Litcius/Paper detail

AKR1C1 interacts with STAT3 to increase intracellular glutathione and confers resistance to oxaliplatin in colorectal cancer

Zhiwen Fu, Tingting Wu, Chen Gao, Lulu Wang, Yu Zhang, Shi Chen

2024Acta Pharmaceutica Sinica B11 citationsDOIOpen Access PDF

Abstract

Oxaliplatin (OXA), a platinum-based chemotherapeutic agent, remains a mainstay in first-line treatments for advanced colorectal cancer (CRC). However, the eventual development of OXA resistance represents a significant clinical challenge. In the present study, we demonstrate that the aldo-keto reductase 1C1 (AKR1C1) is overexpressed in CRC cells upon acquisition of OXA resistance, evident in OXA-resistant CRC cell lines. We employed genetic silencing and pharmacological inhibition strategies to establish that suppression of AKR1C1 restores OXA sensitivity. Mechanistically, AKR1C1 interacts with and activates the transcription factor STAT3, which upregulates the glutamate transporter EAAT3, thereby elevating intracellular glutathione levels and conferring OXA resistance. Alantolactone, a potent natural product inhibitor of AKR1C1, effectively reverses this chemoresistance, restricting the growth of OXA-resistant CRC cells both in vitro and in vivo . Our findings uncover a critical AKR1C1-dependent mechanism behind OXA resistance and propose a promising combinatorial therapeutic strategy to overcome this resistance in CRC. AKR1C1 is upregulated and interacts with STAT3 to facilitate its downstream target EAAT3 expression, leading to an elevated level of GSH, which drives the OXA resistance in colorectal cancer cells.

Topics & Concepts

OxaliplatinGene silencingIntracellularCancer researchColorectal cancerGlutathioneSTAT3Transcription factorIn vivoChemistryCell biologyBiologySignal transductionCancerGeneBiochemistryGeneticsEnzymeAldose Reductase and TaurineEpigenetics and DNA MethylationGenomics, phytochemicals, and oxidative stress