Ghosh D, Wawrzak Z, Pletnev V Z, Li N, Kaiser R, Pangborn W, Jörnvall H, Erman M, Duax W L
Hauptman-Woodward Medical Research Institute, Inc., Buffalo, NY 14203-1196, USA.
Structure. 1995 Mar 15;3(3):279-88. doi: 10.1016/s0969-2126(01)00158-7.
Candida cylindracea cholesterol esterase (CE) reversibly hydrolyzes cholesteryl linoleate and oleate. CE belongs to the same alpha/beta hydrolase superfamily as triacylglycerol acyl hydrolases and cholinesterases. Other members of the family that have been studied by X-ray crystallography include Torpedo californica acetylcholinesterase, Geotrichum candidum lipase and Candida rugosa lipase. CE is homologous to C. rugosa lipase 1, a triacylglycerol acyl hydrolase, with which it shares 89% sequence identity. The present study explores the details of dimer formation of CE and the basis for its substrate specificity.
The structures of uncomplexed and linoleate-bound CE determined at 1.9 A and 2.0 A resolution, respectively, reveal a dimeric association of monomers in which two active-site gorges face each other, shielding hydrophobic surfaces from the aqueous environment. The fatty-acid chain is buried in a deep hydrophobic pocket near the active site. The positioning of the cholesteryl moiety of the substrate is equivocal, but could be modeled in the hydrophobic core of the dimer interface.
The monomer structure is the same in both the complexed and uncomplexed crystal forms. The dimers differ in the relative positions of the two monomers at the dimer interface. Of the 55 residues that are different in CE from those in C. rugosa lipase 1, 23 are located in the active site and at the dimer interface. The altered substrate specificity is a direct consequence of these substitutions.
柱形假丝酵母胆固醇酯酶(CE)可可逆地水解亚油酸胆固醇酯和油酸胆固醇酯。CE与三酰甘油酰基水解酶和胆碱酯酶同属α/β水解酶超家族。该家族中其他已通过X射线晶体学研究的成员包括加州电鳐乙酰胆碱酯酶、白地霉脂肪酶和皱落假丝酵母脂肪酶。CE与三酰甘油酰基水解酶皱落假丝酵母脂肪酶1同源,二者序列同一性为89%。本研究探究了CE二聚体形成的细节及其底物特异性的基础。
分别在1.9 Å和2.0 Å分辨率下测定的未结合亚油酸和结合亚油酸的CE结构显示,单体形成二聚体缔合,其中两个活性位点峡谷相对,将疏水表面与水环境隔离。脂肪酸链埋在活性位点附近的一个深疏水口袋中。底物胆固醇部分的定位不明确,但可在二聚体界面的疏水核心中建模。
在结合和未结合晶体形式中,单体结构相同。二聚体在二聚体界面处两个单体的相对位置不同。在CE中与皱落假丝酵母脂肪酶1不同的55个残基中,有23个位于活性位点和二聚体界面。这些取代直接导致了底物特异性的改变。
