Prostaglandin receptor EP2 is a novel molecular target for high-risk neuroblastoma

As the third-most common type of cancers in infants and young children, neuroblastoma accounts for nearly 10% of all childhood cancers. Despite remarkable advances in tumor diagnosis and management during the past decades, the five-year survival rates for patients with high-risk neuroblastoma remain below 50%. Developing new therapies for this devastating type of childhood cancer is an urgent unmet need. Cyclooxygenase (COX) via synthesizing prostaglandin E2 (PGE2) promotes tumor cell proliferation, survival, migration and invasion, and fosters an inflammation-enriched microenvironment that can facilitate angiogenesis, immune evasion and treatment resistance. However, which downstream PGE2 receptor subtype – namely EP1, EP2, EP3 and EP4 – is directly involved in COX activity-promoted neuroblastoma growth remains elusive. Analyzing five major neuroblastoma patient datasets: Versteeg-88, Kocak-649, SEQC-498, Primary NRC-283, and Oberthuer-251, we show that COX-1/PGE2/EP2 signaling axis is highly associated with the aggressiveness of human neuroblastoma. A time-resolved fluorescence resonance energy transfer (TR-FRET) method reveals EP2 as the key Gαs-coupled receptor that mediates PGE2-initiated cAMP signaling in neuroblastoma cells with various risk factors. Taking advantage of novel, selective and bioavailable small-molecule antagonists that we recently developed to target the PGE2/EP2 signaling in vivo, we have demonstrated that pharmacological inhibition of the peripheral EP2 receptor substantially impairs the growth of human neuroblastoma xenografts and the associated angiogenesis in mice. Collectively, our results suggest that the PGE2/EP2 pathway contributes to the growth and malignant potential of human neuroblastoma cells; pharmacological inhibition on EP2 receptor by our drug-like compounds might provide a novel therapeutic strategy for this deadly pediatric cancer.

• Publication year

  2020

• Venue

  bioRxiv

• Publication date

  2020-02-25

• Fields of study

  Biology, Medicine

• Identifiers
  DOI 10.1101/2020.02.24.963108
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

• Suppressing pro‐inflammatory prostaglandin signaling attenuates excitotoxicity‐associated neuronal inflammation and injury

  2019cited by this paper
• Small‐molecule inhibition of prostaglandin E receptor 2 impairs cyclooxygenase‐associated malignant glioma growth

  2019cited by this paper
• G protein-coupled receptors in acquired epilepsy: Druggability and translatability.

  2019cited by this paper
• ALK in Neuroblastoma: Biological and Therapeutic Implications

  2018influential reference
• Inhibition of Microsomal Prostaglandin E Synthase-1 in Cancer-Associated Fibroblasts Suppresses Neuroblastoma Tumor Growth

  2018influential reference
• Colony stimulating factor 1 receptor blockade improves the efficacy of chemotherapy against human neuroblastoma in the absence of T lymphocytes

  2018cited by this paper
• Discovery of 2-Piperidinyl Phenyl Benzamides and Trisubstituted Pyrimidines as Positive Allosteric Modulators of the Prostaglandin Receptor EP2.

  2018cited by this paper
• MYC Drives a Subset of High-Risk Pediatric Neuroblastomas and Is Activated through Mechanisms Including Enhancer Hijacking and Focal Enhancer Amplification.

  2018cited by this paper
• Targeting Histone Demethylases in MYC-Driven Neuroblastomas with Ciclopirox.

  2017cited by this paper
• Activation of PGE2/EP2 and PGE2/EP4 signaling pathways positively regulate the level of PD-1 in infiltrating CD8+ T cells in patients with lung cancer.

  2017cited by this paper
• 11q deletion in neuroblastoma: a review of biological and clinical implications

  2017cited by this paper
• Prostaglandin E2-EP2 signaling as a node of chronic inflammation in the colon tumor microenvironment

  2017cited by this paper
• Inhibition of chemerin/CMKLR1 axis in neuroblastoma cells reduces clonogenicity and cell viability in vitro and impairs tumor growth in vivo

  2017cited by this paper
• Cyclooxygenase-2 in glioblastoma multiforme.

  2017cited by this paper
• Prostaglandin E2-Induced COX-2 Expressions via EP2 and EP4 Signaling Pathways in Human LoVo Colon Cancer Cells

  2017cited by this paper
• Prostaglandin E2 Signaling: Alternative Target for Glioblastoma?

