Abstract
Endoplasmic reticulum (ER) stress and unfolded protein response (UPR) are highly activated in cancer and involved in tumorigenesis and resistance to anti-cancer therapy. UPR is becoming a promising target of anti-cancer therapies. Thus, the identification of UPR components that are highly expressed in cancer could offer new therapeutic opportunity.In this study, we demonstrate that Endoplasmic Reticulum Metallo Protease 1 (ERMP1) is broadly expressed in a high percentage of breast, colo-rectal, lung, and ovary cancers, regardless of their stage and grade. Moreover, we show that loss of ERMP1 expression significantly hampers proliferation, migration and invasiveness of cancer cells. Furthermore, we show that this protein is an important player in the UPR and defense against oxidative stress. ERMP1 expression is strongly affected by reticular stress induced by thapsigargin and other oxidative stresses. ERMP1 silencing during reticular stress impairs the activation of PERK, a key sensor of the UPR activation. Loss of ERMP1 also prevents the expression of GRP78/BiP, a UPR stress marker involved in the activation of the survival pathway. Finally, ERMP1 silencing in cells exposed to hypoxia leads to inhibition of the Nrf2-mediated anti-oxidant response and to reduction of accumulation of HIF-1, the master transcription factor instructing cells to respond to hypoxic stress. Our results suggest that ERMP1 could act as a molecular starter to the survival response induced by extracellular stresses. Moreover, they provide the rationale for the design of ERMP1-targeting drugs that could act by inhibiting the UPR initial adaptive response of cancer cells and impair cell survival.
Highlights
The endoplasmic reticulum (ER) is a multifunctional organelle required for lipid biosynthesis, calcium storage, protein folding and processing
During the screening of the entire antibody library on tissue microarrays (TMAs) carrying cancerous and normal formalin-fixed paraffinembedded (FFPE) samples from breast, colon, lung, and ovary samples, we found that the pAb687-YOM, a polyclonal antibody raised against a recombinant Endoplasmic Reticulum Metallo Protease 1 (ERMP1) domain detected the expression of its target protein in cancer samples of the four anatomical sites whereas it gave a negligible staining in the corresponding normal tissues (Supplementary Figure S1), suggesting that ERMP1 is expressed at higher level in breast, colon, lung, and ovary cancers
ERMP1 gene encodes a metallopeptidase belonging to the M28 family of approximately 100 kDa, with nine predicted transmembrane domains normally localized in the ER
Summary
The endoplasmic reticulum (ER) is a multifunctional organelle required for lipid biosynthesis, calcium storage, protein folding and processing. ER stress severely impacts protein folding, causing an accumulation of unfolded, misfolded or otherwise damaged proteins that can irreparably hamper cellular functions and compromise cell survival. Under such stress, ER evolves a group of signal transduction pathways, collectively termed unfolded protein response (UPR) [1, 2] to restore normal cell function by halting protein translation and activating the signaling pathways that lead to increased production of molecular chaperones involved in protein folding. Under ER stress, GRP78/BiP dissociates from the three ER stress sensors, which include pancreatic ER kinase (PKR)-like ER kinase (PERK), activating transcription factor 6 (ATF6) and inositol-requiring enzyme 1 (IRE1), and binds to the unfolded or misfolded proteins. The dissociation of GRP78/BiP from these stress sensors allows the activation of their pro-survival signaling pathways [1,2,3,4]
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