Ameis D, Merkel M, Eckerskorn C, Greten H
Department of Medicine, University Hospital Eppendorf, Hamburg, Germany.
Eur J Biochem. 1994 Feb 1;219(3):905-14. doi: 10.1111/j.1432-1033.1994.tb18572.x.
Lysosomal acid lipase (LAL) is a hydrolase essential for the intracellular degradation of cholesteryl esters and triacylglycerols. This report describes a multi-step procedure for the purification of LAL from human liver. After solubilization with non-ionic detergent, acid hydrolase activity was purified 17000-fold to apparent homogeneity by sequential chromatography on Concanavalin A Sepharose, carboxymethyl-cellulose, phenyl Superose, Mono S cation exchange and Superose 12 gel-filtration columns. This procedure yielded two silver-staining protein bands of 56 kDa and 41 kDa on SDS/PAGE. Size-exclusion chromatography of the 41-kDa protein indicated that the enzyme was catalytically competent as a monomer of approximately 38 kDa. When assayed in the presence of cholesteryl oleate or trioleoylglycerol, purified acid lipase had Vmax values of 4390 nmol fatty acid.min-1.mg protein and 4756 nmol fatty acid.min-1.mg protein-1, and apparent Km values of 0.142 mM and 0.138 mM, respectively. The purified enzyme was most active at low pH (4.5-5.0) and required non-ionic detergent and ethylene glycol for optimal stability. Incubation of the 41-kDa acid lipase with endoglucosaminidase H reduced the molecular mass by 4-6 kDa, demonstrating Asn-linked glycosylation with high-mannose oligosaccharides. Deglycosylation did not affect enzymic activity, indicating that carbohydrates are not required for LAL activity. Based on partial peptide sequence, an oligonucleotide was synthesized and utilized to isolate LAL cDNA clones from a human liver cDNA library. A full-length LAL cDNA contained 2626 nucleotides and coded for a predicted protein of 372 amino acids, preceded by a 27 residue hydrophobic signal peptide. Hepatic LAL differed from fibroblast acid lipase at the N-terminus and revealed extensive similarities with human gastric lipase and rat lingual lipase, confirming a gene family of acid lipases. Northern hybridization using the complete LAL cDNA as a radiolabeled probe indicated striking differences in mRNA expression among human tissues. LAL mRNA was most abundant in brain, lung, kidney and mammary gland. Placenta and HeLa cells expressed intermediate amounts of LAL mRNA, while RNA extracted from liver and heart showed low levels of expression.
溶酶体酸性脂肪酶(LAL)是一种水解酶,对细胞内胆固醇酯和三酰甘油的降解至关重要。本报告描述了一种从人肝脏中纯化LAL的多步骤方法。用非离子去污剂溶解后,通过在伴刀豆球蛋白A琼脂糖、羧甲基纤维素、苯基超琼脂糖、单S阳离子交换和超琼脂糖12凝胶过滤柱上依次进行层析,酸性水解酶活性被纯化了17000倍,达到了明显同质性。该方法在SDS/PAGE上产生了两条银染蛋白带,分子量分别为56 kDa和41 kDa。对41 kDa蛋白进行尺寸排阻色谱分析表明,该酶作为约38 kDa的单体具有催化活性。在油酸胆固醇酯或三油酰甘油存在下进行测定时,纯化的酸性脂肪酶的Vmax值分别为4390 nmol脂肪酸·min-1·mg蛋白和4756 nmol脂肪酸·min-1·mg蛋白-1,表观Km值分别为0.142 mM和0.138 mM。纯化的酶在低pH(4.5 - 5.0)下活性最高,并且需要非离子去污剂和乙二醇以实现最佳稳定性。将41 kDa的酸性脂肪酶与内切葡糖胺酶H一起孵育可使分子量降低4 - 6 kDa,表明存在与高甘露糖寡糖的N-连接糖基化。去糖基化不影响酶活性,表明碳水化合物对于LAL活性不是必需的。基于部分肽序列,合成了一种寡核苷酸,并用于从人肝脏cDNA文库中分离LAL cDNA克隆。一个全长LAL cDNA包含2626个核苷酸,编码一个预测的由372个氨基酸组成的蛋白质,前面有一个27个残基的疏水信号肽。肝脏LAL在N端与成纤维细胞酸性脂肪酶不同,并与人类胃脂肪酶和大鼠舌脂肪酶有广泛的相似性,证实了酸性脂肪酶的一个基因家族。使用完整的LAL cDNA作为放射性标记探针进行Northern杂交表明,人类组织之间mRNA表达存在显著差异。LAL mRNA在脑(大脑)、肺、肾和乳腺中最为丰富。胎盘和HeLa细胞表达中等量的LAL mRNA,而从肝脏和心脏提取的RNA显示出低水平的表达。 (注:原文中brain直译为脑,这里根据语境补充为大脑使表达更准确)
