Assessment of hypoxia and oxidative-related changes in a lung-derived brain metastasis model by [64Cu][Cu(ATSM)] PET and proteomic studies

Fantin, Jade; Toutain, Jérôme; Pérès, Elodie A.; Bernay, Benoit; Mehani, Sarina Maya; Helaine, Charly; Bourgeois, Mickael; Brunaud, Carole; Chazalviel, Laurent; Pontin, Julien; Corroyer-Dulmont, Aurélien; Valable, Samuel; Cherel, Michel; Bernaudin, Myriam

doi:10.1186/s13550-023-01052-8

EJNMMI Res

2023

DOI: 10.1186/s13550-023-01052-8

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Assessment of hypoxia and oxidative-related changes in a lung-derived brain metastasis model by [64Cu][Cu(ATSM)] PET and proteomic studies

Jade Fantin,

Jérôme Toutain,

Elodie A. Pérès

et al.

Abstract: Background Brain metastases (BM) are the most frequent malignant brain tumors. The aim of this study was to characterize the tumor microenvironment (TME) of BM and particularly hypoxia and redox state, known to play a role in tumor growth and treatment resistance with multimodal PET and MRI imaging, immunohistochemical and proteomic approaches in a human lung cancer (H2030-BrM3)-derived BM model in rats. Results First, in vitro studies confirmed th… Show more

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2024

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Cited by 2 publications

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Metastatic brain tumors: from development to cutting‐edge treatment

Tanzhu,

Chen,

Ning

et al. 2024

MedComm

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Metastatic brain tumors, also called brain metastasis (BM), represent a challenging complication of advanced tumors. Tumors that commonly metastasize to the brain include lung cancer and breast cancer. In recent years, the prognosis for BM patients has improved, and significant advancements have been made in both clinical and preclinical research. This review focuses on BM originating from lung cancer and breast cancer. We briefly overview the history and epidemiology of BM, as well as the current diagnostic and treatment paradigms. Additionally, we summarize multiomics evidence on the mechanisms of tumor occurrence and development in the era of artificial intelligence and discuss the role of the tumor microenvironment. Preclinically, we introduce the establishment of BM models, detailed molecular mechanisms, and cutting‐edge treatment methods. BM is primarily treated with a comprehensive approach, including local treatments such as surgery and radiotherapy. For lung cancer, targeted therapy and immunotherapy have shown efficacy, while in breast cancer, monoclonal antibodies, tyrosine kinase inhibitors, and antibody–drug conjugates are effective in BM. Multiomics approaches assist in clinical diagnosis and treatment, revealing the complex mechanisms of BM. Moreover, preclinical agents often need to cross the blood–brain barrier to achieve high intracranial concentrations, including small‐molecule inhibitors, nanoparticles, and peptide drugs. Addressing BM is imperative.

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Metastatic brain tumors: from development to cutting‐edge treatment

Tanzhu,

Chen,

Ning

et al. 2024

MedComm

View full text Add to dashboard Cite

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Copper-64 Based PET-Radiopharmaceuticals: Ways to Clinical Translational

Yang,

Guo,

Ding

et al. 2024

Seminars in Nuclear Medicine

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Assessment of hypoxia and oxidative-related changes in a lung-derived brain metastasis model by [64Cu][Cu(ATSM)] PET and proteomic studies

Cited by 2 publications

References 74 publications

Metastatic brain tumors: from development to cutting‐edge treatment

Metastatic brain tumors: from development to cutting‐edge treatment

Copper-64 Based PET-Radiopharmaceuticals: Ways to Clinical Translational

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