Targeting the GD3 acetylation pathway selectively induces apoptosis in glioblastoma

Birks, S.; Danquah, J; King, Linda A.; Vlasak, Reinhardt; Górecki, Dariusz C.; Pilkington, Geoffrey J.

doi:10.1093/neuonc/nor108

Cited by 59 publications

(70 citation statements)

References 45 publications

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“…RTKs are located in glycolipidenriched microdomains, and changes in gangliosides modify the molecular composition and the structure of glycolipid-enriched microdomains, leading to modifications in the location and organization of RTKs in the cellular membrane and altered activation 53,169 . Further regulation of specific ganglioside GD3 due to formation of 9-O-acetyl GD3 that renders GD3 unable to induce apoptosis has been shown in gliomas 170 .…”

Section: Tumour Editingmentioning

confidence: 99%

Glycosylation in cancer: mechanisms and clinical implications

2015

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Despite recent progress in understanding the cancer genome, there is still a relative delay in understanding the full aspects of the glycome and glycoproteome of cancer. Glycobiology has been instrumental in relevant discoveries in various biological and medical fields, and has contributed to the deciphering of several human diseases. Glycans are involved in fundamental molecular and cell biology processes occurring in cancer, such as cell signalling and communication, tumour cell dissociation and invasion, cell-matrix interactions, tumour angiogenesis, immune modulation and metastasis formation. The roles of glycans in cancer have been highlighted by the fact that alterations in glycosylation regulate the development and progression of cancer, serving as important biomarkers and providing a set of specific targets for therapeutic intervention. This Review discusses the role of glycans in fundamental mechanisms controlling cancer development and progression, and their applications in oncology.

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Section: Tumour Editingmentioning

confidence: 99%

Glycosylation in cancer: mechanisms and clinical implications

2015

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“…GD3 expression is upregulated in neoplastic cells where it regulates tumour invasion and survival [73]. Although an increase in GD3 would normally induce apoptosis, in glioblastomas addition of an acetyl group to the terminal sialic acid (to produce 9-O-acetyl GD3) makes GD3 unable to induce apoptosis, thus promoting tumour survival [74]. Ceramide accumulation also plays a role in programmed cell death [75].…”

Section: Resisting Cell Deathmentioning

confidence: 99%

Hallmarks of glycosylation in cancer

2016

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Aberrant glycosylation plays a fundamental role in key pathological steps of tumour development and progression. Glycans have roles in cancer cell signalling, tumour cell dissociation and invasion, cell-matrix interactions, angiogenesis, metastasis and immune modulation. Aberrant glycosylation is often cited as a ‘hallmark of cancer’ but is notably absent from both the original hallmarks of cancer and from the next generation of emerging hallmarks. This review discusses how glycosylation is clearly an enabling characteristic that is causally associated with the acquisition of all the hallmark capabilities. Rather than aberrant glycosylation being itself a hallmark of cancer, another perspective is that glycans play a role in every recognised cancer hallmark.

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“…In tumor cells, such as melanoma, O -acetyl-GD3 seems to contribute to tumor cell proliferation [76]. In glioblastoma, it may also promote tumor cell survival [77]. Similar observations were reported in acute lymphoblastic leukemia cells [74, 78] in which O- acetyl-GD3 seems further to contribute to their drug resistance capacity [79].…”

Section: Functional Aspects Of O-acetyl-gd2mentioning

confidence: 64%

“…Importantly, the evidence for the antiapoptotic functions of O -acetyl-GD3 in the above studies remains indirect. In addition to the effects of mAbs specific for O -acetyl-GD3 [68, 72, 73, 80], they consist of the effects induced by the addition of O -acetyl-GD3 into cells [74, 75] and the effect of the viral 9- O -acetylesterase [69, 76, 77, 79]. …”

Section: Functional Aspects Of O-acetyl-gd2mentioning

confidence: 99%

“…Therefore, it is not excluded that the mechanisms evidenced in these studies also involved O- acetyl-GD2. Hence, O -acetyl-GD2 may behave very similarly to GD2 in mediating apoptosis in the GD2/ O AcGD2-expressing tumor cells [81, 83–85], in disagreement with the antiapoptotic role evidenced for O- acetyl-GD3 [74, 77–79]. …”

Section: Functional Aspects Of O-acetyl-gd2mentioning

confidence: 99%

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TargetingO-Acetyl-GD2 Ganglioside for Cancer Immunotherapy

Fleurence

Fougeray

Bahri

et al. 2017

Journal of Immunology Research

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Target selection is a key feature in cancer immunotherapy, a promising field in cancer research. In this respect, gangliosides, a broad family of structurally related glycolipids, were suggested as potential targets for cancer immunotherapy based on their higher abundance in tumors when compared with the matched normal tissues. GD2 is the first ganglioside proven to be an effective target antigen for cancer immunotherapy with the regulatory approval of dinutuximab, a chimeric anti-GD2 therapeutic antibody. Although the therapeutic efficacy of anti-GD2 monoclonal antibodies is well documented, neuropathic pain may limit its application. O-Acetyl-GD2, the O-acetylated-derivative of GD2, has recently received attention as novel antigen to target GD2-positive cancers. The present paper examines the role of O-acetyl-GD2 in tumor biology as well as the available preclinical data of anti-O-acetyl-GD2 monoclonal antibodies. A discussion on the relevance of O-acetyl-GD2 in chimeric antigen receptor T cell therapy development is also included.

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Targeting the GD3 acetylation pathway selectively induces apoptosis in glioblastoma

Cited by 59 publications

References 45 publications

Glycosylation in cancer: mechanisms and clinical implications

Glycosylation in cancer: mechanisms and clinical implications

Hallmarks of glycosylation in cancer

TargetingO-Acetyl-GD2 Ganglioside for Cancer Immunotherapy

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