Comparative Expression Study of the Endo–G Protein Coupled Receptor (GPCR) Repertoire in Human Glioblastoma Cancer Stem-like Cells, U87-MG Cells and Non Malignant Cells of Neural Origin Unveils New Potential Therapeutic Targets

Fève, Marie; Saliou, Jean‐Michel; Zeniou, Maria; Lennon, Sarah; Carapito, Christine; Dong, Jihu; Dorsselaer, Alain Van; Junier, Marie‐Pierre; Chneiweiss, Hervé; Cianférani, Sarah; Haiech, Jacques; Kilhoffer, Marie‐Claude

doi:10.1371/journal.pone.0091519

Cited by 28 publications

(25 citation statements)

References 177 publications

(198 reference statements)

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“…That said, the attractiveness of PAR1 as a therapeutic target is tempered by its expression by normal astrocytic and neuronal populations alike, 52 as well as by resident neural stem cells. 53,54 Although tumor cells, and especially the tumor-initiating fraction thereof, selectively overexpress the receptor, its lower level basal expression by other normal cells of the central nervous system introduces the possibility of dose-dependent off-target effects that will mandate cautious titration in any therapeutic efforts targeting PAR1 itself. In that regard, those PAR1-targeted small molecules now available for clinical use, such as the novel direct PAR1 antagonist vorapaxar, have limited brain–barrier penetrance, further limiting current options for targeting PAR1-overexpressing TPCs.…”

Section: Discussionmentioning

confidence: 99%

PAR1 inhibition suppresses the self-renewal and growth of A2B5-defined glioma progenitor cells and their derived gliomas in vivo

Auvergne

Connell

et al. 2015

Oncogene

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Glioblastoma (GBM) remains the most common and lethal intracranial tumor. In a comparison of gene expression by A2B5-defined tumor-initiating progenitor cells (TPCs) to glial progenitor cells derived from normal adult human brain, we found that the F2R gene encoding PAR1 was differentially overexpressed by A2B5-sorted TPCs isolated from gliomas at all stages of malignant development. In this study, we asked if PAR1 is causally associated with glioma progression. Lentiviral knockdown of PAR1 inhibited the expansion and self-renewal of human GBM-derived A2B5+ TPCs in vitro, while pharmacological inhibition of PAR 1 similarly slowed both the growth and migration of A2B5+ TPCs in culture. In addition, PAR1 silencing potently suppressed tumor expansion in vivo, and significantly prolonged the survival of mice following intracranial transplantation of human TPCs. These data strongly suggest the importance of PAR1 to the self-renewal and tumorigenicity of A2B5-defined glioma TPCs; as such, the abrogation of PAR1-dependent signaling pathways may prove a promising strategy for gliomas.

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Section: Discussionmentioning

confidence: 99%

PAR1 inhibition suppresses the self-renewal and growth of A2B5-defined glioma progenitor cells and their derived gliomas in vivo

Auvergne

Connell

et al. 2015

Oncogene

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“…Most cells express multiple GPCR subtypes and are consequently able to respond to at least a corresponding number of different agonists (Vassilatis et al, 2003;Regard et al, 2008;Insel et al, 2012;Fève et al, 2014). Distinct GPCRs can affect each other's functions to come to an integrative cellular response through direct physical interactions in heteromeric complexes.…”

Section: Introductionmentioning

confidence: 99%

G Protein–Coupled Receptor Multimers: A Question Still Open Despite the Use of Novel Approaches

Vischer

Castro

2015

Mol Pharmacol

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Heteromerization of G protein-coupled receptors (GPCRs) can significantly change the functional properties of involved receptors. Various biochemical and biophysical methodologies have been developed in the last two decades to identify and functionally evaluate GPCR heteromers in heterologous cells, with recent approaches focusing on GPCR complex stoichiometry and stability. Yet validation of these observations in native tissues is still lagging behind for the majority of GPCR heteromers. Remarkably, recent studies, particularly some involving advanced fluorescence microscopy techniques, are contributing to our current knowledge of aspects that were not well known until now, such as GPCR complex stoichiometry and stability. In parallel, a growing effort is being applied to move the field forward into native systems. This short review will highlight recent developments to study the stoichiometry and stability of GPCR complexes and methodologies to detect native GPCR dimers.

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“…Because the search for new targets to treat these malignant tumors is ongoing, an exhaustive study published by Feve, Saliou, and Zeniou et al examined the GPCR expression profile between primary GSCs, U87MG cells, neural precursor cells, and healthy astrocytes to identify new GPCR candidates that are differentially expressed and could be used for targeted therapies (Feve et al, 2014)…”

Section: Discussionmentioning

confidence: 99%

“…A recent study aimed at profiling GPCR expression in GSCs, healthy astrocytes, neural stem cells, and GBM cell lines identified eight GPCRs that are exclusively expressed by GSCs (including LPHN2, GPR37, CALCRL, HRH2, GPR73, S1PR 5 , GPR128, and GPR103), revealing several new therapeutic targets to explore within the GPCR family (Feve et al, 2014). Accordingly, GPCRs represent valuable molecular modulators to control the stem cell phenotype.…”

Section: Gpcrs: a Promising Class Of Targets For Treating Gbmmentioning

confidence: 99%

G protein-coupled receptors as oncogenic signals in glioma: Emerging therapeutic avenues

Cherry

Stella

2014

Neuroscience

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Gliomas are the most common malignant intracranial tumors. Newly developed targeted therapies for these cancers aim to inhibit oncogenic signals, many of which emanate from receptor tyrosine kinases, including the epidermal growth factor receptor (EGFR) and the vascular endothelial growth factor receptor (VEGFR). Unfortunately, the first generation treatments targeting these oncogenic signals provide little survival benefit in both mouse xenograft models and human patients. The search for new treatment options has uncovered several G protein-coupled receptor (GPCR) candidates and generated a growing interest in this class of proteins as alternative therapeutic targets for the treatment of various cancers, including GBM. GPCRs constitute a large family of membrane receptors that influence oncogenic pathways through canonical and non-canonical signaling. Accordingly, evidence indicates that GPCRs display a unique ability to crosstalk with receptor tyrosine kinases, making them important molecular components controlling tumorigenesis. This review summarizes the current research on GPCR functionality in gliomas and explores the potential of modulating these receptors to treat this devastating disease.

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Comparative Expression Study of the Endo–G Protein Coupled Receptor (GPCR) Repertoire in Human Glioblastoma Cancer Stem-like Cells, U87-MG Cells and Non Malignant Cells of Neural Origin Unveils New Potential Therapeutic Targets

Cited by 28 publications

References 177 publications

PAR1 inhibition suppresses the self-renewal and growth of A2B5-defined glioma progenitor cells and their derived gliomas in vivo

PAR1 inhibition suppresses the self-renewal and growth of A2B5-defined glioma progenitor cells and their derived gliomas in vivo

G Protein–Coupled Receptor Multimers: A Question Still Open Despite the Use of Novel Approaches

G protein-coupled receptors as oncogenic signals in glioma: Emerging therapeutic avenues

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