Department of Biological Sciences, University of Alberta, Edmonton, Alberta T6G 2E9, Canada.
Mol Cell Biol. 2010 Feb;30(3):793-805. doi: 10.1128/MCB.01327-09. Epub 2009 Nov 23.
All eukaryotic cells have to maintain cholesterol concentrations within defined margins in order to function normally. Perturbing cholesterol homeostasis can result in a wide range of cellular and systemic defects, including cardiovascular diseases, as well as Niemann-Pick and Tangier diseases. Here, we show that DHR96 is indispensable for mediating the transcriptional response to dietary cholesterol and that it acts as a key regulator of the Niemann-Pick type C gene family, as well as of other genes involved in cholesterol uptake, metabolism, and transport. DHR96 mutants are viable and phenotypically normal on a standard medium but fail to survive on diets that are low in cholesterol. DHR96 mutants have aberrant cholesterol levels, demonstrating a defect in maintaining cholesterol homeostasis. Remarkably, we found that a high-cholesterol diet phenocopied the genomic profile of the DHR96 mutation, indicating that DHR96 resides at the top of a genetic hierarchy controlling cholesterol homeostasis in insects. We propose a model whereby DHR96 is activated when cellular cholesterol concentrations drop below a critical threshold in order to protect cells from severe cholesterol deprivation.
所有真核细胞都必须将胆固醇浓度维持在一定的范围内,以保证正常运作。胆固醇稳态的破坏会导致广泛的细胞和全身缺陷,包括心血管疾病,以及尼曼-皮克病和 Tangier 病。在这里,我们表明 DHR96 对于介导对饮食胆固醇的转录反应是必不可少的,并且它作为 Niemann-Pick 型 C 基因家族以及其他参与胆固醇摄取、代谢和运输的基因的关键调节剂。DHR96 突变体在标准培养基上是可行的,表型正常,但在低胆固醇饮食中无法存活。DHR96 突变体的胆固醇水平异常,表明其维持胆固醇稳态的能力存在缺陷。值得注意的是,我们发现高胆固醇饮食模拟了 DHR96 突变的基因组特征,表明 DHR96 位于控制昆虫胆固醇稳态的遗传层次结构的顶端。我们提出了一个模型,即当细胞内胆固醇浓度下降到临界阈值以下时,DHR96 会被激活,以保护细胞免受严重的胆固醇剥夺。