Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization

Valeria Governa; Hugo Talbot; Kelin Gonçalves de Oliveira; Myriam Cerezo-Magaña; Anna Bång-Rudenstam; Maria C Johansson; Ann-Sofie Månsson; Karin Forsberg-Nilsson; György Marko-Varga; Julio Enríquez Pérez; Anna Darabi; Johan Malmström; Johan Bengzon; Charlotte Welinder; Mattias Belting

doi:10.1073/pnas.2114456119

Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization

Valeria Governa, Hugo Talbot, Kelin Gonçalves de Oliveira, Myriam Cerezo-Magaña, Anna Bång-Rudenstam, Maria C Johansson, Ann-Sofie Månsson, Karin Forsberg-Nilsson, György Marko-Varga, Julio Enríquez Pérez, Anna Darabi, Johan Malmström, Johan Bengzon, Charlotte Welinder, Mattias Belting

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

Abstract

Therapeutic strategies directed at the tumor surfaceome (TS), including checkpoint inhibitor blocking antibodies, antibody drug conjugates (ADCs), and chimeric antigen receptor T (CAR-T) cells, provide a new armament to fight cancer. However, a remaining bottleneck is the lack of strategies to comprehensively interrogate patient tumors for potential TS targets. Here, we have developed a platform (tumor surfaceome mapping [TS-MAP]) integrated with a newly curated TS classifier (SURFME) that allows profiling of primary 3D cultures and intact patient glioma tumors with preserved tissue architecture. Moreover, TS-MAP specifically identifies proteins capable of endocytosis as tractable targets for ADCs and other modalities requiring toxic payload internalization. In high-grade gliomas that remain among the most aggressive forms of cancer, we show that cellular spatial organization (2D vs. 3D) fundamentally transforms the surfaceome and endocytome (e.g., integrins, proteoglycans, semaphorins, and cancer stem cell markers) with general implications for target screening approaches, as exemplified by an ADC targeting EGFR. The TS-MAP platform was further applied to profile the surfaceome and endocytome landscape in a cohort of freshly resected gliomas. We found a highly diverse TS repertoire between patient tumors, not directly associated with grade and histology, which highlights the need for individualized approaches. Our data provide additional layers of understanding fundamental to the future development of immunotherapy strategies, as well as procedures for proteomics-based target identification and selection. The TS-MAP platform should be widely applicable in efforts aiming at a better understanding of how to harness the TS for personalized immunotherapy.

Original language	English
Article number	e2114456119
Pages (from-to)	1-11
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	119
Issue number	9
DOIs	https://doi.org/10.1073/pnas.2114456119
Publication status	Published - 2022 Mar 1

Bibliographical note

Funding Information:
We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union?s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sj?berg Foundation; the Sk?ne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson.

Funding Information:
ACKNOWLEDGMENTS. We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union’s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sjo€berg Foundation; the Skåne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson.

Publisher Copyright:
© 2022 National Academy of Sciences. All rights reserved.

Subject classification (UKÄ)

Cancer and Oncology

Free keywords

Glioma
Immunotherapy
Proteomics

UN SDGs

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

Access to Document

10.1073/pnas.2114456119Licence: CC BY

2 Doctoral Thesis (compilation)

Targeting the stressed tumor niche of glioblastoma: Tumor microenvironment and surface antigens
Gonçalves de Oliveira, K., 2024, Lund: Lund University, Faculty of Medicine. 128 p.
Research output: Thesis › Doctoral Thesis (compilation)

Open Access
File
Adaptation to microenvironmental stress in glioblastoma. Mechanistic studies and potential targets.
Cerezo-Magaña, M., 2022, 2022 ed. Lund: Lund University, Faculty of Medicine. 95 p.
Research output: Thesis › Doctoral Thesis (compilation)

Open Access
File

Cite this

Governa, V., Talbot, H., Gonçalves de Oliveira, K., Cerezo-Magaña, M., Bång-Rudenstam, A., Johansson, M. C., Månsson, A.-S., Forsberg-Nilsson, K., Marko-Varga, G., Enríquez Pérez, J., Darabi, A., Malmström, J., Bengzon, J., Welinder, C., & Belting, M. (2022). Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization. Proceedings of the National Academy of Sciences of the United States of America, 119(9), 1-11. Article e2114456119. https://doi.org/10.1073/pnas.2114456119

