Section of Nephrology, Department of Internal Medicine, Yale School of Medicine, New Haven, Connecticut.
J Am Soc Nephrol. 2023 Sep 1;34(9):1521-1534. doi: 10.1681/ASN.0000000000000164. Epub 2023 Jun 19.
Heterozygous DNAJB11 mutation carriers manifest with small cystic kidneys and renal failure in adulthood. Recessive cases with prenatal cystic kidney dysplasia were recently described. Our in vitro and mouse model studies investigate the proposed disease mechanism as an overlap of autosomal-dominant polycystic kidney disease and autosomal-dominant tubulointerstitial kidney disease pathogenesis. We find that DNAJB11 loss impairs cleavage and maturation of the autosomal-dominant polycystic kidney disease protein polycystin-1 (PC1) and results in dosage-dependent cyst formation in mice. We find that Dnajb11 loss does not activate the unfolded protein response, drawing a fundamental contrast with the pathogenesis of autosomal-dominant tubulointerstitial kidney disease. We instead propose that fibrosis in DNAJB11 -kidney disease may represent an exaggerated response to polycystin-dependent cysts.
Patients with heterozygous inactivating mutations in DNAJB11 manifest with cystic but not enlarged kidneys and renal failure in adulthood. Pathogenesis is proposed to resemble an overlap of autosomal-dominant polycystic kidney disease (ADPKD) and autosomal-dominant tubulointerstitial kidney disease (ADTKD), but this phenotype has never been modeled in vivo . DNAJB11 encodes an Hsp40 cochaperone in the endoplasmic reticulum: the site of maturation of the ADPKD polycystin-1 (PC1) protein and of unfolded protein response (UPR) activation in ADTKD. We hypothesized that investigation of DNAJB11 would shed light on mechanisms for both diseases.
We used germline and conditional alleles to model Dnajb11 -kidney disease in mice. In complementary experiments, we generated two novel Dnajb11-/- cell lines that allow assessment of PC1 C-terminal fragment and its ratio to the immature full-length protein.
Dnajb11 loss results in a profound defect in PC1 cleavage but with no effect on other cystoproteins assayed. Dnajb11-/- mice are live-born at below the expected Mendelian ratio and die at a weaning age with cystic kidneys. Conditional loss of Dnajb11 in renal tubular epithelium results in PC1 dosage-dependent kidney cysts, thus defining a shared mechanism with ADPKD. Dnajb11 mouse models show no evidence of UPR activation or cyst-independent fibrosis, which is a fundamental distinction from typical ADTKD pathogenesis.
DNAJB11 -kidney disease is on the spectrum of ADPKD phenotypes with a PC1-dependent pathomechanism. The absence of UPR across multiple models suggests that alternative mechanisms, which may be cyst-dependent, explain the renal failure in the absence of kidney enlargement.
杂合 DNAJB11 突变携带者在成年后表现为小囊状肾脏和肾衰竭。最近描述了具有产前囊状肾发育不良的隐性病例。我们的体外和小鼠模型研究调查了作为常染色体显性多囊肾病和常染色体显性肾小管间质性肾病发病机制重叠的拟议疾病机制。我们发现 DNAJB11 的缺失会损害常染色体显性多囊肾病蛋白多囊蛋白-1 (PC1) 的切割和成熟,并导致小鼠中剂量依赖性的囊肿形成。我们发现 Dnajb11 的缺失不会激活未折叠蛋白反应,这与常染色体显性肾小管间质性肾病的发病机制形成了根本的对比。相反,我们提出 DNAJB11-肾病中的纤维化可能代表对多囊蛋白依赖性囊肿的过度反应。
杂合失活突变的 DNAJB11 患者在成年后表现为囊性但肾脏不增大和肾衰竭。发病机制被提议类似于常染色体显性多囊肾病 (ADPKD) 和常染色体显性肾小管间质性肾病 (ADTKD) 的重叠,但这种表型从未在体内建模。DNAJB11 编码内质网中的 HSP40 共伴侣:ADPKD 多囊蛋白-1 (PC1) 蛋白的成熟部位和 ADTKD 中未折叠蛋白反应 (UPR) 激活的部位。我们假设对 DNAJB11 的研究将为这两种疾病的机制提供线索。
我们使用种系和条件等位基因在小鼠中建模 Dnajb11-肾病。在互补实验中,我们生成了两个新的 Dnajb11-/-细胞系,可用于评估 PC1 C 端片段及其与未成熟全长蛋白的比值。
Dnajb11 的缺失导致 PC1 切割严重缺陷,但对其他检测的囊蛋白无影响。Dnajb11-/-小鼠以低于预期的孟德尔比例出生,并在断奶年龄死于囊性肾脏。肾脏管状上皮细胞中 Dnajb11 的条件缺失导致 PC1 剂量依赖性的肾脏囊肿,因此与 ADPKD 具有共同的机制。Dnajb11 小鼠模型没有证据表明 UPR 激活或与囊肿无关的纤维化,这与典型 ADTKD 发病机制有根本区别。
DNAJB11-肾病是 ADPKD 表型谱的一部分,具有 PC1 依赖性的发病机制。多个模型中 UPR 的缺失表明,可能是囊肿依赖性的替代机制解释了在没有肾脏增大的情况下的肾衰竭。
