The critical role of GRP78/BiP MARylation in ER stress of KRAS-mutant colorectal cancer
Shuxian Zhang, Xiaodan Chen, Qian Gong, Jing Huang, Yi Tang, Ming Xiao, Ming Li, Qingshu Li, Yalan Wang
Shuxian Zhang, Xiaodan Chen, Qian Gong, Jing Huang, Yi Tang, Ming Xiao, Ming Li, Qingshu Li, Yalan Wang
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Research Article Cell biology Gastroenterology Oncology

The critical role of GRP78/BiP MARylation in ER stress of KRAS-mutant colorectal cancer

Abstract

Nearly 50% of patients with KRAS-mutant colorectal cancer (CRC) currently lack effective targeted therapy. The accumulation of KRAS-mutant proteins can trigger a sustained high level of endoplasmic reticulum (ER) stress, and the UPR-based long-term protective regulatory pathway inhibits the aggregation of unfolded proteins, thereby maintaining the stability of the ER and enabling the continued survival of KRAS-mutant tumors. However, the critical factors that affect the regulation of ER homeostasis in KRAS-mutant CRC are still unclear. Mono-ADP ribosylation (MARylation) catalyzed by ART1 is the most important modification of GRP78/BiP and stabilizes the internal environment of the ER. In this study, KRAS mutation increased the levels of ART1, ER stress, and MARylated GRP78/BiP in CRC cells. Inhibiting MARylated GRP78/BiP can impede the downstream IRE1α/XBP1/TFAF2/JNK and PERK/eIF2α/ATF4 cascades by affecting the binding and dissociation of GRP78/BiP with receptors to hinder the growth of KRAS-mutant CRC cells and accelerate their apoptosis. We propose that KRAS-mutant CRC cells are more sensitive to intervention with MARylated GRP78/BiP because more modifications are needed to maintain ER stability. We also conducted a preliminary study on the specific site of function. Clarifying this molecular mechanism can provide a experimental basis for identifying effective targets for the intervention of KRAS-mutant CRC.

Authors

Shuxian Zhang, Xiaodan Chen, Qian Gong, Jing Huang, Yi Tang, Ming Xiao, Ming Li, Qingshu Li, Yalan Wang

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Figure 7

Preliminary study on arginine mono-ADP-ribosylation site of GRP78/BiP.

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Preliminary study on arginine mono-ADP-ribosylation site of GRP78/BiP. (...
(A) The position of arginines 470, 492, and 214 on the GRP78 protein. (B) Three-dimensional protein structure of GRP78 after arginines 470, 492, and 214 were mutated to lysine. (C) Effects of downstream UPR signaling pathways after GRP78/BiPR470+492K and GRP78/BiPR214K plasmids transfected into G12D cells. *P < 0.01 by 1-way ANOVA with Tukey’s HSD test (mean ± SEM, n = 3). (D) Schematic diagram of arginine–mono-ADP-ribosylated GRP78/BiP involved in the regulation of ER homeostasis under the state of ER stress caused by KRAS mutation: ART1 catalyzes the arginine mono-ADP-ribosylation of GRP78/BiP to inactivate it and release the receptors bound to it. The downstream UPR signaling pathway is continuously activated to help maintain the homeostasis of the ER and the survival of tumor cells. (E) Schematic diagram of the effect of interference with arginine–mono-ADP-ribosylated GRP78/BiP on the UPR signaling pathway. Interfering with GRP78/BiP arginine mono-ADP-ribosylation modification can downregulate the expression of GRP78/BiP; limited GRP78/BiP can bind to unfolded protein and sensors PERK and IRE1α, inhibiting the IRE1α/XBP1/TFAF2/JNK pathway. The PERK/eIF2α/ATF4 signaling pathway further leads to the reduction of GRP78 expression, damages the ER stress regulation mechanism, increases the pressure of the internal environment, hinders the growth of tumor cells, and the cells tend to undergo apoptosis.