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title = "Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization",

abstract = "Therapeutic strategies directed at the tumor surfaceome (TS), including checkpoint inhibitor blocking antibodies, antibody drug conjugates (ADCs), and chimeric antigen receptor T (CAR-T) cells, provide a new armament to fight cancer. However, a remaining bottleneck is the lack of strategies to comprehensively interrogate patient tumors for potential TS targets. Here, we have developed a platform (tumor surfaceome mapping [TS-MAP]) integrated with a newly curated TS classifier (SURFME) that allows profiling of primary 3D cultures and intact patient glioma tumors with preserved tissue architecture. Moreover, TS-MAP specifically identifies proteins capable of endocytosis as tractable targets for ADCs and other modalities requiring toxic payload internalization. In high-grade gliomas that remain among the most aggressive forms of cancer, we show that cellular spatial organization (2D vs. 3D) fundamentally transforms the surfaceome and endocytome (e.g., integrins, proteoglycans, semaphorins, and cancer stem cell markers) with general implications for target screening approaches, as exemplified by an ADC targeting EGFR. The TS-MAP platform was further applied to profile the surfaceome and endocytome landscape in a cohort of freshly resected gliomas. We found a highly diverse TS repertoire between patient tumors, not directly associated with grade and histology, which highlights the need for individualized approaches. Our data provide additional layers of understanding fundamental to the future development of immunotherapy strategies, as well as procedures for proteomics-based target identification and selection. The TS-MAP platform should be widely applicable in efforts aiming at a better understanding of how to harness the TS for personalized immunotherapy.",

keywords = "Glioma, Immunotherapy, Proteomics",

author = "Valeria Governa and Hugo Talbot and {Gon{\c c}alves de Oliveira}, Kelin and Myriam Cerezo-Maga{\~n}a and Anna B{\aa}ng-Rudenstam and Johansson, {Maria C} and Ann-Sofie M{\aa}nsson and Karin Forsberg-Nilsson and Gy{\"o}rgy Marko-Varga and {Enr{\'i}quez P{\'e}rez}, Julio and Anna Darabi and Johan Malmstr{\"o}m and Johan Bengzon and Charlotte Welinder and Mattias Belting",

note = "Funding Information: We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union?s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sj?berg Foundation; the Sk?ne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson. Funding Information: ACKNOWLEDGMENTS. We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union{\textquoteright}s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sjo€berg Foundation; the Sk{\aa}ne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson. Publisher Copyright: {\textcopyright} 2022 National Academy of Sciences. All rights reserved.",

year = "2022",

month = mar,

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doi = "10.1073/pnas.2114456119",

language = "English",

volume = "119",

pages = "1--11",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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Governa, V , Talbot, H , Gonçalves de Oliveira, K , Cerezo-Magaña, M , Bång-Rudenstam, A , Johansson, MC , Månsson, A-S, Forsberg-Nilsson, K, Marko-Varga, G , Enríquez Pérez, J , Darabi, A , Malmström, J , Bengzon, J , Welinder, C & Belting, M 2022, 'Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization', Proceedings of the National Academy of Sciences of the United States of America, vol. 119, no. 9, e2114456119, pp. 1-11. https://doi.org/10.1073/pnas.2114456119

Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization. / Governa, Valeria ; Talbot, Hugo ; Gonçalves de Oliveira, Kelin et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 119, No. 9, e2114456119, 01.03.2022, p. 1-11.

