HOXD9/APOC1 axis promotes macrophage M1 polarization to exacerbate diabetic kidney disease progression through activating NF-κB signaling pathway.

IF 2.7 3区 生物学 Hereditas Pub Date : 2024-11-07 DOI:10.1186/s41065-024-00345-9
Ya Feng, Yalan Zhang, Fang Gao, Miaomiao Liu, Yangyan Luo
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Abstract

Background: Diabetic kidney disease (DKD) is a complication caused by end-stage diabetes mellitus and usually results in glomerular podocyte injury. Exosomes are important for intercellular information exchange. However, the effect of podocyte exosomes on DKD has not been elucidated.

Methods: GEO, PROMO, and GSE1009 databases were used to identify the gene APOC1 and transcription factor HOXD9. qRT-PCR, western blot, and transmission electron microscopy (TEM) were investigated to confirm APOC1 change in high glucose-treated podocytes and exosomes. Flow cytometry, immunofluorescence, qPCR, immunoblotting, wound healing, Transwell invasion assays, dual luciferase assay, and ChIP-PCR assay were performed to detect the effect of APOC1 and HOXD9 on macrophage polarization in high glucose-treated podocytes and exosomes. qRT-PCR and immunoblotting assays were employed to assess the impact of APOC1 knockdown on the M1 polarization of macrophages in response to liraglutide treatment.

Results: The results suggested that the expression of APOC1 in human podocytes (HPC) and exosomes was elevated. High glucose-treated HPC exosomes promoted macrophage M1-type polarization, which was reversed by adding sh-APOC1. Afterward, HOXD9 was identified as a potential transcription factor for APOC1. Knockdown of HOXD9 led to macrophage M2 polarization, and overexpression of APOC1 polarized macrophage M1. In addition, enhanced p65 phosphorylation verified that HOXD9/APOC1 induced macrophage M1-type polarization by activating the NF-κB signaling pathway. Knocking down APOC1 enhanced the inhibitory effect of liraglutide on macrophage M1 polarization.

Conclusion: Our findings highlighted that HOXD9/APOC1 was a key player in causing podocyte injury in diabetic kidney disease and led to macrophage M1 polarization through the NF-κB signaling pathway.

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HOXD9/APOC1轴通过激活NF-κB信号通路促进巨噬细胞M1极化,从而加剧糖尿病肾病的进展。
背景:糖尿病肾病(DKD)是糖尿病晚期引起的一种并发症,通常会导致肾小球荚膜细胞损伤。外泌体对于细胞间的信息交流非常重要。然而,荚膜外泌体对 DKD 的影响尚未阐明:方法:利用 GEO、PROMO 和 GSE1009 数据库确定基因 APOC1 和转录因子 HOXD9。流式细胞术、免疫荧光、qPCR、免疫印迹、伤口愈合、Transwell侵袭实验、双荧光素酶实验和ChIP-PCR实验检测了APOC1和HOXD9对高糖处理荚膜和外泌体中巨噬细胞极化的影响。采用qRT-PCR和免疫印迹法评估了APOC1敲除对利拉鲁肽处理下巨噬细胞M1极化的影响:结果表明,APOC1在人荚膜细胞(HPC)和外泌体中的表达升高。高糖处理的人荚膜细胞外泌体促进巨噬细胞M1型极化,加入sh-APOC1后可逆转这种极化。随后,HOXD9被确定为APOC1的潜在转录因子。敲除 HOXD9 会导致巨噬细胞 M2 型极化,而过表达 APOC1 则会使巨噬细胞 M1 型极化。此外,p65磷酸化的增强验证了HOXD9/APOC1通过激活NF-κB信号通路诱导巨噬细胞M1型极化。敲除APOC1可增强利拉鲁肽对巨噬细胞M1型极化的抑制作用:我们的研究结果表明,HOXD9/APOC1是导致糖尿病肾病荚膜细胞损伤的关键因素,并通过NF-κB信号通路导致巨噬细胞M1型极化。
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来源期刊
Hereditas
Hereditas Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.80
自引率
3.70%
发文量
0
期刊介绍: For almost a century, Hereditas has published original cutting-edge research and reviews. As the Official journal of the Mendelian Society of Lund, the journal welcomes research from across all areas of genetics and genomics. Topics of interest include human and medical genetics, animal and plant genetics, microbial genetics, agriculture and bioinformatics.
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