Abstract
Changes of Selenoprotein F (SELENOF) protein levels have been reported during selenium supplementation, stressful, and pathological conditions. However, the mechanisms of how these external factors regulate SELENOF gene expression are largely unknown. In this study, HEK293T cells were chosen as an in vitro model. The 5′-flanking regions of SELENOF were analyzed for promoter features. Dual-Glo Luciferase assays were used to detect promoter activities. Putative binding sites of Heat Shock Factor 1 (HSF1) were predicted in silico and the associations were further proved by chromatin immunoprecipitation (ChIP) assay. Selenate and tunicamycin (Tm) treatment were used to induce SELENOF up-regulation. The fold changes in SELENOF expression and other relative proteins were analyzed by Q-PCR and western blot. Our results showed that selenate and Tm treatment up-regulated SELENOF at mRNA and protein levels. SELENOF 5′-flanking regions from −818 to −248 were identified as core positive regulatory element regions. Four putative HSF1 binding sites were predicted in regions from −1430 to −248, and six out of seven primers detected positive results in ChIP assay. HSF1 over-expression and heat shock activation increased the promoter activities, and mRNA and protein levels of SELENOF. Over-expression and knockdown of HSF1 showed transcriptional regulation effects on SELENOF during selenate and Tm treatment. In conclusion, HSF1 was discovered as one of the transcription factors that were associated with SELENOF 5′-flanking regions and mediated the up-regulation of SELENOF during selenate and Tm treatment. Our work has provided experimental data for the molecular mechanism of SELENOF gene regulation, as well as uncovered the involvement of HSF1 in selenotranscriptomic for the first time.
Highlights
As an essential trace element for mammals, selenium plays an important role in metabolism.Selenium deficiency is connected to several disorders, including cardiovascular, aging, and immune system diseases [1,2,3]
Up-Regulation of Selenoprotein F (SELENOF) mRNA by Selenate and Tm Treatment
ROS generation has been observed upon applying the redox-active selenium compounds [30], during which endoplasmic reticulum (ER) stress may be triggered [31]
Summary
As an essential trace element for mammals, selenium plays an important role in metabolism.Selenium deficiency is connected to several disorders, including cardiovascular, aging, and immune system diseases [1,2,3]. Selenoprotein F (SELENOF), the new name according to the recently published selenoprotein gene nomenclature, is known by its former symbol the 15-kDa Selenoprotein (SEP15) [8] It was first discovered by Gladyshev in 1998 [9]. Current studies have revealed the connections between SELENOF polymorphisms and various risks of cancers, including colorectal cancer, lung cancer, breast cancer, and prostate cancer [11,12], yet the results from different populations can be conflicting and inconclusive. Both negative and positive regulating effects of SELENOF on tumor progression have been reported [13], indicating aberrant SELENOF expression may contribute to cancer pathologies
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