Abstract
The xanthine oxidoreductase gene (XOR) encodes an important source of reactive oxygen species and uric acid, and its expression is associated with various human diseases including several forms of cancer. We previously reported that basal human XOR (hXOR) expression is restricted or repressed by E-box and TATA-like elements and a cluster of transcriptional proteins, including AREB6-like proteins and DNA-dependent protein kinase (DNA-PK). We now demonstrate that the cluster contains the tumor suppressors SAFB1, BRG1, and SAF-A. We further demonstrate that SAFB1 silencing increases hXOR expression and that SAFB1 directly binds to the E-box. Multiple studies in vitro and in vivo including pulldown, immunoprecipitation and chromatin immunoprecipitation analyses indicate that SAFB1, Ku86, and BRG1 associate with each other. The results suggest that the SAFB1 complex binds to the hXOR promoter in a chromatin environment and plays a critical role in restricting hXOR expression via its direct interaction with the E-box, DNA-PK, and tumor suppressors. Moreover, we demonstrate that the cytokine, oncostatin M (OSM), induces the phosphorylation of SAFB1 and that the OSM-induced hXOR mRNA expression is significantly inhibited by silencing the DNA-PK catalytic subunit or SAFB1 expression. The present studies for the first time demonstrate that hXOR is a tumor suppressor-targeted gene and that the phosphorylation of SAFB1 is regulated by OSM, providing a molecular basis for understanding the role of SAFB1-regulated hXOR transcription in cytokine stimulation and tumorigenesis.
Highlights
The xanthine oxidoreductase gene (XOR) encodes an important source of reactive oxygen species and uric acid, and its expression is associated with various human diseases including several forms of cancer
DNA Affinity Purification and Sequence Analysis of Eluted Nuclear Proteins Binding to Probe EG—Our previous studies demonstrated that components (Ku86, Ku70, and DNA-PKcs) of the DNA-PK complex and proteins immunoreactive to antiAREB6 antibodies (AREB6-like proteins) bind to the human XOR (hXOR) promoter region containing the E-box and putative Ku86 sites [55]
Role of DNA-PKcs in oncostatin M (OSM)-induced hXOR mRNA Expression— To investigate whether DNA-PKcs is involved in OSM-induced hXOR mRNA expression, we studied the effect of silencing DNAPKcs on hXOR in the B2B cells with or without OSM stimulation
Summary
The xanthine oxidoreductase gene (XOR) encodes an important source of reactive oxygen species and uric acid, and its expression is associated with various human diseases including several forms of cancer. The present studies for the first time demonstrate that hXOR is a tumor suppressor-targeted gene and that the phosphorylation of SAFB1 is regulated by OSM, providing a molecular basis for understanding the role of SAFB1-regulated hXOR transcription in cytokine stimulation and tumorigenesis. The enzyme is composed of two identical 150-kDa subunits, each of which contains four redox active centers; that is, two iron sulfur, one FAD, and one molybdopterin [1,2,3] It exists in two forms, an NAD-dependent dehydrogenase and an oxygen-dependent oxidase (XO). Previous studies demonstrate that XOR-derived ROS contribute to the increased cancer risk associated with oxidative stress [31, 32]. Recent studies show increased XOR activity in subjects with non-small cell lung cancer [36, 37]
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