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

TY - JOUR

T1 - Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization

AU - Governa, Valeria

AU - Talbot, Hugo

AU - Gonçalves de Oliveira, Kelin

AU - Cerezo-Magaña, Myriam

AU - Bång-Rudenstam, Anna

AU - Johansson, Maria C

AU - Månsson, Ann-Sofie

AU - Forsberg-Nilsson, Karin

AU - Marko-Varga, György

AU - Enríquez Pérez, Julio

AU - Darabi, Anna

AU - Malmström, Johan

AU - Bengzon, Johan

AU - Welinder, Charlotte

AU - Belting, Mattias

N1 - Funding Information: We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union?s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sj?berg Foundation; the Sk?ne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson. Funding Information: ACKNOWLEDGMENTS. We thank all the patients who contributed to this study and our colleagues at the Neurosurgery, Pathology, and Radiology departments (Lund University) for their important and continuous input. This work was supported by grants (to M.B.) from the Swedish Cancer Fund CAN 2017/664; the Swedish Research Council VR-MH 2018-02562; the European Union’s Horizon 2020 COFUND Programme: CanFaster 754299; the Swedish Childhood Cancer Foundation PR2020-0129; the Fru Berta Kamprad Foundation; the Sjo€berg Foundation; the Skåne University Hospital donation funds; the governmental funding of clinical research within the national health services, ALF; and a generous donation by Viveca Jeppsson. Publisher Copyright: © 2022 National Academy of Sciences. All rights reserved.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Therapeutic strategies directed at the tumor surfaceome (TS), including checkpoint inhibitor blocking antibodies, antibody drug conjugates (ADCs), and chimeric antigen receptor T (CAR-T) cells, provide a new armament to fight cancer. However, a remaining bottleneck is the lack of strategies to comprehensively interrogate patient tumors for potential TS targets. Here, we have developed a platform (tumor surfaceome mapping [TS-MAP]) integrated with a newly curated TS classifier (SURFME) that allows profiling of primary 3D cultures and intact patient glioma tumors with preserved tissue architecture. Moreover, TS-MAP specifically identifies proteins capable of endocytosis as tractable targets for ADCs and other modalities requiring toxic payload internalization. In high-grade gliomas that remain among the most aggressive forms of cancer, we show that cellular spatial organization (2D vs. 3D) fundamentally transforms the surfaceome and endocytome (e.g., integrins, proteoglycans, semaphorins, and cancer stem cell markers) with general implications for target screening approaches, as exemplified by an ADC targeting EGFR. The TS-MAP platform was further applied to profile the surfaceome and endocytome landscape in a cohort of freshly resected gliomas. We found a highly diverse TS repertoire between patient tumors, not directly associated with grade and histology, which highlights the need for individualized approaches. Our data provide additional layers of understanding fundamental to the future development of immunotherapy strategies, as well as procedures for proteomics-based target identification and selection. The TS-MAP platform should be widely applicable in efforts aiming at a better understanding of how to harness the TS for personalized immunotherapy.

AB - Therapeutic strategies directed at the tumor surfaceome (TS), including checkpoint inhibitor blocking antibodies, antibody drug conjugates (ADCs), and chimeric antigen receptor T (CAR-T) cells, provide a new armament to fight cancer. However, a remaining bottleneck is the lack of strategies to comprehensively interrogate patient tumors for potential TS targets. Here, we have developed a platform (tumor surfaceome mapping [TS-MAP]) integrated with a newly curated TS classifier (SURFME) that allows profiling of primary 3D cultures and intact patient glioma tumors with preserved tissue architecture. Moreover, TS-MAP specifically identifies proteins capable of endocytosis as tractable targets for ADCs and other modalities requiring toxic payload internalization. In high-grade gliomas that remain among the most aggressive forms of cancer, we show that cellular spatial organization (2D vs. 3D) fundamentally transforms the surfaceome and endocytome (e.g., integrins, proteoglycans, semaphorins, and cancer stem cell markers) with general implications for target screening approaches, as exemplified by an ADC targeting EGFR. The TS-MAP platform was further applied to profile the surfaceome and endocytome landscape in a cohort of freshly resected gliomas. We found a highly diverse TS repertoire between patient tumors, not directly associated with grade and histology, which highlights the need for individualized approaches. Our data provide additional layers of understanding fundamental to the future development of immunotherapy strategies, as well as procedures for proteomics-based target identification and selection. The TS-MAP platform should be widely applicable in efforts aiming at a better understanding of how to harness the TS for personalized immunotherapy.

KW - Glioma

KW - Immunotherapy

KW - Proteomics

U2 - 10.1073/pnas.2114456119

DO - 10.1073/pnas.2114456119

M3 - Article

C2 - 35217608

SN - 1091-6490

VL - 119

SP - 1

EP - 11

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 9

M1 - e2114456119

ER -

Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization

Abstract

Bibliographical note

Subject classification (UKÄ)

Free keywords

UN SDGs

Access to Document

Fingerprint

Research output

Targeting the stressed tumor niche of glioblastoma: Tumor microenvironment and surface antigens

Adaptation to microenvironmental stress in glioblastoma. Mechanistic studies and potential targets.

Cite this