Circular RNA circTET3 mediates migration of rat vascular smooth muscle cells by targeting miR-351-5p.

Abnormal migration and proliferation of vascular smooth muscle cells (VSMCs) are the pathological basis of hyperplasia during vein graft disease. It remains unknown if circular RNAs (circRNAs) are involved in vein graft disease. In the present study, a rat vein graft model was constructed by the "cuff" technique, and whole transcriptome deep sequencing was applied to identify differential circRNAs in the grafted vein compared to the control. We identified a novel circRNA, named circTET3, whose structure was verified by Sanger sequencing and RNase R digestion. CircTET3 was increased in the grafted vein and stably located in the cytoplasm as detected by fluorescence in situ hybridization. Knockdown of circTET3 suppressed VSMC migration by acting as an endogenous miR-351-5p sponge detected by RNA pull-down and dual-luciferase reporter assays. PTPN1 was the targeted gene due to the competitive binding of circTET3 to miR-351-5p. This regulatory pathway may serve as a potential therapeutic avenue against intimal hyperplasia in vein graft disease.

Single-cell analyses reveal functional classification of dendritic cells and their potential roles in inflammatory disease.

Dendritic cells (DCs) have crucial roles in immune-related diseases. However, it is difficult to explore DCs because of their rareness and heterogeneity. Although previous studies had been performed to detect the phenotypic characteristics of DC populations, the functional diversity has been ignored. Using a combination of flow cytometry, single-cell quantitative PCR, and bioinformatic analysis, we depicted the DC panorama with not only phenotypic but also functional markers. Functional classification of DCs in mouse lymphoid tissue (spleen) and nonlymphoid tissue (liver) was performed. The results revealed that expression of macrophage scavenger receptor 1 ( MSR1) and C-C motif chemokine receptors ( CCR) 1, CCR2, and CCR4 were elevated in liver DCs, suggesting increased lipid uptake and migration abilities. The enriched expression of costimulatory molecule CD80, TLR9, and TLR adaptor MYD88 in spleen DCs indicated a more-mature phenotype, enhanced pathogen recognition, and T-cell stimulation abilities. Furthermore, we compared DCs in the atherosclerotic mouse models with healthy controls. In addition to the quantitative increase in DCs in the liver and spleen of the apolipoprotein E-knockout ( ApoE-/-) mice, the functional expression patterns of the DCs also changed at the single-cell level. These results promote our understanding of the participation of DCs in inflammatory diseases and have potential applications in DC clinical assessment.-Shi, Q., Zhuang, F., Liu, J.-T., Li, N., Chen, Y.-X., Su, X.-B., Yao, A.-H., Yao, Q.-P., Han, Y., Li, S.-S., Qi, Y.-X., Jiang, Z.-L. Single-cell analyses reveal functional classification of dendritic cells and their potential roles in inflammatory disease.