FHOD1 is upregulated in glioma cells and attenuates ferroptosis of glioma cells by targeting HSPB1 signaling

Abstract

AbstractBackgroundAs a new type of regulatory cell death, ferroptosis has been proven to be involved in cancer pathogenesis and therapeutic response. However, the detailed roles of ferroptosis or ferroptosis‐associated genes in glioma remain to be clarified.MethodsHere, we performed the TMT/iTRAQ‐Based Quantitative Proteomic Approach to identify the differentially expressed proteins between glioma specimens and adjacent tissues. Kaplan–Meier survival was used to estimate the survival values. We also explored the regulatory roles of abnormally expressed formin homology 2 domain‐containing protein 1 (FHOD1) in glioma ferroptosis sensitivity.ResultsIn our study, FHOD1 was identified to be the most significantly upregulated protein in glioma tissues. Multiple glioma datasets revealed that the glioma patients with low FHOD1 expression displayed favorable survival time. Functional analysis proved that the knockdown of FHOD1 inhibited cell growth and improved the cellular sensitivity to ferroptosis in glioma cells T98G and U251. Mechanically, we found the up‐regulation and hypomethylation of HSPB1, a negative regulator of ferroptosis, in glioma tissues. FHOD1 knockdown could enhance the ferroptosis sensitivity of glioma cells via up‐regulating the methylated heat‐shock protein B (HSPB1). Overexpression of HSPB1 significantly reversed FHOD1 knockdown‐mediated ferroptosis.ConclusionsIn summary, this study demonstrated that the FHOD1‐HSPB1 axis exerts marked regulatory effects on ferroptosis, and might affect the prognosis and therapeutic response in glioma.