Mueller O T, Henry W M, Haley L L, Byers M G, Eddy R L, Shows T B
Proc Natl Acad Sci U S A. 1986 Mar;83(6):1817-21. doi: 10.1073/pnas.83.6.1817.
The inherited human disorders sialidosis and galactosialidosis are the result of deficiencies of glycoprotein-specific alpha-neuraminidase (acylneuraminyl hydrolase, EC 3.2.1.18; sialidase) activity. Two genes were determined to be necessary for expression of neuraminidase by using human-mouse somatic cell hybrids segregating human chromosomes. A panel of mouse RAG-human hybrid cells demonstrated a single-gene requirement for human neuraminidase and allowed assignment of this gene to the (pter----q23) region of chromosome 10. A second panel of mouse thymidine kinase (TK)-deficient LM/TK- -human hybrid cells demonstrated that human neuraminidase activity required both chromosomes 10 and 20 to be present. Analysis of human neuraminidase expression in interspecific hybrid cells or polykaryocytes formed from fusion of mouse RAG (hypoxanthine/guanine phosphoribosyltransferase deficient) or LM/TK- cell lines with human sialidosis or galactosialidosis fibroblasts indicated that the RAG cell line complemented the galactosialidosis defect, but the LM/TK- cell line did not. This eliminates the requirement for this gene in RAG-human hybrid cells and explains the different chromosome requirements of these two hybrid panels. Fusion of LM/TK- cell hybrids lacking chromosome 10 or 20 (phenotype 10+,20- and 10-,20+) and neuraminidase-deficient fibroblasts confirmed by complementation analysis that the sialidosis disorder results from a mutation on chromosome 10, presumably encoding the neuraminidase structural gene. Galactosialidosis is caused by a mutation in a second gene required for neuraminidase expression located on chromosome 20.
人类遗传性疾病唾液酸沉积症和半乳糖唾液酸沉积症是糖蛋白特异性α-神经氨酸酶(酰基神经氨酸水解酶,EC 3.2.1.18;唾液酸酶)活性缺乏的结果。通过使用分离人类染色体的人-鼠体细胞杂种,确定了两个基因对于神经氨酸酶的表达是必需的。一组小鼠RAG-人杂种细胞表明人类神经氨酸酶需要单个基因,并将该基因定位到染色体10的(pter----q23)区域。第二组小鼠胸苷激酶(TK)缺陷的LM/TK--人杂种细胞表明人类神经氨酸酶活性需要同时存在染色体10和20。对由小鼠RAG(次黄嘌呤/鸟嘌呤磷酸核糖基转移酶缺陷)或LM/TK-细胞系与人类唾液酸沉积症或半乳糖唾液酸沉积症成纤维细胞融合形成的种间杂种细胞或多核细胞中人类神经氨酸酶表达的分析表明,RAG细胞系补充了半乳糖唾液酸沉积症缺陷,但LM/TK-细胞系没有。这消除了RAG-人杂种细胞中该基因的需求,并解释了这两组杂种细胞不同的染色体需求。缺乏染色体10或20(表型10 +,20-和10-,20 +)的LM/TK-细胞杂种与神经氨酸酶缺陷的成纤维细胞融合,通过互补分析证实唾液酸沉积症是由染色体10上的突变引起 的,推测该突变编码神经氨酸酶结构基因。半乳糖唾液酸沉积症是由位于染色体20上的神经氨酸酶表达所需的第二个基因的突变引起的。