Glutathione reductase mediates drug resistance in glioblastoma cells by regulating redox homeostasis

Zhu, Zhongling; Du, Shuangshuang; Du, Yibo; Ren, Jing; Ying, Guoguang; Zhao, Yan

doi:10.1111/jnc.14250

Cited by 125 publications

(86 citation statements)

References 44 publications

(46 reference statements)

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“…Similar results were reported in clear cell renal carcinoma, where silencing the GSH biosynthesis pathway was shown to trigger ferroptosis (47). Thus, modulation of redox homeostasis by GSH/GSR appears to be an important key modulating sensitivity of cancer cells to chemotherapy (46). Interestingly, in our study, decreased levels of glutathione metabolism-related genes GSS, GSR, GPX2, IDH were observed in cells in which FZD7 was knocked down and increased expression of this signature was recorded in cells overexpressing the receptor.…”

Section: Discussionsupporting

confidence: 79%

“…Lower levels of endogenous ROS and higher levels antioxidants and GSH were found in temozolomide (TMZ)-resistant glioblastoma cells. The expression of GSR was also higher in TMZ-resistant compared to sensitive cells and silencing GSR in drug-resistant cells improved sensitivity to TMZ or cisplatin (46). Similar results were reported in clear cell renal carcinoma, where silencing the GSH biosynthesis pathway was shown to trigger ferroptosis (47).…”

Section: Discussionsupporting

confidence: 77%

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Frizzled-7 Identifies Platinum Tolerant Ovarian Cancer Cells Susceptible to Ferroptosis

Wang

Zhao

Condello

et al. 2020

Preprint

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The authors have no conflicts of interest to declare. AbstractDefining traits of platinum tolerant cancer cells could expose new treatment vulnerabilities. Here, new markers associated with platinum tolerant cells and tumors were identified by using in vitro and in vivo ovarian cancer (OC) models treated repetitively with carboplatin and validated in human specimens. Platinum-tolerant cells and tumors were found to be enriched in ALDH (+) cells, formed more spheroids, and expressed increased levels of stemness-related transcription factors compared to parental cells. Additionally, platinum-tolerant cells and tumors highly expressed the Wnt receptor, Frizzled 7 (FZD7). FZD7 knock down improved sensitivity to platinum, decreased spheroid formation, and delayed tumor initiation. The molecular signature distinguishing FZD7(+) from FZD7(-) cells included epithelial-to-mesenchymal (EMT), stemness, and oxidative phosphorylation enriched gene sets. Overexpression of FZD7 activated the oncogenic factor Tp63, driving upregulation of glutathione metabolism pathways, including glutathione peroxidase 4 (GPX4), which protects cells from chemotherapy-induced oxidative stress. FZD7(+) platinum-tolerant OC cells were more sensitive and underwent ferroptosis after treatment with GPX4 inhibitors. FZD7, Tp63 and glutathione metabolism gene sets were strongly correlated in the OC Tumor Cancer Genome Atlas (TCGA) database and in human OC specimens residual after chemotherapy. These results support the existence of a platinum-tolerant cell population with partial stem cell features, characterized by FZD7 expression and dependent on FZD7-b-catenin-Tp63-GPX4 pathway for survival. The findings reveal a novel therapeutic vulnerability of platinum tolerant cancer cells and provide new insight into a potential "persister cancer cell" phenotype.glutathione peroxidase 4 (GPX4) tumor initiation capacity (TIC) (10). Importantly, ovarian CSCs possess a phenotype associated with drug resistance, including enhanced DNA repair, diminished apoptotic responses, increased efflux mechanisms and enhanced antioxidation defense (8,11), which allow them to escape from chemotherapy. The boundaries between stemness and chemotherapy tolerant phenotypes remain blurry and while an overlap exists, it is assumed that distinct pathways drive the two entities.As platinum tolerant cancer cells drive tumor relapse, decreasing survival rate of women with OC, we aimed to identify specific markers, by using in vitro and in vivo models of repeated exposure to the cytotoxic agent. We observed that platinum-tolerant cells and tumors contained an increased ALDH+ cell population, expressing stemness related transcription factors (TFs), and able to form more spheroids compared to chemotherapy naïve cells. We identified the Frizzled 7 receptor (FZD7) as a novel cell surface marker significantly upregulated in the platinum tolerant cell population. FZD7 knock down increased sensitivity to platinum, decreased spheroid formation in vitro, and delayed tumor initiation in vivo. FZD7...

