Tumor metastasis is a hallmark of colorectal cancer(CRC),in which exosome plays a crucial role with its function in intercellular communication.Plasma exosomes were collected from healthy control(HC)donors,localized p...Tumor metastasis is a hallmark of colorectal cancer(CRC),in which exosome plays a crucial role with its function in intercellular communication.Plasma exosomes were collected from healthy control(HC)donors,localized primary CRC and liver-metastatic CRC patients.We performed proximity barcoding assay(PBA)for single-exosome analysis,which enabled us to identify the alteration in exosome subpopulations associated with CRC progression.By in vitro and in vivo experiments,the biological impact of these subpopulations on cancer proliferation,migration,invasion,and metastasis was investigated.The potential application of exosomes as diagnostic biomarkers was evaluated in 2 independent validation cohorts by PBA.Twelve distinct exosome subpopulations were determined.We found 2 distinctly abundant subpopulations:one ITGB3-positive and the other ITGAM-positive.The ITGB3-positive cluster is rich in liver-metastatic CRC,compared to both HC group and primary CRC group.On the contrary,ITGAM-positive exosomes show a large-scale increase in plasma of HC group,compared to both primary CRC and metastatic CRC groups.Notably,both discovery cohort and validation cohort verified ITGB3+exosomes as potential diagnostic biomarker.ITGB3+exosomes promote proliferation,migration,and invasion capability of CRC.In contrast,ITGAM+exosomes suppress CRC development.Moreover,we also provide evidence that one of the sources of ITGAM+exosomes is macrophage.ITGB3+exosomes and ITGAM+exosomes are proven 2 potential diagnostic,prognostic,and therapeutic biomarkers for management of CRC.展开更多
基金the National Natural Science Foundation of China(82000779,31971061)Taishan Pandeng Scholar Program of Shandong Province(tspd20210321)。
文摘Tumor metastasis is a hallmark of colorectal cancer(CRC),in which exosome plays a crucial role with its function in intercellular communication.Plasma exosomes were collected from healthy control(HC)donors,localized primary CRC and liver-metastatic CRC patients.We performed proximity barcoding assay(PBA)for single-exosome analysis,which enabled us to identify the alteration in exosome subpopulations associated with CRC progression.By in vitro and in vivo experiments,the biological impact of these subpopulations on cancer proliferation,migration,invasion,and metastasis was investigated.The potential application of exosomes as diagnostic biomarkers was evaluated in 2 independent validation cohorts by PBA.Twelve distinct exosome subpopulations were determined.We found 2 distinctly abundant subpopulations:one ITGB3-positive and the other ITGAM-positive.The ITGB3-positive cluster is rich in liver-metastatic CRC,compared to both HC group and primary CRC group.On the contrary,ITGAM-positive exosomes show a large-scale increase in plasma of HC group,compared to both primary CRC and metastatic CRC groups.Notably,both discovery cohort and validation cohort verified ITGB3+exosomes as potential diagnostic biomarker.ITGB3+exosomes promote proliferation,migration,and invasion capability of CRC.In contrast,ITGAM+exosomes suppress CRC development.Moreover,we also provide evidence that one of the sources of ITGAM+exosomes is macrophage.ITGB3+exosomes and ITGAM+exosomes are proven 2 potential diagnostic,prognostic,and therapeutic biomarkers for management of CRC.
