantified by Western blotting. Interestingly, dietary protein restriction specifically increased the level of a truncated form of C/EBP beta (liver-enriched transcriptional inhibitory protein, LIP), which is a protein dominant negative inhibitor of C/EBP function. Analysis of HNF-3 DNA-binding activity by EMSA revealed that HNF-3 alpha and beta DNA binding was increased and that HNF-3 gamma DNA-binding activity was unchanged in protein-restricted animals. We also detected two apparently novel shift complexes with the HNF-3 probe by EMSA, both of which were decreased in protein-restricted animals. HNF-1 DNA-binding activity was increased by dietary protein restriction. We also examined the effect of protein restriction on the DNA-binding activity of two ubiquitous transcription factors, NF1 and Sp1. The DNA binding activity of the major NF1 isoforms was unchanged whereas the binding activity of Sp1 was increased in the protein-restricted animals. In summary, restriction of dietary protein resulted in a number of specific changes in the DNA-binding activity of various transcription factors. Because transcriptional activation typically involves the synergistic action of more than one transcription factor, small changes in the amount/activity of several factors, could have a strong net effect on the transcription of many genes.
几种在肝脏中优先表达的基因,包括血清白蛋白、转甲状腺素蛋白和氨甲酰磷酸合成酶 -I 基因,在摄入膳食蛋白质不足的动物中其转录会特异性降低。这些基因在肝脏中的高水平转录部分是由多种肝脏富集转录因子指导的,包括肝细胞核因子(HNF)-1、-3 和 -4,以及CCAAT/增强子结合蛋白(C/EBP)家族的蛋白质。在本研究中,我们调查了蛋白质缺乏大鼠中营养敏感基因转录协同降低是否源于一种或多种肝脏富集转录因子活性改变的可能性。对于 HNF-4,蛋白质印迹法表明蛋白质缺乏动物肝脏中核 HNF-4 蛋白水平没有变化,而通过电泳迁移率变动分析(EMSA)测定,我们观察到 HNF-4 的 DNA 结合活性降低了 40%。此外,膳食蛋白质缺乏并未改变 HNF-4 对 DNA 的结合亲和力,而通过 Scatchard 分析确定,能够结合 DNA 的 HNF-4 分子数量(Bmax)减少了。这表明在蛋白质限制的大鼠中,一部分 HNF-4 蛋白池被灭活或以其他方式阻止与 DNA 结合。在蛋白质限制的动物中,C/EBPα和β的总体 DNA 结合活性增加。这种变化发生在通过蛋白质印迹法定量的这两种蛋白质全长形式的量没有变化的情况下。有趣的是,膳食蛋白质限制特异性地增加了一种截短形式的 C/EBPβ(肝脏富集转录抑制蛋白,LIP)的水平,LIP 是 C/EBP 功能的显性负性抑制剂。通过 EMSA 分析 HNF-3 的 DNA 结合活性发现,在蛋白质限制的动物中,HNF-3α和β的 DNA 结合增加,而 HNF-3γ的 DNA 结合活性不变。我们还通过 EMSA 检测到与 HNF-3 探针形成的两种明显新的迁移复合物,在蛋白质限制的动物中这两种复合物都减少了。膳食蛋白质限制使 HNF-1 的 DNA 结合活性增加。我们还研究了蛋白质限制对两种普遍存在的转录因子 NF1 和 Sp1 的 DNA 结合活性的影响。主要 NF1 同工型的 DNA 结合活性没有变化,而在蛋白质限制的动物中 Sp1 的结合活性增加。总之,膳食蛋白质限制导致多种转录因子的 DNA 结合活性发生一些特异性变化。由于转录激活通常涉及不止一种转录因子的协同作用,几种因子的量/活性的微小变化可能对许多基因的转录产生强烈的净效应。