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Section: Discussionsupporting

confidence: 79%

Section: Discussionsupporting

confidence: 77%

Frizzled-7 Identifies Platinum Tolerant Ovarian Cancer Cells Susceptible to Ferroptosis

Wang

Zhao

Condello

et al. 2020

Preprint

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“…Also, the treatment with NMDA along with H 2 O 2 resulted in a significant decrease in the ROS levels of cells, compared with cells exposed to H 2 O 2 alone, in both the cell lines (Figures D and E) indicating the significance or NMDAR in mitigating the ROS in presence of exogenous oxidative stress. Zhu et al () have reported that LN18 and T98G glioma cells expressed high levels of GR, whereas, LN229 and U251MG glioma cells expressed low levels of GR. Therefore, as evidenced by different studies, it can be appreciated that cell‐specific redox balance might differ due to various intrinsic factors; these effects may be attributed as an explanation for observed difference in the ROS level in two cell types used in the current study.…”

Section: Discussionmentioning

confidence: 99%

“…Cancer cells, in addition to producing high levels of ROS, are also likely to be exposed to further oxidative stress by exogenous ROS‐generating agents (Zhu et al, ). In U87MG glioma cells, a 2 h exposure to temozolomide, a DNA alkylating antineoplastic drug resulted in a twofold increase in ROS production (Zhang et al, ).…”

Section: Discussionmentioning

confidence: 99%

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Survival of glioblastoma cells in response to endogenous and exogenous oxidative challenges: possible implication of NMDA receptor‐mediated regulation of redox homeostasis

Nanjaiah

Ramaswamy

Goswami

et al. 2019

Cell Biology International

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Cancer cells are highly metabolically active and produce high levels of reactive oxygen species (ROS). Drug resistance in cancer cells is closely related to their redox status. The role of ROS and its impact on cancer cell survival seems far from elucidation. The mechanisms through which glioblastoma cells overcome aberrant ROS and oxidative stress in a milieu of hypermetabolic state is still elusive. We hypothesize that the formidable growth potential of glioma cells is through manipulation of tumor microenvironment for its survival and growth, which can be attributed to an astute redox regulation through a nexus between activation of N-methyl-D-aspartate receptor (NMDAR) and glutathione (GSH)-based antioxidant prowess. Hence, we examined the NMDAR activation on intracellular ROS level, and cell viability on exposure to hydrogen peroxide (H 2 O 2 ), and antioxidants in glutamate-rich microenvironment of glioblastoma. The activation of NMDAR attenuated the intracellular ROS production in LN18 and U251MG glioma cells. MK-801 significantly reversed this effect. On evaluation of GSH redox cycle in these cells, the level of reduced GSH and glutathione reductase (GR) activity were significantly increased. NMDAR significantly enhanced the cell viability in LN18 and U251MG glioblastoma cells, by attenuating exogenous H 2 O 2 -induced oxidative stress, and significantly increased catalase activity, the key antioxidant that detoxifies H 2 O 2 . We hereby report an unexplored role of NMDAR activation induced protection of the rapidly multiplying glioblastoma cells against both endogenous ROS as well as exogenous oxidative challenges. We propose potentiation of reduced GSH, GR, and catalase in glioblastoma cells through NMDAR as a novel rationale of chemoresistance in glioblastoma.

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Cysteine is a limiting factor for glioma proliferation and survival

et al. 2022

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Nutritional intervention is becoming more prevalent as adjuvant therapy for many cancers in view of the tumor dependence on external sources for some nutrients. However, little is known about the mechanisms that make cancer cells require certain nutrients from the microenvironment. Herein, we report the dependence of glioma cells on exogenous cysteine/cystine, despite this amino acid being nonessential. Using several 13C‐tracers and analysis of cystathionine synthase and cystathioninase levels, we revealed that glioma cells were not able to support glutathione synthesis through the transsulfuration pathway, which allows methionine to be converted to cysteine in cysteine/cystine‐deprived conditions. Therefore, we explored the nutritional deprivation in a mouse model of glioma. Animals subjected to a cysteine/cystine‐free diet survived longer, although this increase did not attain statistical significance, with concomitant reductions in plasma glutathione and cysteine levels. At the end point, however, tumors displayed the ability to synthesize glutathione, even though higher levels of oxidative stress were detected. We observed a compensation from the nutritional intervention revealed as the recovery of cysteine‐related metabolite levels in plasma. Our study highlights a time window where cysteine deprivation can be exploited for additional therapeutic strategies.

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Glutathione reductase mediates drug resistance in glioblastoma cells by regulating redox homeostasis

Cited by 125 publications

References 44 publications

Frizzled-7 Identifies Platinum Tolerant Ovarian Cancer Cells Susceptible to Ferroptosis

Frizzled-7 Identifies Platinum Tolerant Ovarian Cancer Cells Susceptible to Ferroptosis

Survival of glioblastoma cells in response to endogenous and exogenous oxidative challenges: possible implication of NMDA receptor‐mediated regulation of redox homeostasis

Cysteine is a limiting factor for glioma proliferation and survival

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