Abstract
Endoplasmic reticulum (ER) stress has been linked to many diseases, including cancer. A large body of work has focused on the activation of the ER stress response in cancer cells to facilitate their survival and tumor growth; however, there are some studies suggesting that the ER stress response can also mitigate cancer progression. Despite these contradictions, it is clear that the ER stress response is closely associated with cancer biology. The ER stress response classically encompasses activation of three separate pathways, which are collectively categorized the unfolded protein response (UPR). The UPR has been extensively studied in various cancers and appears to confer a selective advantage to tumor cells to facilitate their enhanced growth and resistance to anti-cancer agents. It has also been shown that ER stress induces chromatin changes, which can also facilitate cell survival. Chromatin remodeling has been linked with many cancers through repression of tumor suppressor and apoptosis genes. Interplay between the classic UPR and genome damage repair mechanisms may have important implications in the transformation process of normal cells into cancer cells.
Highlights
Cells in the body are continuously exposed to a dynamic environment dictated by the metabolic and nutritional status of the organism
In the case of cancers, especially non-inherited cancers that arise from genome damage, the cells capitalize on the endoplasmic reticulum (ER) stress response, which may be adaptive and advantageous at the cellular level, but deleterious to the organism
genome damage response (GDR) results in increased H3K14ac, which promotes the binding of BRG1, an ATPase component of SWI2/SNF2 complex, to H2AXph139 at the sites of DNA damage enabling chromatin remodeling for DNA repair [65, 66]
Summary
Cells in the body are continuously exposed to a dynamic environment dictated by the metabolic and nutritional status of the organism. It has been shown that ER stress induces chromatin changes, which can facilitate cell survival. This chaperone is associated with prolonged cell survival, mainly by preventing ER stress-induced apoptosis and thereby promoting cell malignancy, metastatic development, and resistance to anti-cancer agents [12, 14, 21, 22].
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