Intralysosomal generation of ammonia from urea by endocytosed urease results in secretion of free lysosomal arylsulfatase-A and increased activity of membrane-bound beta-glucosidase in cultured brain cells.

Enzyme Pub Date : 1991-01-01 DOI:10.1159/000468893
U N Wiesmann, J P Colombo, C Bachmann
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引用次数: 2

Abstract

Hyperammonemia interferes with normal brain function. The effect of ammonia on free and membrane-bound lysosomal enzymes and on mucopolysaccharide metabolism was studied in cultured rat brain cells (ROC-1, hybridoma between C6-astrocytoma and oligodendrocytes). Intralysosomal ammoniagenesis was achieved from urea by endocytosed Jackbean urease followed by incubation of the cultures with urea. The intralysosomal location of urease was evidenced by the protective effects of leupeptin and urea on the stability of intracellular urease. Ammonia formed from urea resulted in an increased secretion of lysosomal arylsulfatase-A (AS-A), but not of the membrane-bound lysosomal beta-glucosidase into the culture medium, thus intralysosomal AS-A activity decreased. Lysosomal, membrane-bound beta-glucosidase activity increased, presumably due to intralysosomal proteolytic protection following an increased lysosomal pH. Intralysosomal ammoniagenesis temporarily impaired 35SO4-glycosaminoglycan degradation of prelabeled cells. The results support the hypothesis that hyperammonemic states may interfere with lysosomal functions in vivo as well in cultured cells.

内溶脲酶在溶酶体内由尿素生成氨,导致游离溶酶体芳基硫酸酯酶a的分泌,并增加培养的脑细胞中膜结合β -葡萄糖苷酶的活性。
高氨血症干扰正常的脑功能。研究了氨对培养大鼠脑细胞(c -1,介于c6星形细胞瘤和少突胶质细胞之间的杂交瘤)游离溶酶体酶和膜结合溶酶体酶以及粘多糖代谢的影响。通过内吞的豆脲酶使尿素在溶酶体内产生氨,然后用尿素培养。白细胞介素和尿素对细胞内脲酶稳定性的保护作用证实了脲酶的溶酶体内定位。尿素形成的氨导致溶酶体芳基硫酸酯酶a (AS-A)分泌增加,但膜结合溶酶体β -葡萄糖苷酶没有分泌到培养基中,因此溶酶体内AS-A活性下降。溶酶体膜结合β -葡萄糖苷酶活性增加,可能是由于溶酶体内蛋白水解保护导致溶酶体ph升高。溶酶体内氨合成暂时破坏了预标记细胞的35so4 -糖胺聚糖降解。结果支持了高氨状态可能干扰体内溶酶体功能以及培养细胞的假设。
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