Abstract
Hepatocellular carcinoma (HCC) is one of the most common and deadly cancers worldwide. It is usually diagnosed in an advanced stage and is characterized by a high intrinsic drug resistance, leading to limited chemotherapeutic efficacy and relapse after treatment. There is therefore a vast need for understanding underlying mechanisms that contribute to drug resistance and for developing therapeutic strategies that would overcome this. The rapid proliferation of tumor cells, in combination with a highly inflammatory microenvironment, causes a chronic increase of protein synthesis in different hepatic cell populations. This leads to an intensified demand of protein folding, which inevitably causes an accumulation of misfolded or unfolded proteins in the lumen of the endoplasmic reticulum (ER). This process is called ER stress and triggers the unfolded protein response (UPR) in order to restore protein synthesis or—in the case of severe or prolonged ER stress—to induce cell death. Interestingly, the three different arms of the ER stress signaling pathways have been shown to drive chemoresistance in several tumors and could therefore form a promising therapeutic target. This review provides an overview of how ER stress and activation of the UPR contributes to drug resistance in HCC.
Highlights
Hepatocellular carcinoma (HCC) is a primary liver tumor that contributes to over550,000 annual deaths worldwide [1,2]
This study revealed that when autophagy was suppressed, HCC cells were re-sensitized to endoplasmic reticulum (ER) stress-induced cell death, both in in vitro as well as in in vivo studies [60]
Hepatocellular carcinoma (HCC) is one of the most common and deadly cancers worldwide. It is usually diagnosed in an advanced stage and is characterized by a high intrinsic drug resistance leading to limited chemotherapeutic efficacy [13,16]
Summary
Hepatocellular carcinoma (HCC) is a primary liver tumor that contributes to over. 550,000 annual deaths worldwide [1,2]. It usually develops in a background of chronic liver disease, which can be caused by alcohol-related liver diseases, chronic hepatitis infections, non-alcoholic fatty liver disease, and genetic mutations [3,4,5] Each of these risk factors is characterized by a chronic perpetuation of liver injury that creates an inflammatory and a pro-tumoral microenvironment that sustains cancer cell proliferation and survival [6,7]. One of the most alarming complications in HCC is occurrence of multidrug resistance This means that efficacy of chemotherapeutic drugs become severely reduced due to cancer cells utilizing different biological tools to remove, convert, and/or disarm drugs intended to interfere with them [13,14,15,16]. This review focuses on how HCC cells harness ER stress to survive and adopt a drug resistant phenotype through several complex and intertwined resistance mechanisms (Figure 1)
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