Abstract

Abstract Thioredoxin-interacting protein (TXNIP) plays a critical role in glucose metabolism and redox signaling. TXNIP has recently emerged as a potent tumor suppressor in various cancer models. In previous studies, we found TXNIP was activated by UNC0642, an inhibitor of histone methyltransferase, in MDA-MB-231 breast cancer cells. TXNIP activation was coupled with significant suppression of cell proliferation and tumor growth. In contrast, TXNIP knockdown increased MDA-MB-231 cell proliferation and in tumor growth and metastasis in vivo. TXNIP-reconstitution in TXNIP-deficient HCC1954 cells reduced cell proliferation and migration coupled with increased reactive oxygen species production. TXNIP-reconstitution also significantly decreased mitochondrial respiration, mitochondrial membrane potential and glycolysis in HCC1954 cells. To understand the mechanisms underlying TXNIP’s antitumor activity, we performed co-immunoprecipitation and proteomic analyses to uncover TXNIP-interacting proteins. We identified calpastatin (CAST) as a novel TXNIP-interacting protein in breast cancer cells. CAST is an endogenous inhibitor of calpains, a family of calcium-activated cysteine proteases. Intriguingly, CAST association with TXNIP was readily detectable in TXNIP-low, but not in TXNIP-high breast cancer cells. The disassociation of CAST from TXNIP in TXNIP-high cells might allow CAST to inhibit calpain activity to augment TXNIP’s antitumor function. Through RNAseq analysis, we identified a positive correlation between TXNIP expression and IL-24 activation in various breast cancer cells, which were also confirmed by western blotting. IL-24 has emerged as an important cancer therapy target because of its role in promoting cancer-specific apoptosis. Our data also demonstrated that TXNIP upregulated the level of IL-24 and downregulated STAT-3. Moreover, TXNIP exerts multifaceted effects on BC development through the IL24-STAT3 signaling axis, deepening our understanding of its complex role in the disease. Taken together, these studies identified novel TNXIP-dependent pathways and their potential new mechanisms in breast cancer pathogenesis with significant clinical implications. Citation Format: Jasvinder Singh, Bindeshwar Sah, Robert Clarke, Liang Liu. Identification of novel TXNIP-dependent antitumor pathways in breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4378.

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