Chen et al. show that USP21 is a deubiquitinating enzyme for the adaptor protein STING and that it negatively regulates the DNA virus–induced production of type I interferons. HSV-1 infection recruited USP21 to STING at a late stage by p38-mediated phosphorylation of USP21 at Ser538.
Ferroptosis is a lipid peroxidation-dependent cell death caused by metabolic dysfunction. Ferroptosis-associated enzymes are promising therapeutic targets for cancer treatment. However, such therapeutic strategies show limited efficacy due to drug resistance and other largely unknown underlying mechanisms. Here we report that cystine transporter SLC7A11 is upregulated in lung cancer stem-like cells (CSLC) and can be activated by stem cell transcriptional factor SOX2. Mutation of SOX2 binding site in SLC7A11 promoter reduced SLC7A11 expression and increased sensitivity to ferroptosis in cancer cells. Oxidation at Cys265 of SOX2 inhibited its activity and decreased the self-renewal capacity of CSLCs. Moreover, tumors with high SOX2 expression were more resistant to ferroptosis, and SLC7A11 expression was positively correlated with SOX2 in both mouse and human lung cancer tissue. Together, our study provides a mechanism by which cancer cells evade ferroptosis and suggests that oxidation of SOX2 can be a potential therapeutic target for cancer treatment.
Significance:
This study uncovers a SOX2–SLC7A11 regulatory axis that confers resistance to ferroptosis in lung cancer stem-like cells.
SUMMARY
The NF-κB pathway plays important roles in immune responses. Although its regulation has been extensively studied, here, we report an unknown feedforward mechanism for the regulation of this pathway by Toll-like receptor (TLR) ligands in macrophages. During bacterial infections, TLR ligands upregulate the expression of the 11S proteasome subunit PSME3 via NF-κB-mediated transcription in macrophages. PSME3, in turn, enhances the transcriptional activity of NF-κB by directly binding to and destabilizing KLF2, a negative regulator of NF-κB transcriptional activity. Consistent with this positive role of PSME3 in NF-κB regulation and importance of the NF-κB pathway in host defense against bacterial infections, the lack of PSME3 in hematopoietic cells renders the hosts more susceptible to bacterial infections, accompanied by increased bacterial burdens in host tissues. Thus, this study identifies a substrate for PSME3 and elucidates a proteolysis-dependent, but ubiquitin-independent, mechanism for NF-κB regulation that is important for host defense and innate immunity.
These results provide a profile of novel object exploratory behaviors in cynomolgus monkeys, contributing to a better understanding of this aspect of behavioral innovation.
Severe acute respiratory syndrome coronavirus 2, responsible for the severe acute respiratory syndrome known as COVID-19, has rapidly spread in almost every country and devastated the global economy and health care system. Lung injury is an early disease manifestation believed to be a major contributor to short- and long-term pathological consequences of COVID-19, and thus drug discovery aiming to ameliorate lung injury could be a potential strategy to treat COVID-19 patients. By inducing a severe acute respiratory syndrome–like pulmonary disease model through infecting A/J mice with murine hepatitis virus strain 1 (MHV-1), we show that i.v. administration of pazopanib ameliorates acute lung injuries without affecting MHV-1 replication. Pazopanib reduces cell apoptosis in MHV-1–infected lungs. Furthermore, we also identified that pazopanib has to be given no later than 48 h after the virus infection without compromising the therapeutic effect. Our study provides a potential treatment for coronavirus-induced lung injuries and support for further evaluation of pazopanib in COVID-19 patients.
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