Project description:The metabolite L-2-hydroxyglutarate (L2HG) regulates liver tumor development through both anti- and pro-ferroptotic mechanisms, mediated via the Nrf2/Slc7a11 and Atf4/Chac1 signaling axes. To investigate the essential role of Nrf2 in L2HG-driven ferroptosis regulation, we analyzed gene expression profiles in liver tumors from Tsc1f/f wild-type, Tsc1f/fAlbCre+, and Tsc1f/fAlbCre+/Nrf2-/- mice. We found that the ferroptosis-related transcriptome in Tsc1f/fAlbCre+/Nrf2-/- mice more closely resembled that of tumor-free Tsc1f/f wild-type mice than the tumor-bearing Tsc1f/fAlbCre+ cohort. These findings demonstrate that Nrf2 ablation disrupts L2HG-induced cystine uptake via the xCT antiporter system, rewires metabolic pathways, and restores ferroptotic sensitivity. This metabolic reprogramming effectively suppresses liver tumor development in vivo, underscoring the critical oncogenic interplay between L2HG metabolism and Nrf2-mediated ferroptosis resistance.

Project description:SCD had hemolysis with elevated levels of heme and iron, which induced ferroptosis. Here, we found Nrf2 knockout in SCD mice accumulated the levels of the metabolite L-2-hydroxyglutarate (L2HG), which impaired ferroptosis stress response to exacerbate SCD symptom. Mechanistically, L2HG was found to regulate the expression of genes involved in the iron and heme metabolism via histone epigenetic hypermethylation. Our findings indicate an important role of Nrf2/L2HG in SCD for ferroptosis response.

Project description:SCD had hemolysis with elevated levels of heme and iron, which induced ferroptosis. Here, we found Nrf2 knockout in SCD mice accumulated the levels of the metabolite L-2-hydroxyglutarate (L2HG), which impaired ferroptosis stress response to exacerbate SCD symptom. Mechanistically, L2HG was found to regulate the expression of genes involved in the iron and heme metabolism via histone epigenetic hypermethylation. Our findings indicate an important role of Nrf2/L2HG in SCD for ferroptosis response.

Project description:SCD had hemolysis with elevated levels of heme and iron, which induced ferroptosis. Here, we found Nrf2 knockout in SCD mice accumulated the levels of the metabolite L-2-hydroxyglutarate (L2HG), which impaired ferroptosis stress response to exacerbate SCD symptom. Mechanistically, L2HG was found to regulate the expression of genes involved in the iron and heme metabolism via histone epigenetic hypermethylation. Our findings indicate an important role of Nrf2/L2HG in SCD for ferroptosis response.

Project description:L-2-hydroxyglutarate modulates ferroptosis through Nrf2/Slc7a11 and Atf4/Chac1 axes in hepatocellular carcinoma

Project description:Renal cancer cells with basal eleavtion of L-2-hydroxyglutarate were transduced with control vector or cDNA encoding L2HGDH

Project description:We found that testis of male mice contain high concentrations of L2-hydroxyglutarate (L2HG) specifically in germ cells at pachytene/ diplotene (PD) stage of spermatogenesis. In order to elucidate the function of 2HG we decreased its level by incubating PD cells with 24 mM oxamate and to rescue the putative phenotype by incubation with 24 mM oxamate together with 0.3 mM cell permeable L2HG.

Project description:Nrf2-regulated L-2-hydroxyglutarate sensitizes erythroid cells to ferroptosis in sickle cell disease

Project description:Nrf2-regulated L-2-hydroxyglutarate sensitizes erythroid cells to ferroptosis in sickle cell disease [ChIP]

Project description:Although clear cell renal cell carcinoma (ccRCC) has been shown to result in widespread aberrant cytosine methylation and loss of 5-hydroxymethylcytosine (5hmC), the prognostic impact and therapeutic targeting of tis epigenetic aberrancy has not been fully explored. Analysis of 576 primary ccRCC samples demonstrated that loss of 5hmC was significantly associated with aggressive clinicopathologic features and was an independent adverse prognostic factor. Loss of 5hmC alsopredicted reduced progression-free survival after resection of nonmetastatic disease. The loss of 5hmC in ccRCC was not due to mutational or transcriptional inactivation of ten eleven translocation (TET) (4. AUTHOR: TET also appears as Tet. If these mean the same thing, choose one style to use throughout.) enzymes, but to their functional inactivation by l -2-hydroxyglutarate (L2HG), which was overexpressed due to the deletion and underexpression of L2HG dehydrogenase(L2HGDH). Ascorbic acid (AA) reduced methylation and restored genome-wide 5hmC levels via TET activation. Fluorescence quenching of the recombinant TET-2 protein was unaffected by L2HG in the presence of AA. Pharmacologic AA treatment led to reduced growth of ccRCC in vitro and reduced tumor growth in vivo, with increased intratumoral 5hmC. These data demonstrate that reduced 5hmC is associated with reduced survival in ccRCC and provide a preclinical rationale for exploring the therapeutic potential of high-dose AA in ccRCC.