Qki deficiency maintains stemness of glioma stem cells in suboptimal environment by downregulating endolysosomal degradation

Shingu, Takashi; Ho, Allen L.; Yuan, Liang; Zhou, Xin; Dai, Congxin; Zheng, Siyuan; Wang, Qianghu; Zhong, Yi; Chang, Qing; Horner, James W.; Liebelt, Brandon D.; Yu, Yao; Hu, Baoli; Chen, Yiwen; Fuller, Gregory N.; Verhaak, Roeland; Heimberger, Amy B.; Hu, Jian

doi:10.1038/ng.3711

Cited by 87 publications

(113 citation statements)

References 48 publications

(61 reference statements)

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“…Thus, QKI may play a dual role in cancer progression, limiting the initial formation of tumours but increasing their subsequent invasiveness through regulating the splicing of different target genes, such as through promotion of mesenchymal ENAH splicing. It is also important to note that although QKI-5 knockdown produced modest and inconsistent effects on gene expression ( Fig EV4), we cannot rule out that QKI-5 may also directly or indirectly influence specific mRNA or miRNAs to regulate different aspects of cancer progression, as has been reported in other contexts (Chen et al, 2012;Lu et al, 2014;Yu et al, 2014;Shingu et al, 2017;Zhou et al, 2017). Similarly, QKI-5 also regulates circRNA formation during HMLE cell EMT (Conn et al, 2015), and although the functions of these molecules remain poorly understood, they could contribute to epithelialmesenchymal plasticity.…”

Section: Discussionmentioning

confidence: 81%

miR‐200/375 control epithelial plasticity‐associated alternative splicing by repressing the RNA ‐binding protein Quaking

et al. 2018

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Members of the miR‐200 family are critical gatekeepers of the epithelial state, restraining expression of pro‐mesenchymal genes that drive epithelial–mesenchymal transition (EMT) and contribute to metastatic cancer progression. Here, we show that miR‐200c and another epithelial‐enriched miRNA, miR‐375, exert widespread control of alternative splicing in cancer cells by suppressing the RNA‐binding protein Quaking (QKI). During EMT, QKI‐5 directly binds to and regulates hundreds of alternative splicing targets and exerts pleiotropic effects, such as increasing cell migration and invasion and restraining tumour growth, without appreciably affecting mRNA levels. QKI‐5 is both necessary and sufficient to direct EMT‐associated alternative splicing changes, and this splicing signature is broadly conserved across many epithelial‐derived cancer types. Importantly, several actin cytoskeleton‐associated genes are directly targeted by both QKI and miR‐200c, revealing coordinated control of alternative splicing and mRNA abundance during EMT. These findings demonstrate the existence of a miR‐200/miR‐375/QKI axis that impacts cancer‐associated epithelial cell plasticity through widespread control of alternative splicing.

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Section: Discussionmentioning

confidence: 81%

miR‐200/375 control epithelial plasticity‐associated alternative splicing by repressing the RNA ‐binding protein Quaking

et al. 2018

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“…In contrast, QKI‐6 knockdown inversely affected the bladder cancer 5637 cells. Although QKI‐6 data in human cancer are limited, our current data further support a role for QKI‐6 in different human cancers . Our current study in bladder cancer using both ex vivo and in vitro approaches is novel, as our data indicate that QKI‐6 plays a tumour suppressive role in bladder cancer.…”

Section: Discussionmentioning

confidence: 99%

“…Recently, altered QKI expression was implicated in various human cancers, including colorectal cancer, 33 paediatric brain tumours, 34 glioma, 35 renal clear cell carcinoma, 9 lung cancer 17 and prostate cancer. 18 In this study, we measured QKI-6 expression and determined its role in regulating bladder cancer in vitro and in vivo, and we also investigated the molecular mechanism underlying QKI-6's effect in bladder cancer cells.…”

Section: Discussionmentioning

confidence: 99%

QKI‐6 inhibits bladder cancer malignant behaviours through down‐regulating E2F3 and NF‐κB signalling

