Abstract
Perturbation of endoplasmic reticulum (ER) homeostasis results in a stress condition termed “ER stress” determining the activation of a finely regulated program defined as unfolded protein response (UPR) and whose primary aim is to restore this organelle’s physiological activity. Several physiological and pathological stimuli deregulate normal ER activity causing UPR activation, such as hypoxia, glucose shortage, genome instability, and cytotoxic compounds administration. Some of these stimuli are frequently observed during uncontrolled proliferation of transformed cells, resulting in tumor core formation and stage progression. Therefore, it is not surprising that ER stress is usually induced during solid tumor development and stage progression, becoming an hallmark of such malignancies. Several UPR components are in fact deregulated in different tumor types, and accumulating data indicate their active involvement in tumor development/progression. However, although the UPR program is primarily a pro-survival process, sustained and/or prolonged stress may result in cell death induction. Therefore, understanding the mechanism(s) regulating the cell survival/death decision under ER stress condition may be crucial in order to specifically target tumor cells and possibly circumvent or overcome tumor resistance to therapies. In this review, we discuss the role played by the UPR program in tumor initiation, progression and resistance to therapy, highlighting the recent advances that have improved our understanding of the molecular mechanisms that regulate the survival/death switch.
Highlights
The endoplasmic reticulum is the widest intracellular organelle spanning from the nuclear envelope to the cell membrane
Role of unfolded protein response (UPR) in Cancer chemical compounds, and lipid synthesis. It is responsible for the correct folding and posttranslational modification of proteins destined to other organelles, the plasma membrane, as well as the extracellular compartment. While this activity resides in the rough endoplasmic reticulum (RER), lipids to be delivered to other intracellular organelles are synthesized in the smooth endoplasmic reticulum (SER)
A few of the well-characterized examples, supporting this notion, are that IRE1 signaling seems to be crucial during hepatocellular carcinoma (HCC) initiation, while pancreatic endoplasmic reticulum kinase (PERK) activation is required once the tumor had been established [54]; PERK signaling is a critical factor in the adaptation of cancer cells to hypoxic stress in colorectal carcinoma [55], while promoting tumor dormancy under adverse microenvironmental conditions in squamous cell carcinoma [56]; both UPR branches responsible for GRP78 upregulation and XBP1 production have been implicated in tumor cells’ response to glucose deprivation, sustaining tumor cell survival [57, 58]
Summary
The endoplasmic reticulum (hereafter ER) is the widest intracellular organelle spanning from the nuclear envelope to the cell membrane. Role of UPR in Cancer chemical compounds, and lipid synthesis It is responsible for the correct folding and posttranslational modification of proteins destined to other organelles, the plasma membrane, as well as the extracellular compartment. The adequate ER calcium concentration establishes the luminal redox potential required for chaperons, protein disulfide-isomerases (PDIs), protein N-glycosylation, and more activities [1] Under specific stimuli, such as electric and/or IP3 production, transmembrane ER protein channels [IP3 receptor (IP3R) [2] and ryanodines (RyRs) [3]] will open and calcium ions will spread into the cytosol. The consequences of this disequilibrium are the homodimerization of both IRE1 and PERK, their trans-auto-phosphorylation and activation, paralleled by ATF6 translocation to the Golgi apparatus and subsequent activation [11, 12]
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