Resveratrol decreases CD45+CD206− subtype macrophages in LPS‐induced murine acute lung injury by SOCS3 signalling pathway

Acute lung injury/acute respiratory distress syndrome (ALI/ARDS) are life‐threatening condition in critically ill patients. Resveratrol (Res), a natural polyphenol, has therapeutic effect in animal model with ALI; however, whether Res attenuates ALI through modulation of macrophage phenotypes in the animal model remains unknown. We in this study treated LPS‐induced murine ALI with 30 mg/kg Res and observed significantly reduced severity of ALI in the Res‐treated mice 48 hours after Res treatment. Neutrophil infiltrates were significantly reduced, accompanied with lower infiltration of CD45⁺Siglec F^? phenotype macrophages, but higher population of CD45⁺Siglec F⁺ and CD45⁺CD206⁺ alternatively activated macrophages (M2 cells) in the Res‐treated mice with ALI. In addition, the expression of IL‐1beta and CXCL15 cytokines was suppressed in the treated mice. However, Res treatment in mice with myeloid cell‐restricted SOCS3 deficiency did not significantly attenuate ALI severity and failed to increase population of both CD45⁺Siglec F⁺ and CD45⁺CD206⁺ M2 subtype macrophages in the murine ALI. Further studies in wild‐type macrophages revealed that Res treatment effectively reduced the expression of IL‐6 and CXCL15, and increased the expression of arginase‐1, SIRT1 and SOCS3. However, macrophages’ lack of SOCS3 expression were resistant to the Res‐induced suppression of IL‐6 and CXCL15 in vitro. Thus, we conclude that Res suppressed CD45⁺Siglec F^? and CD45⁺CD206^? M1 subtype macrophages through SOCS3 signalling in the LPS‐induced murine ALI.     

Double role of Fas ligand in the apoptosis of intervertebral disc cells in vitro

Fas ligand （FasL） may play an important role in maintaining the immune privilege of intervertebral disc （IVD）. Besides, it is closely related to the apoptosis of degenerative disc cells. Nowadays, lots of reports have described about the paradoxical effects of FasL, although the effect of FasL on IVD cells is still under debate. In this study, we tried to investigate the effects of FasL on Fas expression and on the apoptosis of nucleus pulposus （NP） cells in Sprague-Dawley rats. The results showed that the expression of Fas in NP cells was significantly increased by the recombinant FasL. Meanwhile, the apoptosis of NP cells increased markedly in a FasL dose-dependent manner. Interestingly, RNA interference results indicated that the increase of Fas expression and the NP cell apoptosis described previously were inhibited by Fas siRNA, suggesting that RNA interference might be one of novel strategies to prevent IVD cells from apoptosis.     

Increased RhoA translocation in renal cortex of diabetic rats

RhoA, a member of the Rho small G protein family, mediates multiple intracellular signaling pathways, and is highly expressed in renal cortex. RhoA translocation is associated with RhoA activation. This study was undertaken to examine the relation of translocation of RhoA in the renal cortex with diabetic renal injury in streptozotocin (STZ)-induced diabetic rats. Male Sprague-Dawley rats were divided into control and diabetic groups and were studied at 8 weeks after STZ-injection (55 mg/kg, i.v). We found that the kidney weight and urinary protein excretion were significantly increased in diabetic rats. Diabetic glomerulopathy was confirmed by mesangial matrix expanding and glomerular basement membrane thickening. The ratio of membrane-bound RhoA verses cytosolic RhoA is 1.8 fold higher (p < 0.01) in diabetic group, indicating an enhanced RhoA translocation. There was no significant difference in total RhoA protein expression and RhoA mRNA expression between diabetic and control groups. These data suggest that RhoA translocation might be involved in diabetic renal injury.     

