Journal
METABOLITES
Volume 11, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/metabo11050329
Keywords
lipocalin-2; iron; ROS; Nrf2; ISR; p-eIF2 alpha; erastin; ferroptosis
Categories
Funding
- Wilhelm Sander-Stiftung [2017.130.2]
- Deutsche Forschungsgemeinschaft [SPP 2306, BR 999/26-1]
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The study elucidates the signaling pathways through which iron-loaded lipocalin-2 (Lcn-2) affects renal cancer cell viability, highlighting the importance of ferroptosis-regulating genes in this process. Additionally, it reveals the role of oxidative stress and the integrated stress response (ISR) in promoting tumor characteristics induced by Lcn-2.
While the importance of the iron-load of lipocalin-2 (Lcn-2) in promoting tumor progression is widely appreciated, underlying molecular mechanisms largely remain elusive. Considering its role as an iron-transporter, we aimed at clarifying iron-loaded, holo-Lcn-2 (hLcn-2)-dependent signaling pathways in affecting renal cancer cell viability. Applying RNA sequencing analysis in renal CAKI1 tumor cells to explore highly upregulated molecular signatures in response to hLcn-2, we identified a cluster of genes (SLC7A11, GCLM, GLS), which are implicated in regulating ferroptosis. Indeed, hLcn-2-stimulated cells are protected from erastin-induced ferroptosis. We also noticed a rapid increase in reactive oxygen species (ROS) with subsequent activation of the antioxidant Nrf2 pathway. However, knocking down Nrf2 by siRNA was not sufficient to induce erastin-dependent ferroptotic cell death in hLcn-2-stimulated tumor cells. In contrast, preventing oxidative stress through N-acetyl-l-cysteine (NAC) supplementation was still able to induce erastin-dependent ferroptotic cell death in hLcn-2-stimulated tumor cells. Besides an oxidative stress response, we noticed activation of the integrated stress response (ISR), shown by enhanced phosphorylation of eIF-2 alpha and induction of ATF4 after hLcn-2 addition. ATF4 knockdown as well as inhibition of the ISR sensitized hLcn-2-treated renal tumor cells to ferroptosis, thus linking the ISR to pro-tumor characteristics of hLcn-2. Our study provides mechanistic details to better understand tumor pro-survival pathways initiated by iron-loaded Lcn-2.
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