PO.MCB09.04 · 分子与细胞生物学

Itaconate acts as an oncometabolite to drive lethal pediatric ependymomas

海报缩略图:Itaconate acts as an oncometabolite to drive lethal pediatric ependymomas
编号 3285 展板 17 时间 4/20 02:00–05:00 区域 Section 23 主讲 Siva Kumar Natarajan, B Eng;PhD
分会场 Metabolic Studies in Brain, Pediatric, and Hematologic Cancers
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作者与单位

Siva Kumar Natarajan1, Joanna Lum2, James Haggerty-Skeans3, Minal Nenwani2, Sanjana Eyunni2, Mateus Mota3, Jill Bayliss3, Akash Deogharkar1, Erin Hamanishi1, Simon Hoffman1, Eleanor Young2, Qiuyang Zhang2, Rijul Mehta1, Abhijit Parolia1, Peter Sajjakulnukit2, Robert Doherty1, Carl Koschmann4, Arul M. Chinnaiyan2, Costas Andreas Lyssiotis2, Deepak Nagrath2, Sriram Venneti3

1Pathology, University of Michigan Medical School, Ann Arbor, MI,2University of Michigan, Ann Arbor, MI,3University of Michigan Medical School, Ann Arbor, MI,4Univ. of Michigan Health System, Ann Arbor, MI

摘要 Abstract

ZFTA-RELA ependymomas are highly aggressive brain tumors with significant mortality. These tumors are characterized by the oncogenic fusion of a putative chromatin remodeler ZFTA and the NFκB effector RELA. Using a comprehensive metabolic screen, we discovered that ZFTA-RELA cells generate itaconate, a metabolite linked to the TCA cycle. Although itaconate is a well-known immunomodulatory metabolite produced by macrophages, its production and function within tumor cells have been unclear. We found that itaconate is synthesized by Aconitate Decarboxylase-1 (ACOD1), and that ZFTA-RELA induces ACOD1 expression in an NFκB-dependent manner. Itaconate production in turn supports a coupled metabolic-epigenetic feed-forward loop that sustains pathogenic ZFTA-RELA fusion expression through H3K4me3-dependent, epigenetic activation. To provide the metabolic input required for itaconate synthesis, ZFTA-RELA tumors suppress PTEN expression to activate PI3K/AKT signaling pathway. The increased glutaminolysis in these tumors supplied the carbon needed for itaconate generation. As a result, inhibiting glutamine metabolism reduces pathogenic ZFTA-RELA levels and shows strong therapeutic efficacy in multiple in vivo models. Moreover, combining glutamine antagonists with PI3K/mTOR inhibitors prevents spinal metastasis. Overall, our findings show that ZFTA-RELA ependymomas hijack the macrophage-associated itaconate metabolic pathway to epigenetically reinforce expression of the ZFTA-RELA fusion driver, identifying itaconate as an oncometabolite. These results highlight itaconate upregulation as an unrecognized driver of ZFTA-RELA ependymoma and point to new therapeutic avenues for children affected by this devastating disease, while broadening our understanding of oncometabolites as a distinct class of cancer dependencies.
利益披露 Disclosure
S. Natarajan, None.. A. Deogharkar, None.. E. Hamanishi, None.. S. Hoffman, None.. R. Mehta, None.. A. Parolia, None.. R. Doherty, None.

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