  2017cited by this paper
• Tumor-associated macrophages promote neuroblastoma via STAT3 phosphorylation and up-regulation of c-MYC

  2017influential reference
• Cyclooxygenase-2 contributes to oxidopamine-mediated neuronal inflammation and injury via the prostaglandin E2 receptor EP2 subtype

  2017cited by this paper
• Anti-Inflammatory Small Molecules To Treat Seizures and Epilepsy: From Bench to Bedside.

  2016cited by this paper
• Defining the therapeutic time window for suppressing the inflammatory prostaglandin E2 signaling after status epilepticus

  2016cited by this paper
• MYC-Driven Neuroblastomas Are Addicted to a Telomerase-Independent Function of Dyskerin.

  2016cited by this paper
• TGFβR1 Blockade with Galunisertib (LY2157299) Enhances Anti-Neuroblastoma Activity of the Anti-GD2 Antibody Dinutuximab (ch14.18) with Natural Killer Cells

  2016cited by this paper
• Collaboration of cancer‐associated fibroblasts and tumour‐associated macrophages for neuroblastoma development

  2016cited by this paper
• IL-6 Overexpression in ERG-Positive Prostate Cancer Is Mediated by Prostaglandin Receptor EP2.

  2016cited by this paper
• Growth Differentiation Factor 15 is a Novel Regulator of the Stem Cell-Like Phenotype in Neuroblastoma

  2016cited by this paper
• Prostaglandin E2 and vascular endothelial growth factor A mediate angiogenesis of human ovarian follicular endothelial cells.

  2016cited by this paper
• COX/mPGES-1/PGE2 pathway depicts an inflammatory-dependent high-risk neuroblastoma subset

  2015cited by this paper
• Prostaglandin E2 and the EP receptors in malignancy: possible therapeutic targets?

  2015cited by this paper
• Definition of Prostaglandin E2-EP2 Signals in the Colon Tumor Microenvironment That Amplify Inflammation and Tumor Growth.

  2015cited by this paper
• Immunosuppression in acutely decompensated cirrhosis is mediated by prostaglandin E2

  2014cited by this paper
• Low-dose aspirin delays an inflammatory tumor progression in vivo in a transgenic mouse model of neuroblastoma.

  2013cited by this paper
• Neuroblastoma-Derived TGF-β1 Modulates the Chemokine Receptor Repertoire of Human Resting NK Cells

  2013cited by this paper
• Inhibition of the prostaglandin receptor EP2 following status epilepticus reduces delayed mortality and brain inflammation

  2013cited by this paper
• Prostaglandin receptor EP2 in the crosshairs of anti-inflammation, anti-cancer, and neuroprotection.

  2013cited by this paper
• Discovery and characterization of carbamothioylacrylamides as EP2 selective antagonists.

  2013cited by this paper
• Role of Prostaglandin Receptor EP2 in the Regulations of Cancer Cell Proliferation, Invasion, and Inflammation

  2013cited by this paper
• Neuroblastoma-related inflammation

  2013cited by this paper
• EP2 Receptor Signaling Pathways Regulate Classical Activation of Microglia*

  2013cited by this paper
• Critical role of STAT3 in IL-6-mediated drug resistance in human neuroblastoma.

  2013cited by this paper
• Frondoside A inhibits breast cancer metastasis and antagonizes prostaglandin E receptors EP4 and EP2

  2012cited by this paper
• Autocrine Prostaglandin E2 Signaling Promotes Tumor Cell Survival and Proliferation in Childhood Neuroblastoma

  2012cited by this paper
• Vascular COX-2 Modulates Blood Pressure and Thrombosis in Mice

  2012cited by this paper
• Involvement of the CXCR7/CXCR4/CXCL12 Axis in the Malignant Progression of Human Neuroblastoma

  2012cited by this paper
• Small molecule antagonist reveals seizure-induced mediation of neuronal injury by prostaglandin E2 receptor subtype EP2

  2012cited by this paper
• Prostanoid receptors.

  2011cited by this paper
• The role of the EP receptors for prostaglandin E2 in skin and skin cancer

  2011cited by this paper
• In vitro and in vivo characterization of PF‐04418948, a novel, potent and selective prostaglandin EP2 receptor antagonist

  2011cited by this paper
• Cytokines in neuroblastoma: from pathogenesis to treatment.

