Centre Hospitalier Universitaire Sainte-Justine Research Center, University of Montreal, Montreal, QC, Canada.
Department of Anatomy and Cell Biology, McGill University, Montreal, QC, Canada.
J Exp Med. 2022 Aug 1;219(8). doi: 10.1084/jem.20211860. Epub 2022 Jun 15.
The majority of mucopolysaccharidosis IIIC (MPS IIIC) patients have missense variants causing misfolding of heparan sulfate acetyl-CoA:α-glucosaminide N-acetyltransferase (HGSNAT), which are potentially treatable with pharmacological chaperones. To test this approach, we generated a novel HgsnatP304L mouse model expressing misfolded HGSNAT Pro304Leu variant. HgsnatP304L mice present deficits in short-term and working/spatial memory 2-4 mo earlier than previously described constitutive knockout Hgsnat-Geo mice. HgsnatP304L mice also show augmented severity of neuroimmune response, synaptic deficits, and neuronal storage of misfolded proteins and gangliosides compared with Hgsnat-Geo mice. Expression of misfolded human Pro311Leu HGSNAT protein in cultured hippocampal Hgsnat-Geo neurons further reduced levels of synaptic proteins. Memory deficits and majority of brain pathology were rescued in mice receiving HGSNAT chaperone, glucosamine. Our data for the first time demonstrate dominant-negative effects of misfolded HGSNAT Pro304Leu variant and show that they are treatable by oral administration of glucosamine. This suggests that patients affected with mutations preventing normal folding of the enzyme can benefit from chaperone therapy.
大多数黏多糖贮积症 III 型(MPS III)患者的错义变异导致硫酸乙酰肝素:α-葡糖胺 N-乙酰转移酶(HGSNAT)错误折叠,这些变异可能可以通过药理学伴侣进行治疗。为了验证这种方法,我们构建了一种新型的 HgsnatP304L 小鼠模型,该模型表达错误折叠的 HGSNAT Pro304Leu 变异体。与之前描述的组成型敲除 Hgsnat-Geo 小鼠相比,HgsnatP304L 小鼠在 2-4 个月时表现出短期和工作/空间记忆缺陷。与 Hgsnat-Geo 小鼠相比,HgsnatP304L 小鼠还表现出神经免疫反应、突触缺陷以及错误折叠蛋白和神经节苷脂的神经元储存增强的严重程度。在培养的海马 Hgsnat-Geo 神经元中表达错误折叠的人类 Pro311Leu HGSNAT 蛋白进一步降低了突触蛋白的水平。接受 HGSNAT 伴侣物氨基葡萄糖治疗的小鼠记忆缺陷和大多数脑部病变得到了挽救。我们的数据首次证明了错误折叠的 HGSNAT Pro304Leu 变异体的显性负效应,并表明它们可以通过口服氨基葡萄糖治疗。这表明受影响的患者可以从伴侣治疗中受益,这些患者的突变会阻止酶的正常折叠。
