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  • Palmitate-Induced IRE1-XBP1-ZEB Signaling Represses Desmoplakin Expression and Promotes Cancer Cell Migration.

Palmitate-Induced IRE1-XBP1-ZEB Signaling Represses Desmoplakin Expression and Promotes Cancer Cell Migration.

Molecular cancer research : MCR (2020-10-28)
Aritro Nath, Amrita Oak, Kevin Y Chen, Irene Li, R Chauncey Splichal, Jason Portis, Sean Foster, S Patrick Walton, Christina Chan
ABSTRACT

Elevated uptake of saturated fatty acid palmitate is associated with metastatic progression of cancer cells; however, the precise signaling mechanism behind the phenomenon is unclear. The loss of cell adhesion proteins, such as desmoplakin (DSP), is a key driving event in the transformation of cancer cells to more aggressive phenotypes. Here, we investigated the mechanism by which palmitate induces the loss of DSP in liver and breast cancer cells. We propose that palmitate activates the IRE1-XBP1 branch of the endoplasmic reticulum (ER) stress pathway to upregulate the ZEB transcription factor, leading to transcriptional repression of DSP. Using liver and breast cancer cells treated with palmitate, we found loss of DSP leads to increased cell migration independent of E-cadherin. We report that the ZEB family of transcription factors function as direct transcriptional repressors of DSP. CRISPR-mediated knockdown of IRE1 confirmed that the transcription of ZEB, loss of DSP, and enhanced migration in the presence of palmitate is dependent on the IRE1-XBP1 pathway. In addition, by analyzing the somatic expression and copy number variation profiles of over 11,000 tumor samples, we corroborate our hypothesis and establish the clinical relevance of DSP loss via ZEB in human cancers. IMPLICATIONS: Provides mechanistic link on palmitate-induced activation of IRE1α to cancer cell migration.

MATERIALS
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Brand
Product Description

Corning® Costar® Transwell® cell culture inserts, TC treated, PET membrane, diam. 6.5 mm, pore size 8.0 μm, sterile
Sigma-Aldrich
MISSION® esiRNA, targeting human DSP
Sigma-Aldrich
Crystal Violet, certified by the Biological Stain Commission
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Mitomycin C from Streptomyces caespitosus, powder, BioReagent, suitable for cell culture