Departments of Microbiology and Biochemistry, University of Illinois, Urbana, IL, USA.
Mol Microbiol. 2021 Jun;115(6):1080-1085. doi: 10.1111/mmi.14663. Epub 2020 Dec 19.
Escherichia coli FadR is a transcription factor regulated by acyl-CoA thioester binding that optimizes fatty acid (FA) metabolism in response to environmental FAs. FadR represses the fad genes of FA degradation (β-oxidation) and activates the fab genes of FA synthesis thereby allowing E. coli to have its cake (acyl chains for phospholipid synthesis) and eat it (degrade acyl chains to acetyl-CoA). Acyl-CoA binding of FadR derepresses the transcription of the fad genes and cancels fab gene transcriptional activation. Activation of fab genes was thought restricted to the fabA and fabB genes of unsaturated FA synthesis, but FadR overproduction markedly increases yields of all FA acyl chains. Subsequently, almost all of the remaining fab genes were shown to be transcriptionally activated by FadR binding, but binding was very weak. Why are the low-affinity sites retained? What effects on cell physiology would result from their conversion to high-affinity sites (thereby mimicking FadR overproduction)? Investigations of E. coli cell size determinants showed that FA synthesis primarily determines E. coli cell size. Upon modest induction of FadR, cell size increases, but at the cost of growth rate and accumulation of intracellular membranes. Greater induction resulted in further growth rate decreases and abnormal cells. Hence, too much FadR is bad. FadR is extraordinarily conserved in γ-proteobacteria but has migrated. Mycobacterium tuberculosis encodes FadR orthologs one of which is functional in E. coli. Strikingly, the FadR theme of acyl-CoA-dependent transcriptional regulation is found in a different transcription factor family where two Bacillus species plus bacterial and archaeal thermophiles contain related proteins of similar function.
大肠杆菌 FadR 是一种转录因子,受酰基辅酶 A 硫酯结合调控,可优化脂肪酸(FA)代谢以响应环境 FA。FadR 抑制 FA 降解(β-氧化)的 fad 基因,并激活 FA 合成的 fab 基因,从而使大肠杆菌既有蛋糕(用于磷脂合成的酰基链)又能吃蛋糕(将酰基链降解为乙酰辅酶 A)。FadR 与酰基辅酶 A 的结合使 fad 基因的转录去阻遏,并取消 fab 基因的转录激活。fab 基因的激活被认为仅限于不饱和 FA 合成的 fabA 和 fabB 基因,但 FadR 过表达会显著增加所有 FA 酰基链的产量。随后,几乎所有其余的 fab 基因都被证明可通过 FadR 结合而转录激活,但结合非常弱。为什么保留低亲和力结合位点?如果将其转化为高亲和力结合位点(从而模拟 FadR 过表达),会对细胞生理学产生什么影响?对大肠杆菌细胞大小决定因素的研究表明,FA 合成主要决定大肠杆菌细胞大小。适度诱导 FadR 后,细胞大小增加,但代价是生长速率和细胞内膜的积累。更大的诱导导致进一步的生长速率下降和异常细胞。因此,过多的 FadR 是有害的。FadR 在γ-变形菌中非常保守,但已经发生了迁移。结核分枝杆菌编码 FadR 同源物,其中一个在大肠杆菌中具有功能。引人注目的是,酰基辅酶 A 依赖性转录调节的 FadR 主题存在于不同的转录因子家族中,其中两个芽孢杆菌物种以及细菌和古细菌嗜热菌含有类似功能的相关蛋白。
