Obtusifolin inhibits podocyte apoptosis by inactivating NF-κB signaling in acute kidney injury

IF 2 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Haiyan Xiang, Yan Wu, Yun Zhang, Yuanhao Hong, Yaling Xu
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引用次数: 0

Abstract

Acute kidney injury (AKI) is a common clinical condition and is associated with unacceptable morbidity and mortality. Obtusifolin is an anthraquinone extracted from the seeds of Cassia obtusifolia with anti-inflammatory properties. This study focused on the role and mechanism of obtusifolin in AKI. The mouse podocyte cell line MPC5 was exposed to lipopolysaccharide (LPS) to establish a cell model of AKI. The viability of MPC5 cells treated with obtusifolin and/or LPS was detected by 3-(4, 5-Dimethylthiazol-2-yl)-2,5diphenyltetrazolium bromide assay. Cell apoptosis was analyzed by flow cytometry. The levels of podocyte injury- and apoptosis-related proteins as well as the nuclear factor-kappaB (NF-κB) signaling pathway was examined using western blotting analysis. The renal protective effects of obtusifolin were determined using an LPS-induced mouse model of AKI. Serum creatinine and blood urea nitrogen levels were measured. Hematoxylin–eosin staining of kidney sections was performed to evaluate renal histology. We found that MPC5 cells treated with LPS showed suppressed cell viability (p < 0.01) and increased cell apoptosis (p < 0.001). LPS reduced the protein expression of Bcl-2, nephrin, and synaptopodin as well as increased the protein levels of Bax and Cleaved Caspase-3 in podocytes in a concentration-dependent manner (p < 0.01). In addition, 10 μg/ml LPS-repressed cell viability was rescued by obtusifolin in a concentration-dependent manner (p < 0.01). Moreover, LPS-induced increase in MPC5 cell apoptosis was reversed by obtusifolin treatment (p < 0.01). Obtusifolin administration ameliorated LPS-induced kidney injury and reduced blood urea nitrogen and serum creatinine levels in mice (p < 0.001). Additionally, obtusifolin inhibited LPS-induced activation of NF-κB signaling in vitro and in vivo (p < 0.01). Overall, obtusifolin was effective in protecting renal function against LPS-induced AKI via inactivation of NF-κB signaling, which suggested that obtusifolin may act as a valuable agent for AKI therapy.

Abstract Image

奥曲昔布林通过抑制急性肾损伤中的 NF-κB 信号传导抑制荚膜细胞凋亡
急性肾损伤(AKI)是一种常见的临床症状,其发病率和死亡率令人难以接受。决明子苷是从决明子种子中提取的一种蒽醌,具有抗炎特性。本研究的重点是研究决明子苷在 AKI 中的作用和机制。将小鼠荚膜细胞系 MPC5 暴露于脂多糖(LPS),以建立 AKI 细胞模型。用 3-(4,5-二甲基噻唑-2-基)-2,5-二苯基溴化四氮唑法检测经钝化剂和/或 LPS 处理的 MPC5 细胞的活力。细胞凋亡采用流式细胞术进行分析。使用 Western 印迹分析法检测了荚膜细胞损伤和凋亡相关蛋白以及核因子-卡巴(NF-κB)信号通路的水平。使用 LPS 诱导的小鼠 AKI 模型测定了欧曲司酞的肾脏保护作用。测定了血清肌酐和血尿素氮水平。对肾脏切片进行了苏木精-伊红染色,以评估肾脏组织学。我们发现,经 LPS 处理的 MPC5 细胞显示出细胞活力下降(p < 0.01)和细胞凋亡增加(p < 0.001)。LPS 降低了荚膜细胞中 Bcl-2、nepphrin 和 synaptopodin 的蛋白表达,并以浓度依赖的方式增加了 Bax 和裂解 Caspase-3 的蛋白水平(p <0.01)。此外,10 μg/ml LPS 压制的细胞存活率在浓度依赖性的情况下被欧曲司福林挽救(p <0.01)。此外,LPS 诱导的 MPC5 细胞凋亡增加也被欧曲司福林逆转(p < 0.01)。服用奥曲肽可改善 LPS 诱导的肾损伤,降低小鼠的血尿素氮和血清肌酐水平(p < 0.001)。此外,欧曲司福林还能在体外和体内抑制 LPS 诱导的 NF-κB 信号激活(p < 0.01)。总之,欧曲司福林能通过灭活 NF-κB 信号,有效保护肾功能免受 LPS 诱导的 AKI 的影响,这表明欧曲司福林可能是治疗 AKI 的一种有价值的药物。
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来源期刊
Cytotechnology
Cytotechnology 生物-生物工程与应用微生物
CiteScore
4.10
自引率
0.00%
发文量
49
审稿时长
6-12 weeks
期刊介绍: The scope of the Journal includes: 1. The derivation, genetic modification and characterization of cell lines, genetic and phenotypic regulation, control of cellular metabolism, cell physiology and biochemistry related to cell function, performance and expression of cell products. 2. Cell culture techniques, substrates, environmental requirements and optimization, cloning, hybridization and molecular biology, including genomic and proteomic tools. 3. Cell culture systems, processes, reactors, scale-up, and industrial production. Descriptions of the design or construction of equipment, media or quality control procedures, that are ancillary to cellular research. 4. The application of animal/human cells in research in the field of stem cell research including maintenance of stemness, differentiation, genetics, and senescence, cancer research, research in immunology, as well as applications in tissue engineering and gene therapy. 5. The use of cell cultures as a substrate for bioassays, biomedical applications and in particular as a replacement for animal models.
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