López-Begines Santiago, Borjini Nozha, Lavado-Roldán Ángela, Mesa-Cruz Cristina, Mavillard Fabiola, Wiersma Vera I, Rubio-Pastor Fátima, Tumini Emanuela, Paradela-Leal Carmen, Chiclana-Valcárcel María L, Aguado Carolina, Luján Rafael, Scheper Wiep, Nieto-González José L, Fernández-Chacón Rafael
Instituto de Biomedicina de Sevilla (IBiS, Hospital Universitario Virgen del Rocío/CSIC/Universidad de Sevilla), Departamento de Fisiología Médica y Biofísica, Facultad de Medicina, and CIBERNED ISCIII, Seville, Spain.
Synaptic Structure Laboratory, Instituto de Investigación en Discapacidades Neurológicas (IDINE), Departamento de Ciencias Médicas, Facultad de Medicina, Universidad Castilla-La Mancha, Albacete, Spain.
Sci Adv. 2025 May 23;11(21):eads3393. doi: 10.1126/sciadv.ads3393. Epub 2025 May 21.
Kufs disease/CLN4 is an autosomal dominant neurodegenerative disorder caused by unknown mechanisms through LeuArg and LeuΔ mutations in the DNAJC5 gene that encodes the synaptic vesicle co-chaperone cysteine string protein α (CSPα/DNAJC5). To investigate the disease mechanisms in vivo, we generated three independent mouse lines overexpressing different versions of CSPα/DNAJC5 under the neuron-specific Thy1 promoter: wild-type (WT), LeuArg, and LeuΔ. Mice expressing mutant LeuArg CSPα/DNAJC5 are viable but develop motor deficits. As described in patients with Kufs disease, we observed the pathological lipofuscinosis and intracellular structures resembling granular osmiophilic deposits (GRODs) in the mutant but not in the WT transgenic lines. Microglia engulf lipofuscin and lipofuscin-containing neurons. Notably, conventional or conditional knockout mice lacking CSPα/DNAJC5 did not exhibit any signs of increased lipofuscinosis or GRODs. Our novel mouse models provide a valuable tool to investigate the molecular mechanisms underlying Kufs disease/CLN4. DNAJC5 mutations cause neuronal lipofuscinosis through a cell-autonomous gain of a pathological function of CSPα/DNAJC5.
库夫斯病/CLN4是一种常染色体显性神经退行性疾病,其发病机制不明,是由DNAJC5基因中的LeuArg和LeuΔ突变引起的,该基因编码突触小泡共伴侣半胱氨酸串蛋白α(CSPα/DNAJC5)。为了在体内研究疾病机制,我们构建了三个独立的小鼠品系,在神经元特异性Thy1启动子的控制下过表达不同版本的CSPα/DNAJC5:野生型(WT)、LeuArg和LeuΔ。表达突变型LeuArg CSPα/DNAJC5的小鼠能够存活,但出现运动功能缺陷。正如在库夫斯病患者中所描述的那样,我们在突变体小鼠品系中观察到病理性脂褐质沉积以及类似于嗜锇颗粒沉积物(GRODs)的细胞内结构,而在野生型转基因品系中未观察到。小胶质细胞吞噬脂褐质和含有脂褐质的神经元。值得注意的是,缺乏CSPα/DNAJC5的常规或条件性敲除小鼠未表现出任何脂褐质沉积增加或出现GRODs的迹象。我们新构建的小鼠模型为研究库夫斯病/CLN4潜在的分子机制提供了一个有价值的工具。DNAJC5突变通过CSPα/DNAJC5病理性功能的细胞自主获得导致神经元脂褐质沉积。
