ST6GAL1-mediated aberrant sialylation promotes prostate cancer progression

Emma Scott¹, Emily Archer Goode¹, Rebecca Garnham¹, Kirsty Hodgson¹, Margarita Orozco-Moreno¹, Helen Turner², Karen Livermore¹, Kyla Putri Nangkana¹, Fiona M Frame³, Abel Bermudez⁴, Fernando Jose Garcia Marques⁴, Urszula L McClurg⁵, Laura Wilson⁶, Huw Thomas⁶, Adriana Buskin⁶, Anastasia Hepburn⁶, Adam Duxfield¹, Kayla Bastian¹, Hayley Pye⁷, Hector M Arredondo⁸, Gerald Hysenaj¹, Susan Heavey⁷, Urszula Stopka-Farooqui⁷, Aiman Haider⁹, Alex Freeman⁹, Saurabh Singh¹⁰, Edward W Johnston¹⁰, Shonit Punwani¹⁰, Bridget Knight¹¹, Paul McCullagh¹², John McGrath¹³, Malcolm Crundwell¹³, Lorna Harries¹⁴, Rakesh Heer^{6

15}, Norman J Maitland³, Hayley Whitaker⁷, Sharon Pitteri⁴, Dean A Troyer¹⁶, Ning Wang⁸, David J Elliott¹, Richard R Drake¹⁷, Jennifer Munkley¹

Affiliations

¹ Newcastle University Centre for Cancer, Newcastle University Institute of Biosciences, Newcastle, UK.
² Cellular Pathology, The Royal Victoria Infirmary, Newcastle upon Tyne, UK.
³ Cancer Research Unit, Department of Biology, University of York, North Yorkshire, UK.
⁴ Canary Center at Stanford for Cancer Early Detection, Department of Radiology, Stanford University, Palo Alto, CA, USA.
⁵ Institute of Systems, Molecular & Integrative Biology, University of Liverpool, Liverpool, UK.
⁶ Newcastle University Centre for Cancer, Translational and Clinical Research Institute, Paul O'Gorman Building, Newcastle University, Newcastle upon Tyne, UK.
⁷ Molecular Diagnostics and Therapeutics Group, Charles Bell House, Division of Surgery and Interventional Science, University College London, London, UK.
⁸ The Mellanby Centre for Musculoskeletal Research, Department of Oncology and Metabolism, The University of Sheffield, Sheffield, UK.
⁹ Department of Pathology, UCLH NHS Foundation Trust, London, UK.
¹⁰ UCL Centre for Medical Imaging, Charles Bell House, University College London, London, UK.
¹¹ NIHR Exeter Clinical Research Facility, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹² Department of Pathology, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹³ Exeter Surgical Health Services Research Unit, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹⁴ Institute of Biomedical and Clinical Sciences, Medical School, College of Medicine and Health, University of Exeter, Exeter, UK.
¹⁵ Department of Urology, Freeman Hospital, The Newcastle upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, UK.
¹⁶ Cancer Biology and Infectious Disease Research Center, Eastern Virginia Medical School, Norfolk, VA, USA.
¹⁷ Department of Cell and Molecular Pharmacology, Medical University of South Carolina, Charleston, SC, USA.

PMID: 37550801
DOI: 10.1002/path.6152

Free article

ST6GAL1-mediated aberrant sialylation promotes prostate cancer progression

Emma Scott et al. J Pathol. 2023 Sep.

Free article

. 2023 Sep;261(1):71-84.

doi: 10.1002/path.6152. Epub 2023 Aug 7.

Authors

Affiliations

¹ Newcastle University Centre for Cancer, Newcastle University Institute of Biosciences, Newcastle, UK.
² Cellular Pathology, The Royal Victoria Infirmary, Newcastle upon Tyne, UK.
³ Cancer Research Unit, Department of Biology, University of York, North Yorkshire, UK.
⁴ Canary Center at Stanford for Cancer Early Detection, Department of Radiology, Stanford University, Palo Alto, CA, USA.
⁵ Institute of Systems, Molecular & Integrative Biology, University of Liverpool, Liverpool, UK.
⁶ Newcastle University Centre for Cancer, Translational and Clinical Research Institute, Paul O'Gorman Building, Newcastle University, Newcastle upon Tyne, UK.
⁷ Molecular Diagnostics and Therapeutics Group, Charles Bell House, Division of Surgery and Interventional Science, University College London, London, UK.
⁸ The Mellanby Centre for Musculoskeletal Research, Department of Oncology and Metabolism, The University of Sheffield, Sheffield, UK.
⁹ Department of Pathology, UCLH NHS Foundation Trust, London, UK.
¹⁰ UCL Centre for Medical Imaging, Charles Bell House, University College London, London, UK.
¹¹ NIHR Exeter Clinical Research Facility, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹² Department of Pathology, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹³ Exeter Surgical Health Services Research Unit, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹⁴ Institute of Biomedical and Clinical Sciences, Medical School, College of Medicine and Health, University of Exeter, Exeter, UK.
¹⁵ Department of Urology, Freeman Hospital, The Newcastle upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, UK.
¹⁶ Cancer Biology and Infectious Disease Research Center, Eastern Virginia Medical School, Norfolk, VA, USA.
¹⁷ Department of Cell and Molecular Pharmacology, Medical University of South Carolina, Charleston, SC, USA.

PMID: 37550801
DOI: 10.1002/path.6152

Abstract

Aberrant glycosylation is a universal feature of cancer cells, and cancer-associated glycans have been detected in virtually every cancer type. A common change in tumour cell glycosylation is an increase in α2,6 sialylation of N-glycans, a modification driven by the sialyltransferase ST6GAL1. ST6GAL1 is overexpressed in numerous cancer types, and sialylated glycans are fundamental for tumour growth, metastasis, immune evasion, and drug resistance, but the role of ST6GAL1 in prostate cancer is poorly understood. Here, we analyse matched cancer and normal tissue samples from 200 patients and verify that ST6GAL1 is upregulated in prostate cancer tissue. Using MALDI imaging mass spectrometry (MALDI-IMS), we identify larger branched α2,6 sialylated N-glycans that show specificity to prostate tumour tissue. We also monitored ST6GAL1 in plasma samples from >400 patients and reveal ST6GAL1 levels are significantly increased in the blood of men with prostate cancer. Using both in vitro and in vivo studies, we demonstrate that ST6GAL1 promotes prostate tumour growth and invasion. Our findings show ST6GAL1 introduces α2,6 sialylated N-glycans on prostate cancer cells and raise the possibility that prostate cancer cells can secrete active ST6GAL1 enzyme capable of remodelling glycans on the surface of other cells. Furthermore, we find α2,6 sialylated N-glycans expressed by prostate cancer cells can be targeted using the sialyltransferase inhibitor P-3F_AX -Neu5Ac. Our study identifies an important role for ST6GAL1 and α2,6 sialylated N-glycans in prostate cancer progression and highlights the opportunity to inhibit abnormal sialylation for the development of new prostate cancer therapeutics. © 2023 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

Keywords: N-glycans; ST6GAL1; glycosylation; prostate cancer; sialic acid; sialylation.

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References

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ST6GAL1-mediated aberrant sialylation promotes prostate cancer progression

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ST6GAL1-mediated aberrant sialylation promotes prostate cancer progression

Authors

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Abstract

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Medical

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