Non-Invasive and Real-Time Monitoring of the Breast Cancer Metastasis Degree via Metabolomics

Author:

Zhu Wanfang,Qian Wenxin,Liao Wenting,Huang Xiaoxian,Xu Jiawen,Qu Wei,Xue Jingwei,Feng Feng,Liu Wenyuan,Liu Fulei,Han LingfeiORCID

Abstract

Breast cancer (BC) is a serious threat to women’s health and metastasis is the major cause of BC-associated mortality. Various techniques are currently used to preoperatively describe the metastatic status of tumors, based on which a comprehensive treatment protocol was determined. However, accurately staging a tumor before surgery remains a challenge, which may lead to the miss of optimal treatment options. More severely, the failure to detect and remove occult micrometastases often causes tumor recurrences. There is an urgent need to develop a more precise and non-invasive strategy for the detection of the tumor metastasis in lymph nodes and distant organs. Based on the facts that tumor metastasis is closely related to the primary tumor microenvironment (TME) evolutions and that metabolomics profiling of the circulatory system can precisely reflect subtle changes within TME, we suppose whether metabolomic technology can be used to achieve non-invasive and real-time monitoring of BC metastatic status. In this study, the metastasis status of BC mouse models with different tumor-bearing times was firstly depicted to mimic clinical anatomic TNM staging system. Metabolomic profiling together with metastasis-related changes in TME among tumor-bearing mice with different metastatic status was conducted. A range of differential metabolites reflecting tumor metastatic states were screened and in vivo experiments proved that two main metastasis-driving factors in TME, TGF-β and hypoxia, were closely related to the regular changes of these metabolites. The differential metabolites level changes were also preliminarily confirmed in a limited number of clinical BC samples. Metabolite lysoPC (16:0) was found to be useful for clinical N stage diagnosis and the possible cause of its changes was analyzed by bioinformatics techniques.

Funder

National Natural Science Foundation of China

China Postdoctoral Science Foundation

Natural Science Foundation of Shandong Province of China

Natural Science Foundation of Jiangsu Province of China

Jiangsu Funding Program for Excellent Postdoctoral Talent

Publisher

MDPI AG

Subject

Cancer Research,Oncology

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1. New insights in aptamer-targeted nanoliposomes for the treatment of breast cancer;Journal of Drug Delivery Science and Technology;2023-09

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