In vitro digestibility of seasonal forages used by wapiti and roe deer in northeastern China

Seasonal changes in in vitro dry matter digestibility (IVDMD) of five forage classes (browses, sedges, forbs. ferns and the bark of Ulmus spp.) used by wapiti and roe deer were determined in relation to chemical composition, using the two-stage technique of in vitro trial with rumen inocula from one wapiti and one roe deer captured in winter. Wapiti and roe deer showed remarkable fluctuation in IVDMD among seasons and forage classes. IVDMD decreased from 43.8-64.3% in spring to 29.4-40.5% in winter for wapiti, and from 52.4-77.4% in spring to 25.9-36.5% in winter for roe deer. There was significant variation in IVDMD among species of browses for wapiti and roe deer. IVDMD ranged from 28.5% to 58.7% in twigs and from 39.8% to 58.2% in leaves for wapiti, and from 24.1% to 67.7% in twigs and from 40.0% to 71.7% in leaves for roe deer. Roe deer had higher IVDMD (40.0-71.7%) in both leaves and twigs of browses than wapiti (35.9-58.7%) during snow-free seasons, but IVDMD of twigs was lower for roc deer (25.9-36.5%) than wapiti (29.4-38.4%) in winter. Significant multiple correlation was found between NDF and ADF, and IVDMD in sedges, forbs and ferns for both wapiti and roe deer, whereas only roe deer showed the significant multiple correlation for leaves of browses.     

Arginine attenuates chronic mountain sickness in rats via microRNA-144-5p

Mammalian Genome - Hypobaric hypoxia is an environmental stress leading to high-altitude pulmonary hypertension. While high-altitude pulmonary hypertension has been linked to high hematocrit...     

Celastrol Prevents Atherosclerosis via Inhibiting LOX-1 and Oxidative Stress

Celastrol is a triterpenoid compound extracted from the Chinese herb Tripterygium wilfordii Hook F. Previous research has revealed its anti-oxidant, anti-inflammatory, anti-cancer and immunosuppressive properties. Here, we investigated whether celastrol inhibits oxidized low-density lipoprotein (oxLDL) induced oxidative stress in RAW 264.7 cells. In addition, the effect of celastrol on atherosclerosis in vivo was assessed in apolipoprotein E knockout (apoE^−/−) mouse fed a high-fat/high-cholesterol diet (HFC). We found that celastrol significantly attenuated oxLDL-induced excessive expression of lectin-like oxidized low density lipoprotein receptor-1(LOX-1) and generation of reactive oxygen species (ROS) in cultured RAW264.7 macrophages. Celastrol also decreased IκB phosphorylation and degradation and reduced production of inducible nitric oxide synthase (iNOS), nitric oxide (NO) and proinflammatory cytokines such as tumor necrosis factor (TNF)-α and IL-6. Celastrol reduced atherosclerotic plaque size in apoE^−/− mice. The expression of LOX-1 within the atherosclerotic lesions and generation of superoxide in mouse aorta were also significantly reduced by celastrol while the lipid profile was not improved. In conclusion, our results show that celastrol inhibits atherosclerotic plaque developing in apoE^−/− mice via inhibiting LOX-1 and oxidative stress.     

Comprehensive genetic analysis of adhesin proteins and their role in virulence of Candida albicans

Candida albicans is a microbial fungus that exists as a commensal member of the human microbiome and an opportunistic pathogen. Cell surface-associated adhesin proteins play a crucial role in C. albicans’ ability to undergo cellular morphogenesis, develop robust biofilms, colonize, and cause infection in a host. However, a comprehensive analysis of the role and relationships between these adhesins has not been explored. We previously established a CRISPR-based platform for efficient generation of single- and double-gene deletions in C. albicans, which was used to construct a library of 144 mutants, comprising 12 unique adhesin genes deleted singly, and every possible combination of double deletions. Here, we exploit this adhesin mutant library to explore the role of adhesin proteins in C. albicans virulence. We perform a comprehensive, high-throughput screen of this library, using Caenorhabditis elegans as a simplified model host system, which identified mutants critical for virulence and significant genetic interactions. We perform follow-up analysis to assess the ability of high- and low-virulence strains to undergo cellular morphogenesis and form biofilms in vitro, as well as to colonize the C. elegans host. We further perform genetic interaction analysis to identify novel significant negative genetic interactions between adhesin mutants, whereby combinatorial perturbation of these genes significantly impairs virulence, more than expected based on virulence of the single mutant constituent strains. Together, this study yields important new insight into the role of adhesins, singly and in combinations, in mediating diverse facets of virulence of this critical fungal pathogen.