蔗糖对溶酶体-甘露糖苷酶的优先抑制作用。

Enzyme Pub Date : 1990-01-01 DOI:10.1159/000468720
N R McCabe, W Biliter, G Dawson
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引用次数: 1

摘要

溶酶体贮积病-甘露糖苷病,在山羊和人类中都有描述,可以通过测量荧光底物4-甲基伞形菊- β - d -甘露糖苷水解缺陷来检测。在含有0.25 mol/l蔗糖的磷酸盐缓冲盐水(pH 7.4)中匀浆后,检测到豚鼠β -甘露糖苷酶(β -man)活性的抑制剂。当使用特异性β -人多克隆抗体从组织中免疫沉淀酶时,这种抑制剂的存在是明显的。与非免疫沉淀酶的活性相比,免疫沉淀酶(抗体-酶复合物)的活性增加了三倍。因此进行了一项广泛的研究,通过分析一系列金属离子和糖对β -man活性的影响来确定这种抑制剂的性质和特异性,并与其他溶酶体水解酶活性进行了比较。虽然铁、铁、钴和锰离子对β -man具有高度的抑制作用,但它们对其他溶酶体水解酶也有类似程度的抑制作用。同样,甘露糖同样抑制α -man和β -man的活性。唯一以与组织匀浆中观察到的方式相似的方式特异性抑制β -man的化合物是葡萄糖基(β, 2)果糖呋喃苷(蔗糖)。这是一个重要的发现,因为组织样本通常是在含有蔗糖的缓冲液中制备的,这可能导致对-man缺乏症的错误诊断。为了确定激活因子的缺失或特定抑制剂的存在是否是受影响的人类和山羊培养成纤维细胞缺乏β -man活性的一个因素,将正常和受影响的细胞提取物混合研究,但没有发现β -man活性的恢复或抑制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preferential inhibition of lysosomal beta-mannosidase by sucrose.

The lysosomal storage disease beta-mannosidosis, described in both goats and humans, can be detected by measuring a deficiency in hydrolysis of the fluorogenic substrate 4-methylumbelliferyl-beta-D-mannoside. An inhibitor of guinea pig beta-mannosidase (beta-man) activity was detected when tissue was homogenized in phosphate-buffered-saline (pH 7.4) containing 0.25 mol/l sucrose. The existence of such an inhibitor was apparent when the enzyme was immunoprecipitated from tissue using a specific beta-man polyclonal antibody. There was up to a threefold increase in activity in the immunoprecipitated enzyme (antibody-enzyme complex) compared to the activity of the nonimmunoprecipitated enzyme. An extensive study was therefore undertaken to determine the nature and specificity of this inhibitor by analyzing the effect of a range of metal ions and sugars on beta-man activity compared to other lysosomal hydrolase activities. Although ferrous, ferric, cobalt, and manganese ions were highly inhibitory to beta-man, they also inhibited other lysosomal hydrolases to a similar extent. Likewise, mannose inhibited both alpha- and beta-man activities equally. The only compound to specifically inhibit beta-man in a manner similar to that observed in the tissue homogenate was glucosyl(beta, 2)fructofuranoside (sucrose). This is an important finding in that tissue samples are commonly prepared in buffers containing sucrose and this could lead to a wrong diagnosis of beta-man deficiency. In order to determine if the absence of an activator factor or alternatively the presence of a specific inhibitor was a contributing factor in the lack of beta-man activity in cultured fibroblasts from affected humans and goats, mixing studies with normal and affected cell extracts were performed but no restoration or inhibition of beta-man activity was found.

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