Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance

Praveen Agrawal; Shuhui Chen; Ana de Pablos; Yellamandayya Vadlamudi; Fatemeh Vand-Rajabpour; Faezeh Jame-Chenarboo; Swarnali Kar; Amanda Flores Yanke; Pietro Berico; Eleazar Miera Saenz de Vega; Farbod Darvishian; Iman Osman; Amaia Lujambio; Lara K. Mahal; Eva Hernando

doi:10.1126/sciadv.adg3481

Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance

Praveen Agrawal
, Shuhui Chen
, Ana de Pablos
, Yellamandayya Vadlamudi
, Fatemeh Vand-Rajabpour
, Faezeh Jame-Chenarboo
, Swarnali Kar
, Amanda Flores Yanke
, Pietro Berico
, Eleazar Miera Saenz de Vega
, Farbod Darvishian
, Iman Osman
, Amaia Lujambio
, Lara K. Mahal
, Eva Hernando

Molecular Pharmacology

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Aberrant glycosylation is a hallmark of cancer biology, and altered glycosylation influences multiple facets of melanoma progression. To identify glycosyltransferases, glycans, and glycoproteins essential for melanoma maintenance, we conducted an in vivo growth screen with a pooled short hairpin RNA library of glycosyltransferases, lectin microarray profiling of benign nevus and melanoma samples, and mass spectrometry–based glycoproteomics. We found that α-2,3-sialyltransferases ST3GAL1 and ST3GAL2 and corresponding α-2,3–linked sialosides are up-regulated in melanoma compared to nevi and are essential for melanoma growth. Glycoproteomics revealed that glycoprotein targets of ST3GAL1 and ST3GAL2 are enriched in transmembrane proteins involved in growth signaling, including the amino acid transporter SLC3A2/CD98hc. CD98hc suppression mimicked the effect of ST3GAL1 and ST3GAL2 silencing, inhibiting melanoma cell proliferation. We found that both CD98hc protein stability and its prosurvival effect on melanoma are dependent upon α-2,3-sialylation mediated by ST3GAL1 and ST3GAL2. Our studies reveal α-2,3-sialosides functionally contributing to melanoma maintenance, supporting ST3GAL1 and ST3GAL2 as therapeutic targets in melanoma.

Original language	English (US)
Article number	eadg3481
Journal	Science Advances
Volume	11
Issue number	27
DOIs	https://doi.org/10.1126/sciadv.adg3481
State	Published - Jul 4 2025

ASJC Scopus subject areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Agrawal, P., Chen, S., de Pablos, A., Vadlamudi, Y., Vand-Rajabpour, F., Jame-Chenarboo, F., Kar, S., Yanke, A. F., Berico, P., de Vega, E. M. S., Darvishian, F., Osman, I., Lujambio, A., Mahal, L. K., & Hernando, E. (2025). Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance. Science Advances, 11(27), Article eadg3481. https://doi.org/10.1126/sciadv.adg3481

Agrawal, P, Chen, S, de Pablos, A, Vadlamudi, Y, Vand-Rajabpour, F, Jame-Chenarboo, F, Kar, S, Yanke, AF, Berico, P, de Vega, EMS, Darvishian, F, Osman, I, Lujambio, A, Mahal, LK & Hernando, E 2025, 'Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance', Science Advances, vol. 11, no. 27, eadg3481. https://doi.org/10.1126/sciadv.adg3481

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title = "Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance",

abstract = "Aberrant glycosylation is a hallmark of cancer biology, and altered glycosylation influences multiple facets of melanoma progression. To identify glycosyltransferases, glycans, and glycoproteins essential for melanoma maintenance, we conducted an in vivo growth screen with a pooled short hairpin RNA library of glycosyltransferases, lectin microarray profiling of benign nevus and melanoma samples, and mass spectrometry–based glycoproteomics. We found that α-2,3-sialyltransferases ST3GAL1 and ST3GAL2 and corresponding α-2,3–linked sialosides are up-regulated in melanoma compared to nevi and are essential for melanoma growth. Glycoproteomics revealed that glycoprotein targets of ST3GAL1 and ST3GAL2 are enriched in transmembrane proteins involved in growth signaling, including the amino acid transporter SLC3A2/CD98hc. CD98hc suppression mimicked the effect of ST3GAL1 and ST3GAL2 silencing, inhibiting melanoma cell proliferation. We found that both CD98hc protein stability and its prosurvival effect on melanoma are dependent upon α-2,3-sialylation mediated by ST3GAL1 and ST3GAL2. Our studies reveal α-2,3-sialosides functionally contributing to melanoma maintenance, supporting ST3GAL1 and ST3GAL2 as therapeutic targets in melanoma.",

