ACOT4 and ACOT6 activate Akt-mTOR pathway and inhibit calcium oxalate-induced renal tubular cell injury.

IF 2.3 4区医学 Q2 PERIPHERAL VASCULAR DISEASE

Kidney & blood pressure research Pub Date : 2025-06-22 DOI:10.1159/000546897

Shenghan Wang, Zhentao Lei, Wei Liu, Yuqiang Shi, Sherryn Sherryn, Qiang Gao, Bao Zhang

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引用次数: 0

Abstract

Introduction: Kidney stones caused by calcium oxalate (CaOx) is a chronic kidney disease. Acyl coenzyme A thioesterases (ACOTs) serve as the key regulators of fatty acids metabolism. However, ACOTs' effect on CaOx kidney stone formation remains to be explored. Here, we aimed to investigate the effect of ACOTs on CaOx kidney stone formation.

Methods: HK-2 and M-1 cells were cultured in DMEM/F12 medium supplemented with 10% FBS. Cells were treated with varying concentrations of calcium oxalate (CaC2O4) and transfected with siRNA or plasmid vectors targeting ACOT4 and ACOT6 using Lipofectamine RNAiMAX or Lipofectamine 3000. RT-qPCR and Western blotting were used to analyze gene and protein expression. Cell viability was assessed with CCK-8, and cell apoptosis was measured by flow cytometry. Crystal adhesion was visualized under a microscope. Lactate dehydrogenase (LDH) release was measured using a cytotoxicity assay kit. A kidney stone mouse model was established by injecting glyoxylic acid to induce kidney stones, and tissues were analyzed by Western blotting.

Results: The mRNA and protein levels of several ACOT family members were upregulated in HK-2 cells treated with CaOx (inducing cell injury). Knockdown of ACOT4 and ACOT6 significantly suppressed the activity of CaOx-pretreated HK-2 and M-1 cells, and promoted the crystal formation and LDH release, whereas overexpression of ACOT4 and ACOT6 reduced CaOx crystal-induced kidney cell injury. Furthermore, the levels of p-AKT and p-S6 decreased after ACOT4 and ACOT6 knockdown and increased following ACOT4 and ACOT6 overexpression, suggesting that both ACOT4 and ACOT6 activated Akt/mTOR signaling pathway in HK-2 cells. We also observed that knockdown of ACOT4 and ACOT6 induced the apoptosis of HK-2 cells after CaOx treatment. Inhibition of apoptosis using Z-VAD-FMK reversed the enhanced cell injury caused by CaOx treatment and ACOT4/6 knockdown, suggesting that knockdown of ACOT4 and ACOT6 promoted cell injury via inducing cell apoptosis.

Conclusions: ACOT4 and ACOT6 could be protecting factors for kidney cell injury induced by CaOx via reducing apoptosis and activating Akt/mTOR signaling pathway. The study of the role of ACOT4 and ACOT6 in kidney cell injury provides a new insight into the cause of CaOx kidney stone formation. Its in-depth study may provide new targets for stone treatment.

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ACOT4和ACOT6激活Akt-mTOR通路，抑制草酸钙诱导的肾小管细胞损伤。

草酸钙引起的肾结石是一种慢性肾脏疾病。酰基辅酶A硫酯酶（ACOTs）是脂肪酸代谢的关键调控因子。然而，ACOTs对CaOx肾结石形成的影响仍有待探讨。本研究旨在探讨ACOTs对CaOx肾结石形成的影响。方法：HK-2和M-1细胞在添加10%胎牛血清的DMEM/F12培养基中培养。用不同浓度的草酸钙（CaC2O4）处理细胞，用siRNA或质粒载体转染ACOT4和ACOT6，载体使用Lipofectamine RNAiMAX或Lipofectamine 3000。RT-qPCR和Western blotting检测基因和蛋白表达。CCK-8检测细胞活力，流式细胞术检测细胞凋亡。显微镜下观察晶体粘附情况。乳酸脱氢酶（LDH）释放量采用细胞毒性测定试剂盒测定。采用乙醛酸注射诱导肾结石小鼠模型，并进行组织免疫印迹分析。结果：CaOx诱导HK-2细胞损伤后，多个ACOT家族成员mRNA和蛋白水平上调。敲低ACOT4和ACOT6可显著抑制CaOx预处理的HK-2和M-1细胞活性，促进晶体形成和LDH释放，而过表达ACOT4和ACOT6可减轻CaOx晶体诱导的肾细胞损伤。此外，ACOT4和ACOT6敲低后，p-AKT和p-S6水平下降，ACOT4和ACOT6过表达后，p-AKT和p-S6水平升高，提示ACOT4和ACOT6激活了HK-2细胞中Akt/mTOR信号通路。我们还观察到ACOT4和ACOT6的下调诱导了CaOx处理后HK-2细胞的凋亡。使用Z-VAD-FMK抑制细胞凋亡逆转了CaOx处理和ACOT4/6敲低引起的细胞损伤加重，提示ACOT4和ACOT6敲低通过诱导细胞凋亡促进细胞损伤。结论：ACOT4和ACOT6可能是CaOx诱导肾细胞损伤的保护因子，通过减少细胞凋亡，激活Akt/mTOR信号通路。研究ACOT4和ACOT6在肾细胞损伤中的作用，为了解CaOx肾结石形成的原因提供了新的视角。对其深入研究可能为治疗结石提供新的靶点。

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来源期刊

Kidney & blood pressure research 医学-泌尿学与肾脏学

CiteScore

4.80

自引率

3.60%

发文量

审稿时长

6-12 weeks

期刊介绍： This journal comprises both clinical and basic studies at the interface of nephrology, hypertension and cardiovascular research. The topics to be covered include the structural organization and biochemistry of the normal and diseased kidney, the molecular biology of transporters, the physiology and pathophysiology of glomerular filtration and tubular transport, endothelial and vascular smooth muscle cell function and blood pressure control, as well as water, electrolyte and mineral metabolism. Also discussed are the (patho)physiology and (patho) biochemistry of renal hormones, the molecular biology, genetics and clinical course of renal disease and hypertension, the renal elimination, action and clinical use of drugs, as well as dialysis and transplantation. Featuring peer-reviewed original papers, editorials translating basic science into patient-oriented research and disease, in depth reviews, and regular special topic sections, ''Kidney & Blood Pressure Research'' is an important source of information for researchers in nephrology and cardiovascular medicine.