在小鼠中同时存在酸性β-葡萄糖苷酶突变和 Saposin C 缺乏会导致 Gba1 突变依赖性和组织特异性疾病表型。

Combination of acid β-glucosidase mutation and Saposin C deficiency in mice reveals Gba1 mutation dependent and tissue-specific disease phenotype.

机构信息

Division of Human Genetics, Cincinnati Children's Hospital Medical Center, Cincinnati, OH, USA.

Department of Pathology and Laboratory Medicine, Cincinnati Children's Hospital Medical Center, Cincinnati, OH, USA.

出版信息

Sci Rep. 2019 Apr 3;9(1):5571. doi: 10.1038/s41598-019-41914-7.

DOI:10.1038/s41598-019-41914-7

PMID:30944381

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6447580/

Abstract

Gaucher disease is caused by mutations in GBA1 encoding acid β-glucosidase (GCase). Saposin C enhances GCase activity and protects GCase from intracellular proteolysis. Structure simulations indicated that the mutant GCases, N370S (0 S), V394L (4L) and D409V(9V)/H(9H), had altered function. To investigate the in vivo function of Gba1 mutants, mouse models were generated by backcrossing the above homozygous mutant GCase mice into Saposin C deficient (C*) mice. Without saposin C, the mutant GCase activities in the resultant mouse tissues were reduced by ~50% compared with those in the presence of Saposin C. In contrast to 9H and 4L mice that have normal histology and life span, the 9H;C* and 4L;C* mice had shorter life spans. 9H;C* mice developed significant visceral glucosylceramide (GC) and glucosylsphingosine (GS) accumulation (GC»GS) and storage macrophages, but lesser GC in the brain, compared to 4L;C* mice that presents with a severe neuronopathic phenotype and accumulated GC and GS primarily in the brain. Unlike 9V mice that developed normally for over a year, 9V;C* pups had a lethal skin defect as did 0S;C* mice resembled that of 0S mice. These variant Gaucher disease mouse models presented a mutation specific phenotype and underscored the in vivo role of Saposin C in the modulation of Gaucher disease.

摘要

戈谢病是由编码酸性β-葡萄糖苷酶（GCase）的 GBA1 基因突变引起的。脑苷脂激活蛋白 C 增强 GCase 的活性并保护 GCase 免受细胞内蛋白水解。结构模拟表明，突变 GCase N370S（0S）、V394L（4L）和 D409V（9V）/H409（9H）的功能发生改变。为了研究 Gba1 突变体的体内功能，通过将上述纯合突变 GCase 小鼠与脑苷脂激活蛋白 C 缺乏（C*）小鼠回交，生成了小鼠模型。没有脑苷脂激活蛋白 C，与存在脑苷脂激活蛋白 C 时相比，突变 GCase 在产生的小鼠组织中的活性降低了约 50%。与 9H 和 4L 小鼠具有正常的组织学和寿命相比，9H;C和 4L;C小鼠的寿命更短。9H;C小鼠的内脏葡萄糖脑苷脂（GC）和葡萄糖鞘氨醇（GS）积累（GC»GS）和储存巨噬细胞明显增加，但与 4L;C小鼠相比，脑内 GC 较少，后者表现出严重的神经病变表型，主要在脑内积累 GC 和 GS。与在一年多时间内正常发育的 9V 小鼠不同，9V;C幼鼠出现致命的皮肤缺陷，0S;C小鼠与 0S 小鼠相似。这些变异型戈谢病小鼠模型表现出突变特异性表型，并强调了脑苷脂激活蛋白 C 在戈谢病调节中的体内作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b29e/6447580/3d17b00528dc/41598_2019_41914_Fig1_HTML.jpg

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Combination of acid β-glucosidase mutation and Saposin C deficiency in mice reveals Gba1 mutation dependent and tissue-specific disease phenotype.在小鼠中同时存在酸性β-葡萄糖苷酶突变和 Saposin C 缺乏会导致 Gba1 突变依赖性和组织特异性疾病表型。

Sci Rep. 2019 Apr 3;9(1):5571. doi: 10.1038/s41598-019-41914-7.

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在小鼠中同时存在酸性β-葡萄糖苷酶突变和 Saposin C 缺乏会导致 Gba1 突变依赖性和组织特异性疾病表型。

Combination of acid β-glucosidase mutation and Saposin C deficiency in mice reveals Gba1 mutation dependent and tissue-specific disease phenotype.

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