昼夜节律紊乱与常染色体显性多囊肾病中肾囊肿的生长
Circadian Clock Disruption and Growth of Kidney Cysts in Autosomal Dominant Polycystic Kidney Disease.
作者信息
Jamadar Abeda, Ward Christopher J, Remadevi Viji, Varghese Meekha M, Pabla Navjot S, Gumz Michelle L, Rao Reena
机构信息
Kidney Institute, University of Kansas Medical Center, Kansas City, Kansas.
Department of Medicine, Division of Nephrology, University of Kansas Medical Center, Kansas City, Kansas.
出版信息
J Am Soc Nephrol. 2025 Mar 1;36(3):378-392. doi: 10.1681/ASN.0000000528. Epub 2024 Oct 14.
KEY POINTS
Lack of , a circadian clock protein in renal collecting ducts disrupted the clock and increased cyst growth and fibrosis in an autosomal dominant polycystic kidney disease mouse model. gene deletion increased cell proliferation by increasing lipogenesis in kidney cells. Thus, circadian clock disruption could be a risk factor for accelerated disease progression in patients with autosomal dominant polycystic kidney disease.
BACKGROUND
Autosomal dominant polycystic kidney disease (ADPKD) is caused by mutations in the and genes and often progresses to kidney failure. ADPKD progression is not uniform among patients, suggesting that factors secondary to the gene mutation could regulate the rate of disease progression. Here, we tested the effect of circadian clock disruption on ADPKD progression. Circadian rhythms are regulated by cell-autonomous circadian clocks composed of clock proteins. BMAL1 is a core constituent of the circadian clock.
METHODS
To disrupt the circadian clock, we deleted gene in the renal collecting ducts of the (RC/RC) mouse model of ADPKD (RC/RC;;, called double knockout [DKO] mice) and in knockout mouse inner medullary collecting duct cells (KO mouse renal inner medullary collecting duct cells). Only male mice were used.
RESULTS
Human nephrectomy ADPKD kidneys showed altered clock gene expression when compared with normal control human kidneys. When compared with RC/RC kidneys, DKO kidneys showed significantly altered clock gene expression, increased cyst growth, cell proliferation, apoptosis, and fibrosis. DKO kidneys also showed increased lipogenesis and cholesterol synthesis–related gene expression and increased tissue triglyceride levels compared with RC/RC kidneys. Similarly, , KO cells showed altered clock genes, increased lipogenesis and cholesterol synthesis–related genes, and reduced fatty acid oxidation–related gene expression compared with cells. The KO cells showed increased cell proliferation compared with cells, which was rescued by pharmacological inhibition of lipogenesis.
CONCLUSIONS
Renal collecting duct–specific gene deletion disrupted the circadian clock and triggered accelerated ADPKD progression by altering lipid metabolism–related gene expression.
关键点
在常染色体显性多囊肾病小鼠模型中,肾集合管中缺乏一种昼夜节律时钟蛋白,会破坏生物钟并增加囊肿生长和纤维化。基因缺失通过增加肾细胞中的脂肪生成来增加细胞增殖。因此,昼夜节律时钟紊乱可能是常染色体显性多囊肾病患者疾病进展加速的一个危险因素。
背景
常染色体显性多囊肾病(ADPKD)由PKD1和PKD2基因突变引起,常进展为肾衰竭。ADPKD在患者中的进展并不一致,这表明PKD基因突变的继发因素可能调节疾病进展速度。在这里,我们测试了昼夜节律时钟紊乱对ADPKD进展的影响。昼夜节律由由时钟蛋白组成的细胞自主昼夜节律时钟调节。BMAL1是昼夜节律时钟的核心组成部分。
方法
为了破坏昼夜节律时钟,我们在ADPKD的RC/RC小鼠模型(RC/RC;Bmal1-/-,称为双敲除[DKO]小鼠)的肾集合管和Bmal1敲除小鼠肾内髓集合管细胞(KO小鼠肾内髓集合管细胞)中删除Bmal1基因。仅使用雄性小鼠。
结果
与正常对照人肾相比,人ADPKD肾切除术后的肾脏显示时钟基因表达改变。与RC/RC肾相比,DKO肾显示时钟基因表达显著改变,囊肿生长、细胞增殖、细胞凋亡和纤维化增加。与RC/RC肾相比,DKO肾还显示脂肪生成和胆固醇合成相关基因表达增加,组织甘油三酯水平升高。同样,与Bmal1+细胞相比,Bmal1 KO细胞显示时钟基因改变,脂肪生成和胆固醇合成相关基因增加,脂肪酸氧化相关基因表达减少。与Bmal1+细胞相比,Bmal1 KO细胞显示细胞增殖增加,这通过脂肪生成的药理学抑制得以挽救。
结论
肾集合管特异性Bmal1基因缺失破坏了昼夜节律时钟,并通过改变脂质代谢相关基因表达引发ADPKD进展加速。
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