Compelling evidence indicates that epigenetic regulations orchestrate dynamic macrophage polarization. N6-methyladenosine (m6A) methylation is the most abundant epigenetic modification of mammalian mRNA, but its role in macrophage polarization is still completely unknown. Here, we show that the m6A-catalytic enzyme methyltransferase like 3 (METTL3) is specifically upregulated following the M1 polarization of mouse macrophages. Furthermore, METTL3 knockdown through siRNA transfection markedly inhibited M1, but enhanced M2, macrophage polarization. Conversely, its overexpression via plasmid transfection greatly facilitated M1, but attenuated M2, macrophage polarization. Further methylated RNA immunoprecipitation and in vitro m6A methylation assays suggested that METTL3 directly methylates mRNA encoding signal transducer and activator of transcription 1 (STAT1), a master transcription factor controlling M1 macrophage polarization, at its coding sequence and 3′-untranslated regions. In addition, METTL3-mediated STAT1 mRNA methylation significantly increased mRNA stability and subsequently upregulated STAT1 expression. In conclusion, METTL3 drives M1 macrophage polarization by directly methylating STAT1 mRNA, potentially serving as an anti-inflammatory target.
Purpose: The spatial heterogeneity of phenotypic and molecular characteristics of CTCs within the circulatory system remains unclear. Herein, we mapped the distribution and characterized biological features of CTCs along the transportation route in hepatocellular carcinoma (HCC).Experimental Design: In 73 localized HCC patients, blood was drawn from peripheral vein (PV), peripheral artery (PA), hepatic veins (HV), infrahepatic inferior vena cava (IHIVC), and portal vein (PoV) before tumor resection. Epithelial and mesenchymal transition (EMT) phenotype in CTCs were analyzed by a 4-channel immunofluorescence CellSearch assay and microfluidic quantitative RT-PCR. The clinical significance of CTCs from different vascular sites was evaluated.Results: The CTC number and size gradient between tumor efferent vessels and postpulmonary peripheral vessels was marked. Tracking the fate of CTC clusters revealed that CTCs displayed an aggregated-singular-aggregated manner of spreading. Single-cell characterization demonstrated that EMT status of CTCs was heterogeneous across different vascular compartments. CTCs were predominantly epithelial at release, but switched to EMT-activated phenotype during hematogeneous transit via Smad2 and b-catenin related signaling pathways. EMT activation in primary tumor correlated with total CTC number at HV, rather than epithelial or EMT-activated subsets of CTCs. Follow-up analysis suggested that CTC and circulating tumor microemboli burden in hepatic veins and peripheral circulation prognosticated postoperative lung metastasis and intrahepatic recurrence, respectively.Conclusions: The current data suggested that a profound spatial heterogeneity in cellular distribution and biological features existed among CTCs during circulation. Multivascular measurement of CTCs could help to reveal novel mechanisms of metastasis and facilitate prediction of postoperative relapse or metastasis pattern in HCC.
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