  2011influential reference
• TNF-α Contributes to Caspase-3 Independent Apoptosis in Neuroblastoma Cells: Role of NFAT

  2011influential reference
• Periostin expression and epithelial-mesenchymal transition in cancer: a review and an update

  2011influential reference
• Recent advances in neuroblastoma.

  2010cited by this paper
• Neuroprotection by selective allosteric potentiators of the EP2 prostaglandin receptor

  2010cited by this paper
• Eicosanoids and cancer

  2010influential reference
• High-risk neuroblastoma tumors with 11q-deletion display a poor prognostic, chromosome instability phenotype with later onset

  2010influential reference
• Emotion recollected in tranquility: lessons learned from the COX-2 saga.

  2010cited by this paper
• Immunity, inflammation, and cancer.

  2010cited by this paper
• Vascular endothelial growth factor in children with neuroblastoma: a retrospective analysis

  2009cited by this paper
• The involvement of the fractalkine receptor in the transmigration of neuroblastoma cells through bone-marrow endothelial cells.

  2009cited by this paper
• Identification of membrane-type 1 matrix metalloproteinase tyrosine phosphorylation in association with neuroblastoma progression

  2009cited by this paper
• Impaired cognition, sensorimotor gating, and hippocampal long-term depression in mice lacking the prostaglandin E2 EP2 receptor.

  2009cited by this paper
• Altered hippocampal long‐term synaptic plasticity in mice deficient in the PGE2 EP2 receptor

  2009cited by this paper
• Immunologic and Therapeutic Synergy of IL-27 and IL-2: Enhancement of T Cell Sensitization, Tumor-Specific CTL Reactivity and Complete Regression of Disseminated Neuroblastoma Metastases in the Liver and Bone Marrow1

  2009cited by this paper
• Angiogenesis as a target in neuroblastoma.

  2008cited by this paper
• Cancer-related inflammation

  2008cited by this paper
• Prostaglandin E2 regulates tumor angiogenesis in prostate cancer.

  2008cited by this paper
• Prostaglandin E2 Regulates Angiogenesis via Activation of Fibroblast Growth Factor Receptor-1*

  2008cited by this paper
• EP2 prostanoid receptor promotes squamous cell carcinoma growth through epidermal growth factor receptor transactivation and iNOS and ERK1/2 pathways

  2007cited by this paper
• Membrane Prostaglandin E Synthase-1: A Novel Therapeutic Target

  2007influential reference
• Tumor origin of endothelial cells in human neuroblastoma.

  2007influential reference
• The role of interleukin 1 in growth and metastasis of human cancer xenografts.

  2006cited by this paper
• EP2, a receptor for PGE2, regulates tumor angiogenesis through direct effects on endothelial cell motility and survival

  2006cited by this paper
• Proliferation of human neuroblastomas mediated by the epidermal growth factor receptor.

  2005influential reference
• Lack of expression of the EP2 but not EP3 receptor for prostaglandin E2 results in suppression of skin tumor development.

  2005cited by this paper
• Endothelin-1-induced Prostaglandin E2-EP2, EP4 Signaling Regulates Vascular Endothelial Growth Factor Production and Ovarian Carcinoma Cell Invasion*

  2004cited by this paper
• Natural Killer T Cells Infiltrate Neuroblastomas Expressing the Chemokine CCL2

  2004cited by this paper
• Expression of the periostin mRNA level in neuroblastoma.

  2002influential reference
• Activation of prostaglandin E2-receptor EP2 and EP4 pathways induces growth inhibition in human gastric carcinoma cell lines.

  2002cited by this paper
• Brain-derived Neurotrophic Factor Promotes Survival and Chemoprotection of Human Neuroblastoma Cells*

  1999cited by this paper
• Matrix metalloproteinases-2 and -9 are expressed in human neuroblastoma: contribution of stromal cells to their production and correlation with metastasis.

  1998cited by this paper
• Involvement of endothelial PECAM-1/CD31 in angiogenesis.

  1997cited by this paper

• Prostaglandin E2 in neuroblastoma: Targeting synthesis or signaling?

  2022cites this paper
• EP2 Antagonists (2011-2021): A Decade's Journey from Discovery to Therapeutics.

  2021cites this paper
• Prostaglandin Pathways: Opportunities for Cancer Prevention and Therapy

  2021cites this paper