An l-2-hydroxyglutarate biosensor based on specific transcriptional regulator LhgR
Zhaoqi Kang, Manman Zhang, Kaiyu Gao, Wen Zhang, Wensi Meng, Yidong Liu, Dan Xiao, Shiting Guo, Cuiqing Ma, Chao Gao, Ping Xu
Abstract
L-2-Hydroxyglutarate (L-2-HG) plays important roles in diverse physiological processes, such as carbon starvation response, tumorigenesis, and hypoxic adaptation. Despite its importance and intensively studied metabolism, regulation of L-2-HG metabolism remains poorly understood and none of regulator specifically responded to L-2-HG has been identified. Based on bacterial genomic neighborhood analysis of the gene encoding L-2-HG oxidase (LhgO), LhgR, which represses the transcription of lhgO in Pseudomonas putida W619, is identified in this study. LhgR is demonstrated to recognize L-2-HG as its specific effector molecule, and this allosteric transcription factor is then used as a biorecognition element to construct an L-2-HG-sensing FRET sensor. The L-2-HG sensor is able to conveniently monitor the concentrations of L-2-HG in various biological samples. In addition to bacterial L-2-HG generation during carbon starvation, biological function of the L-2-HG dehydrogenase and hypoxia induced L-2-HG accumulation are also revealed by using the L-2-HG sensor in human cells.