Immunoglobulin heavy constant gamma 1 silencing decreases tonicity-responsive enhancer-binding protein expression to alleviate diabetic nephropathy.

AIMS/INTRODUCTION: The molecular mechanisms of diabetic nephropathy (DN) are poorly identified. However, the advantage of an increasing amount on microarray data of diabetic nephropathy intrigued us to explore the mechanisms based on bioinformatics prediction for diabetic nephropathy. MATERIALS AND METHODS: Bioinformatics analysis was conducted to screen the hub genes associated with diabetic nephropathy. The average human renal tubular epithelial cells were exposed to high glucose (HG) to generate an in vitro cell model. In addition, a mouse model of diabetic nephropathy was established using a high-fat diet and streptozotocin injection. Finally, the shRNA targeting immunoglobulin heavy constant gamma 1 (IGHG1) was introduced in vitro and in vivo to illustrate its effect on downstream factors and on the development diabetic nephropathy. RESULTS: Bioinformatics analysis revealed that IGHG1, TRIM11 (tripartite motif protein 11), and TonEBP are highly expressed in diabetic nephropathy. In vitro cell experiments demonstrated that IGHG1 positively regulates the expression of TRIM11 and TonEBP (tonicity-responsive enhancer binding protein) in HK2 cells treated with high glucose. Furthermore, TRIM11 upregulates the expression of TonEBP through activation of the MEK/ERK (mitogen-activated protein kinase/extracellular signal-regulated kinase) signaling pathway in HK2 cells treated with high glucose. In vivo, animal experiments further confirmed that silencing IGHG1 could prevent the occurrence and development of diabetic nephropathy. CONCLUSION: The silencing of IGHG1 alleviated diabetic nephropathy by inhibiting the TRIM11/MEK/ERK axis and by downregulating TonEBP.

Neuroprotective Effects of Isoquercetin: An In Vitro and In Vivo Study.

OBJECTIVE: Alzheimer's disease (AD) is considered a neurodegenerative disease that affects the cognitive function of elderly individuals. In this study, we aimed to analyze the neuroprotective potential of isoquercetin against the in vitro and in vivo models of AD and investigated the possible underlying mechanisms. MATERIALS AND METHODS: The experimental study was performed on PC12 cells treated with lipopolysaccharide (LPS). Reactive oxygen species (ROS), antioxidant parameters, and pro-inflammatory cytokines were measured. In an in vivo approach, Wistar rats were used and divided into different groups. We carried out the Morris water test to determine the cognitive function. Biochemical parameters, antioxidant parameters, and pro-inflammatory parameters were examined. RESULTS: The non-toxic effect on PC12 cells was shown by isoquercetin. Isoquercetin significantly reduced the production of nitrate and ROS, along with the altered levels of antioxidants. Isoquercetin significantly (P<0.001) down-regulated proinflammatory cytokines in PC12 cells treated with LPS. In the in vivo approach, isoquercetintreated groups considerably showed the up-regulation in the latency and transfer latency time, as compared with AD groups. Isoquercetin significantly reduced Aß-peptide, protein carbonyl, while enhanced the production of brainderived neurotrophic factor (BDNF) and acetylcholinesterase (AChE). Isoquercetin significantly (P<0.001) reduced pro-inflammatory cytokines and inflammatory mediators, as compared with AD groups. CONCLUSION: Based on the results, we may infer that, through antioxidant and anti-inflammatory systems, isoquercetin prevented neurochemical and neurobehavioral modifications against the model of colchicine-induced AD rats.

C1q/TNF-related protein-9 alleviates airway inflammation in asthma.

BACKGROUNDS: Asthma is characterized as inflammatory disorder in the respiratory system with increasing tendency. Most of the asthma patients suffered from the disease since childhood. Thus, developing novel therapeutic targets of childhood asthma is necessary. Here, we conducted the present study to investigate the effects of CTRP9 (C1q tumor necrosis factor-related protein 9), a newly identified anti-inflammatory factor, on asthma. METHODS: Sixty asthmatic children (30 moderate and 30 mild) were recruited. The mRNA level of CTRP9 in peripheral blood mononuclear cells (PBMCs) and protein level of CTRP9 in serum and induced sputum (IS) samples from asthma patients and healthy controls (HCs) were measured by qPCR and ELISA, respectively. The anti-inflammatory effects of CTRP9 was determined in vitro and potential therapeutic effect on asthma was evaluated in mouse model. RESULTS: The mRNA and protein levels of CTRP9 was significantly down-regulated in asthmatics than HCs. Furthermore, the expression level of CTRP9 was negatively correlated with the expression of TNF-α, IL-1ß, and IL-6 in PBMCs. The CTRP9 significantly suppressed the expression of pro-inflammatory factors in PBMCs and sputum cells from asthma patients in vitro. And delivering CTRP9 into mouse model of asthma showed disease alleviation. CONCLUSION: Our data here indicated that CTRP9 may alleviate airway inflammation and remodeling in asthma.