Project description:The Arabidopsis thaliana Myb transcription factor, FE, acts as a key regulator of phase transition. In order to identify potential target genes of FE protein, we performed microarray experiments. Using fe-1 and transgenic plants overexpressing GR-tagged FE (35S::FE-GR), we compared transcriptional profiling of WT (L.er) vs fe-1 and Dex-treated 35S::FE-GR vs Mock-treated 35S::FE-GR. Transcriptional profiling of A. thaliana comparing WT (L.er) with the fe-1 mutant

Project description:Quantitative proten expression in Panc-1 cells treated with MOF-Fe and a Ferritin Degrader

Project description:Zn (Ⅱ) and Fe (Ⅱ) are the essential metal elements for the growth of microorganisms. It illustrated that more itaconic acid was achieved for 0.25 g/L ZnSO4·2H2O and 0.40 g/L FeSO4·2H2O than the control with 0.15 g/L ZnSO4·2H2O and 0.16 g/L FeSO4·2H2O after single factor assays for Aspergillus terreus.We furhter carried out transcriptome assays to uncover molecular mechanism of the enhanced itaconic acid fermentability for A. terreus with metal ion.Therefore, our study would provide a reference metal ion concentration ratio for itaconic and other biochemicals production.

Project description:This Phase I clinical trial aims to evaluate the safety, tolerability, pharmacokinetics (PK) profile and preliminary efficacy of intratumoral injection of Carbon Nanoparticle-Loaded Iron [CNSI-Fe(II)] in patients with advanced solid tumors. The study also aims to observe dose-limiting toxicities (DLT) of CNSI-Fe(II) to determine the maximum tolerated dose (MTD) or the highest injectable dose in humans, providing dosing guidelines for future clinical studies. CNSI-Fe(II) shows promise as an innovative tumor therapeutic agent due to its unique properties of ferroptosis. The study primarily focuses on assessing the potential efficacy of CNSI-Fe(II) in patients with advanced solid tumors, particularly in patients with Kras mutation, e.g., pancreatic cancer patients.

Project description:Identification of transcriptional changes of Ustilago maydis wild type strain FB1 grown in axenic culture in complete medium containing glucose without or with the addition of 10 µM FeSO4. Keywords: gene induction

Project description:Iron overload, characterized by accumulation of iron in tissues, induces a multiorgan toxicity whose mechanisms are not fully understood. Using cultured cell lines, Caenorhabditis elegans, and mice, we found that ferroptosis occurs in the context of iron-overload-mediated damage. Exogenous oleic acid protected against iron-overload-toxicity in cell culture and Caenorhabditis elegans by suppressing ferroptosis. In mice, oleic acid protected against FAC-induced liver lipid peroxidation and damage. Oleic acid changed the cellular lipid composition, characterized by decreased levels of polyunsaturated fatty acyl phospholipids and decreased levels of ether-linked phospholipids. The protective effect of oleic acid in cells was attenuated by GW6471 (a PPAR- antagonist), as well as in Caenorhabditis elegans lacking the nuclear hormone receptor NHR-49 (a PPAR- functional homologue). These results highlight ferroptosis as a driver of iron-overload-mediated damage, which is inhibited by oleic acid. This monounsaturated fatty acid represents a potential therapeutic approach to mitigating organ damage in iron overload individuals.

Project description:Ferroptosis has been characterised by disruption of the cell membrane through iron-related lipid peroxidation. However, regulation of iron homeostasis in lung cancer cells which are resistant to epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs) remains unclear. Transcriptome analysis identified a significant downregulation of apoptosis-associated tyrosine kinase (AATK) mRNA expression in gefitinib-resistant PC9 (PC9-GR) cells, which were found to be more susceptible to ferroptosis inducers. An in-depth analysis of publicly available datasets revealed that downregulation of AATK mRNA was associated with lymph node metastasis and poor prognosis in patients with lung adenocarcinoma. Knockdown of AATK sensitized PC9, HCC827 and H441 cells to the ferroptosis inducer RSL3, whereas ectopic expression of AATK reduced RSL3-induced cell death in PC9-GR and HCC827-GR cells. Compared to PC9 cells, PC9-GR cells exhibited higher transferrin uptake, endosome recycling rate, and increased intracellular iron levels. Blocking iron transport reduced RSL3-induced ferroptosis in PC9-GR cells. Mechanistic studies showed that AATK localized to both early and recycling endosomes. Knockdown of AATK facilitated endosome recycling and elevated intracellular ferrous iron (Fe2+) levels in PC9 cells. Conversely, ectopic expression of AATK delayed endosome recycling and reduced intracellular Fe2+ levels in PC9-GR cells. Inhibition of AATK downregulation-induced iron accumulation decreased RSL3-induced ferroptosis. Taken together, our study indicates that the downregulation of AATK contributes to endosome recycling and iron accumulation, leading to an increased susceptibility to ferroptosis in EGFR-TKI-resistant lung cancer cells.

Project description:Despite the successful application of immunotherapy, both innate and acquired resistance are typical in melanoma. Ferroptosis induction appears to be a potential strategy to enhance the effectiveness of immunotherapy. However, the relationship between the status of ferroptosis and the effectiveness of immunotherapy, as well as viable strategies to augment ferroptosis, remain unclear. In this study, through large-scale drug screening of cardiovascular drugs, we identified propafenone, an anti-arrhythmia medication, as capable of synergizing with ferroptosis inducers in melanoma. Furthermore, we observed that propafenone, in combination with RSL3, collaboratively induces mitochondrial-associated ferroptosis. Mechanistically, propafenone transcriptionally upregulates mitochondrial HMOX1 via activation of the JNK/JUN signaling pathway under RSL3 treatment, leading to overloaded ferrous iron and ROS within the mitochondria. In xenograft models, the combination of propafenone with ferroptosis induction led to nearly complete tumor regression. Consistently, propafenone enhances immunotherapy-induced antitumor immunity and tumoral ferroptosis in tumor-bearing mice. Significantly, patients exhibiting high levels of ferroptosis/JUN/HMOX1 exhibited improved efficacy of immunotherapy and prolonged progression-free survival. These findings suggest that propafenone holds promise as a candidate drug for enhancing the efficacy of immunotherapy and other ferroptosis-targeted therapies in the treatment of melanoma.

Project description:Identification of transcriptional changes of Ustilago maydis wild type strain FB1 grown in axenic culture in complete medium containing glucose without or with the addition of 10 µM FeSO4. Keywords: gene induction Strain FB1 (wt) was grown in CM glucose medium in the presence or absence of 10 µM FeSO4.

Project description:a novel orphan peptide, IRON-REGULATED PROTEIN1 (IRP1) that is rapidly induced by Fe deficiency and improves growth on Fe-deplete media. In Arabidopsis, ectopic expression of IRP1 affected the activity of several genes involved in Fe acquisition and homeostasis, causing a dramatic increase of Fe in leaves and enhanced seed Fe loading. Heterologous expression of IRP1 in tomato plants resulted in increased Fe levels in fruits. Integration of AtIRP1 into the genome of crop plants may represent a novel strategy for Fe biofortification.