D. Li scite author profile

Endothelial cells (ECs) and macrophages engage in tight and specific interactions that play critical roles in cardiovascular homeostasis and the pathogenesis of atherosclerosis. Extracellular vesicles (EVs) are circular membrane fragments released from the endosomal compartment as exosomes or shed from the surfaces of the membranes of most cell types. Increasing evidence indicates that EVs play a pivotal role in cell-to-cell communication. However, the contribution of EVs, as determine by oxidized low-density lipoprotein (ox-LDL)-exposed and/or Kruppel-like factor 2 (KLF2)-transduced ECs in the interaction between vascular ECs and monocytes/macrophages, which is a key event in atherosclerotic plaque development, has remained elusive. This study demonstrates the characteristic impact of EVs from ox-LDL-treated and/or KLF2-transduced ECs on the monocyte/macrophage phenotype in vitro and in vivo.Q-PCR showed that both the atherosclerosis inducer ox-LDL and atheroprotective factor KLF2 regulated inflammation-associated microRNA-155 (miR-155) expression in human umbilical vein endothelial cells (HUVECs). Moreover, coculture, immunofluorescence and flow cytometry revealed that miR-155 was enriched in ox-LDL-induced ECs-EVs and subsequently transferred to human monocytic THP1 cells, in which these vesicles enhance monocyte activation by shifting the monocytes/macrophages balance from anti-inflammatory M2 macrophages towards proinflammatory M1 macrophages; EVs from KLF2-expressing ECs suppressed monocyte activation by enhancing immunomodulatory responses and diminishing proinflammatory responses, which indicate the potent anti-inflammatory activities of these cells. Furthermore, oil red staining showed that atherosclerotic lesions were reduced in mice that received EVs from KLF2-transduced ECs with decreased proinflammatory M1 macrophages and increased anti-inflammatory M2 macrophages, and this effect is at least partly due to the decreased expression of inflammation-associated miR-155, confirming our in vitro findings. In summary, this study provides novel insights into the pathophysiological effects of altered EV secretion and/or microRNA content and their influence on modulating monocyte activation depending on the environment surrounding EVs-releasing ECs.

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Type 1 innate lymphoid cell aggravation of atherosclerosis is mediated through TLR4

Liu

et al. 2018

Scand J Immunol

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ILC populations elaborate a similar cytokine expression pattern with helper T cell subsets Th1, Th2 and Th17. Recent studies indicate that CD25+ILC2 could alleviate atherosclerosis by altering lipid metabolism, whereas the depletion of CD90-expressing ILCs had no influence on atherosclerosis. Thus, these findings raise the question of whether ILC1 cells react on atherosclerosis. Hence, our group attempted to explore the role of ILC1 cells in atherosclerosis. We found that ILC1 cells have a high Th1-like gene expression of T-bet and IFN-γ, which is distinct from ILC2, ILC3 or conventional NK (cNK) cells. Moreover, atherosclerotic lesions were greatly reduced in ApoE-/-Rag1-/- mice treated with anti-NK1.1 mAbs for depleting ILC1 cells (ILC1+cNK cells), compared to ApoE-/-Rag1-/- mice treated with anti-IL-15R mAbs for depleting cNK cells, and these effects could be fully rescued through the adoptive transfer of ILC1 cells sorted from the spleen of ApoE-/-TLR4+/+ mice into ApoE-/-Rag1-/- mice treated with anti-NK1.1 mAbs. However, the adoptive transfer of ILC1 cells sorted from the spleen of ApoE-/-TLR4-/- mice into ApoE-/-Rag1-/- mice treated with anti-NK1.1 mAbs blocked the progression of atherosclerosis, indicating that the pro-atherosclerotic role of ILC1 cells is dependent on TLR4. Furthermore, oxLDL-induced increase in IFN-γ expression from ApoE-/- ILC1 cells was correlated with the decrease in BACH2 expression. Taken together, ILC1 cells exist in atherosclerosis and aggravate atherosclerosis via increasing pro-inflammatory cytokine expression in a TLR4/BACH2-dependent manner.

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Influence of resonant magnetic perturbations and induced islands on plasma rotations and turbulence properties in the J-TEXT tokamak

Jiang

Zhong

et al. 2019

Nucl. Fusion

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Dedicated experiments have been carried out at the J-TEXT tokamak for investigating plasma responses to the externally applied resonant magnetic perturbation (RMP) field with various RMP currents under four different toroidal phases. After its penetration, the dominant component of the RMP resonated at q = 2 surface and excited an m/n = 2/1 magnetic island, which rotated poloidally when changing the toroidal phase of the RMP. The experimental results show significant influence of the RMP on plasma toroidal and perpendicular rotations, density fluctuations and geodesic acoustic modes (GAMs) as well as nonlinear interaction of ambient turbulence. Whereas the plasma rotations do not show big difference at the RMP-induced island O- and X-point, the turbulence level is substantially lower at the island O-point due to reduced local temperature gradient. The GAM zonal flows outside the island area are profoundly affected by the RMP in various RMP phases. Moreover, it was found that under certain RMP currents the nonlinear coupling of ambient turbulence was considerably enhanced, no matter of at the island O- or X-point. The results suggest a possible controlling role of the RMP in regulating the nonlinear interplay of electrostatic turbulence.

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D. Li

Endothelial extracellular vesicles modulate the macrophage phenotype: Potential implications in atherosclerosis

Type 1 innate lymphoid cell aggravation of atherosclerosis is mediated through TLR4

Influence of resonant magnetic perturbations and induced islands on plasma rotations and turbulence properties in the J-TEXT tokamak

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