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tRNA derived fragment (tRF)-3009 participates in modulation of IFN-α-induced CD4+ T cell oxidative phosphorylation in lupus patients

Guannan Geng, Huijing Wang, Weiwei Xin, Zhe Liu, Jie Chen, Danting Zhang, Fei Han, Shuang Ye

2021Journal of Translational Medicine26 citationsDOIOpen Access PDF

Abstract

Abstract Background Accumulating evidence suggests tRNA-derived fragments (tRFs) play important roles in cellular homeostasis. Here we aimed to explore aberrant expression of tRFs in CD4 + T cells from patients with systemic lupus erythematosus (SLE) and their potential function in the SLE pathogenesis. Methods First, small RNA sequencing was performed on CD4 + T cells from four SLE patients and three healthy controls (HCs). Candidate tRFs were then validated in CD4 + T cells from 97 SLE patients and their relevant disease controls using qRT-PCR. Then sequencing was used to investigate the profiles of HC-derived CD4 + T cells transfected with tRF-3009 . Lastly, tRF-3009 siRNA or tRF-3009 mimics were transfected into CD4 + T cells with/without IFN-α. Changes in oxygen consumption rate (OCR), ATP, and ROS production were analyzed. Results We identified 482 differentially expressed tRFs from SLE CD4 + T cells and chose tRF-3009 for further analysis due to its upregulation and the positive correlations between its expression and SLEDAI, active lupus nephritis and serum IFN-α levels. In vitro, tRF-3009 over-expressing CD4 + T cell profiling and putative analysis linked this product to the type I IFN and oxidative phosphorylation (OXPHOS) pathways. Interestingly, IFN-α is capable of inducing ROS and ATP production in CD4 + T cells, while knockdown of tRF-3009 reversed this process. Overexpression of tRF-3009 in CD4 + T cells alone was sufficient to upregulate OCR, ROS, and ATP production. Conclusions Our study is the first to link aberrant tRF expression and SLE. tRF-3009 may participate in metabolic modulation of IFN-α-induced CD4 + T cell OXPHOS in lupus.

Topics & Concepts

Downregulation and upregulationTransfectionGene knockdownOxidative phosphorylationLupus nephritisChemistrySystemic lupus erythematosusMolecular biologyCell cultureSmall interfering RNAHEK 293 cellsCell biologyBiologyCancer researchGeneBiochemistryMedicineDiseaseGeneticsInternal medicineRNA modifications and cancerCancer-related molecular mechanisms researchinterferon and immune responses