Shi

Deng

Zhou

et al. 2019

J Cellular Molecular Medi

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Quaking homolog (QKI) is a member of the RNA‐binding signal transduction and activator of proteins family. Previous studies showed that QKI possesses the tumour suppressor activity in human cancers by interacting with the 3'‐untraslated region (3'‐UTR) of various gene transcripts via the STAR domain. This study first assessed the association of QKI‐6 expression with clinicopathological and survival data from bladder cancer patients and then investigated the underlying molecular mechanisms. Bladder cancer tissues (n = 223) were subjected to immunohistochemistry, and tumour cell lines and nude mice were used for different in vitro and in vivo assays following QKI‐6 overexpression or knockdown. QKI‐6 down‐regulation was associated with advanced tumour TNM stages and poor patient overall survival. QKI‐6 overexpression inhibited bladder cancer cell growth and invasion capacity, but induced tumour cell apoptosis and cell cycle arrest. Furthermore, ectopic expression of QKI‐6 reduced tumour xenograft growth and expression of proliferation markers, Ki67 and PCNA. However, knockdown of QKI‐6 expression had opposite effects in vitro and in vivo. QKI‐6 inhibited expression of E2 transcription factor 3 (E2F3) by directly binding to the E2F3 3'‐UTR, whereas E2F3 induced QKI‐6 transcription by binding to the QKI‐6 promoter in negative feedback mechanism. QKI‐6 expression also suppressed activity and expression of nuclear factor‐κB (NF‐κB) signalling proteins in vitro, implying a novel multilevel regulatory network downstream of QKI‐6. In conclusion, QKI‐6 down‐regulation contributes to bladder cancer development and progression.

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“…GSCs essentially received positive signals from endothelial cells and pericytes, such as ligand/receptor triggers of stemness pathways and adhesion components of the extracellular matrix 13,14,15,16,17 . They are also protected in rather unfavorable conditions where their stemness traits resist hypoxic stress, acidification, and nutrient deprivation 11,12,18 . Recently, it has been suggested that this latter capacity is linked to the function of the RNA binding protein QKI in the down-regulation of endocytosis, receptor trafficking and endo-lysosome-mediated degradation 18 .…”

Section: Introductionmentioning

confidence: 99%

Control of the Endo-Lysosome Homeostasis by the Paracaspase MALT1 regulates Glioma Cell Survival

Jacobs

André-Grégoire

Maghe

et al. 2019

Preprint

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Glioblastoma is one of the most lethal forms of adult cancer with a median survival of around 15 months. A potential treatment strategy involves targeting glioblastoma stem-like cells (GSC), which constitute a cell autonomous reservoir of aberrant cells able to initiate, maintain, and repopulate the tumor mass. Here, we report that the expression of the paracaspase mucosa-associated lymphoid tissue l (MALT1), a protease previously linked to antigen receptor-mediated NF-κB activation and B-cell lymphoma survival, inversely correlates with patient probability of survival. The knockdown of MALT1 largely impaired the expansion of patient-derived stem-like cells in vitro, and this could be recapitulated with pharmacological inhibitors, in vitro and in vivo. Blocking MALT1 protease activity increases the endo-lysosome abundance, impaired autophagic flux, and culminates in lysosomalmediated death, concomitantly with mTOR inactivation and dispersion from lysosomes.These findings place MALT1 as a new druggable target involved in glioblastoma and unveil ways to modulate the homeostasis of endo-lysosomes.

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Qki deficiency maintains stemness of glioma stem cells in suboptimal environment by downregulating endolysosomal degradation

Cited by 87 publications

References 48 publications

miR‐200/375 control epithelial plasticity‐associated alternative splicing by repressing the RNA ‐binding protein Quaking

miR‐200/375 control epithelial plasticity‐associated alternative splicing by repressing the RNA ‐binding protein Quaking

QKI‐6 inhibits bladder cancer malignant behaviours through down‐regulating E2F3 and NF‐κB signalling

Control of the Endo-Lysosome Homeostasis by the Paracaspase MALT1 regulates Glioma Cell Survival

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