author = "Praveen Agrawal and Shuhui Chen and \{de Pablos\}, Ana and Yellamandayya Vadlamudi and Fatemeh Vand-Rajabpour and Faezeh Jame-Chenarboo and Swarnali Kar and Yanke, \{Amanda Flores\} and Pietro Berico and \{de Vega\}, \{Eleazar Miera Saenz\} and Farbod Darvishian and Iman Osman and Amaia Lujambio and Mahal, \{Lara K.\} and Eva Hernando",

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AU - Agrawal, Praveen

AU - Chen, Shuhui

AU - de Pablos, Ana

AU - Vadlamudi, Yellamandayya

AU - Vand-Rajabpour, Fatemeh

AU - Jame-Chenarboo, Faezeh

AU - Kar, Swarnali

AU - Yanke, Amanda Flores

AU - Berico, Pietro

AU - de Vega, Eleazar Miera Saenz

AU - Darvishian, Farbod

AU - Osman, Iman

AU - Lujambio, Amaia

AU - Mahal, Lara K.

AU - Hernando, Eva

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N2 - Aberrant glycosylation is a hallmark of cancer biology, and altered glycosylation influences multiple facets of melanoma progression. To identify glycosyltransferases, glycans, and glycoproteins essential for melanoma maintenance, we conducted an in vivo growth screen with a pooled short hairpin RNA library of glycosyltransferases, lectin microarray profiling of benign nevus and melanoma samples, and mass spectrometry–based glycoproteomics. We found that α-2,3-sialyltransferases ST3GAL1 and ST3GAL2 and corresponding α-2,3–linked sialosides are up-regulated in melanoma compared to nevi and are essential for melanoma growth. Glycoproteomics revealed that glycoprotein targets of ST3GAL1 and ST3GAL2 are enriched in transmembrane proteins involved in growth signaling, including the amino acid transporter SLC3A2/CD98hc. CD98hc suppression mimicked the effect of ST3GAL1 and ST3GAL2 silencing, inhibiting melanoma cell proliferation. We found that both CD98hc protein stability and its prosurvival effect on melanoma are dependent upon α-2,3-sialylation mediated by ST3GAL1 and ST3GAL2. Our studies reveal α-2,3-sialosides functionally contributing to melanoma maintenance, supporting ST3GAL1 and ST3GAL2 as therapeutic targets in melanoma.

AB - Aberrant glycosylation is a hallmark of cancer biology, and altered glycosylation influences multiple facets of melanoma progression. To identify glycosyltransferases, glycans, and glycoproteins essential for melanoma maintenance, we conducted an in vivo growth screen with a pooled short hairpin RNA library of glycosyltransferases, lectin microarray profiling of benign nevus and melanoma samples, and mass spectrometry–based glycoproteomics. We found that α-2,3-sialyltransferases ST3GAL1 and ST3GAL2 and corresponding α-2,3–linked sialosides are up-regulated in melanoma compared to nevi and are essential for melanoma growth. Glycoproteomics revealed that glycoprotein targets of ST3GAL1 and ST3GAL2 are enriched in transmembrane proteins involved in growth signaling, including the amino acid transporter SLC3A2/CD98hc. CD98hc suppression mimicked the effect of ST3GAL1 and ST3GAL2 silencing, inhibiting melanoma cell proliferation. We found that both CD98hc protein stability and its prosurvival effect on melanoma are dependent upon α-2,3-sialylation mediated by ST3GAL1 and ST3GAL2. Our studies reveal α-2,3-sialosides functionally contributing to melanoma maintenance, supporting ST3GAL1 and ST3GAL2 as therapeutic targets in melanoma.

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Integrated in vivo functional screens and multiomics analyses identify α-2,3-sialylation as essential for melanoma maintenance

Abstract

ASJC Scopus subject areas

UN SDGs

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