Macrophage polarization is flexible, and involves in different signaling pathways and various transcription factors. Suppressor of cytokine signaling (SOCS) is an important inhibitor of cytokine signaling pathways and also a key physiological regulator for natural and acquired immunity systems. Following transfection of SOCS1 short hairpin (sh)RNA into mouse macrophage cells, reverse transcription‑quantitative polymerase chain reaction demonstrated that the mRNA levels of Janus kinase (JAK)1 and signal transducer and activator of transcription (STAT)1 increased significantly. In addition, western blotting indicated that JAK1, STAT1 and p‑STAT1 expression was significantly enhanced. Fludarabine can inhibit phosphorylation of STAT1 and SOCS1 expression. When fludarabine was added and SOCS1 shRNA was transfected, the inhibition of fludarabine was weakened, and p‑STAT1 expression was upregulated. Flow cytometry detection indicated that, following the downregulation of SOCS1 expression, M1‑type cells significantly increased, but the proportion of M2‑type cells did not change significantly. Fludarabine can reduce the effect of SOCS1 shRNA on promoting M1‑type cell polarization, and macrophages can polarize into both M1 and M2 phenotypes. Further ELISA results presented that, when downregulating SOCS1 expression, interleukin (IL)‑4 and IL‑10 expression was both downregulated, and tumor necrosis factor (TNF)‑α and interferon (IFN)‑γ expression was significantly upregulated. When adding fludarabine or injecting with the traditional Chinese medicine Xuebijing, IL‑4 and IL‑10 expression was both significantly upregulated, and TNF‑α and IFN‑γ expression was significantly downregulated. When adding fludarabine and downregulating SOCS1, IL‑4, IL‑10, TNF‑α and IFN‑γ expression presented no significant changes. The above results indicated that, when SOCS1 expression is downregulated, it will activate the JAK1/STAT1 pathway, and thereby promote the polarization of macrophages into M1 type. The findings are of great importance for understanding occurrence, development and treatment of various immune‑related diseases.
Rhein is an important component in traditional Chinese herbal medicine formulations for gastrointestinal disorders, including inflammatory bowel diseases such as ulcerative colitis. In this study, we investigated the beneficial effects of rhein in inflammation models in the transgenic zebrafish line TG (corolla eGFP), in which both macrophages and neutrophils express eGFP and RAW264.7 macrophages. We found that the tail-cutting-induced migration of immune cells was significantly reduced in transgenic zebrafish treated with rhein. In addition, the production of proinflammatory cytokines, including IL-6, IL-1β, and tumor necrosis factor-α, were significantly reduced in lipopolysaccharide (LPS)-induced RAW264.7 macrophages treated with rhein. Parallel to the inhibition of proinflammatory cytokines, rhein significantly reduced phosphorylation levels of NF-κB p65 and inducible nitric oxide synthase, as well as COX-2 protein expression levels. Furthermore, rhein significantly reduced NALP3 and cleaved IL-1β expression in LPS + ATP-induced RAW264.7 macrophages. Thus, the present study demonstrates that rhein may exhibit its anti-inflammatory action via inhibition of NF-κB and NALP3 inflammasome pathways.
Inter-regulation between components of the renin-angiotensin system is common, but little is known about the direct regulatory effects of Ang-(1-7) on expression of tissue ACE2 and the Mas receptor. Eighteen male spontaneously hypertensive rats (SHR) and 20 normotensive Wistar-Kyoto rats were randomly allocated to four groups of 9-10 rats each and received either 24 μg/kg per hour of Ang-(1-7) in saline or saline alone (5 ml/h) by infusion for 14 consecutive days. Tail-cuff systolic blood pressures were recorded and ACE2 and Mas expression was measured using quantitative real-time PCR (QRT-PCR) and Western blotting. Cardiac and renal ACE2 mRNA was decreased in SHR. Although having no effects on blood pressure, Ang-(1-7) down-regulated cardiac ACE2 mRNA in normotensive rats (1.80 ± 0.27 vs. 5.89 ± 0.62, p < 0.05) but did not change renal ACE2. Ang(1-7) down-regulated cardiac Mas mRNA of Wistar rats only (2.50 ± 0.44 vs. 8.10 ± 1.33, p < 0.05), and renal Mas mRNA of SHR receiving Ang-(1-7) was decreased (0.44 ± 0.09 vs. 1.00 ± 0.17, p < 0.05). Results from Western blot tests were consistent with those from QRT-PCR tests. These results suggest organ-specific regulation of local ACE2 and Mas expression by continuous infusion of Ang-(1-7) which did not alter blood pressure of either SHR or Wistar rats.
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