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Von Hippel-Lindau regulates interleukin-32β stability in ovarian cancer cells.

Oncotarget (2017-10-21)
Hyo Jeong Yong, Jeong Su Park, Ae Lee Jeong, Sora Han, Sunyi Lee, Hye In Ka, Buyanravjkh Sumiyasuren, Hyun Jeong Joo, Su Jeong So, Ji Young Park, Do-Young Yoon, Jong-Seok Lim, Myeong-Seok Lee, Hee Gu Lee, Young Yang
RESUMEN

Hypoxia-induced interleukin-32β (IL-32β) shifts the metabolic program to the enhanced glycolytic pathway. In the present study, the underlying mechanism by which hypoxia-induced IL-32β stability is regulated was investigated in ovarian cancer cells. IL-32β expression increased under hypoxic conditions in ovarian cancer cells as it did in breast cancer cells. The amount of IL-32β was regulated by post-translational control rather than by transcriptional activation. Under normoxic conditions, IL-32β was continuously eliminated through ubiquitin-dependent degradation by the von-Hippel Lindau (VHL) E3 ligase complex. Oxygen deficiency or reactive oxygen species (ROS) disrupted the interaction between IL-32β and VHL, leading to the accumulation of the cytokine. The fact that IL-32β is regulated by the energy-consuming ubiquitination system implies that it plays an important role in oxidative stress. We found that IL-32β reduced protein kinase Cδ (PKCδ)-induced apoptosis under oxidative stress. This implies that the hypoxia- and ROS-stabilized IL-32β contributes to sustain survival against PKCδ-induced apoptosis.

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