Fluorescent inhibitors reveal solvent-dependent micropolarity in the lipid binding sites of lipases

Olga V Oskolkova, Albin Hermetter
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引用次数: 5

Abstract

Triacylglycerol analogue p-nitrophenyl phosphonates specifically react with the active-site serine of lipolytic enzymes to give covalent lipase–inhibitor complexes, mimicking the first transition state which is involved in lipase-mediated ester hydrolysis. Here we report on a new type of phosphonate inhibitors containing a polarity-sensitive fluorophore to monitor micropolarity around the active site of the enzyme in different solvents. The respective compounds are hexyl and methyl dimethylamino-naphthalenecarbonylethylmercaptoethoxy-phosphonates. The hexyl phosphonate derivative was reacted with lipases from Rhizopus oryzae (ROL), Chromobacterium viscosum (CVL), and Pseudomonas cepacia (PCL). The resulting lipid–protein complexes were characterized in solution with respect to water penetration into the lipid binding site and the associated conformational changes of the proteins as a consequence of solvent polarity changes. We found that the accessibility of the lipid-binding site in all lipases studied was lowest in water. It was much higher when the protein was dissolved in aqueous ethanol. These biophysical effects may contribute to the previously observed dramatic changes of enzyme functions such as activity and stereoselectivity depending on the respective solvents.

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荧光抑制剂揭示了脂肪酶脂质结合位点的溶剂依赖性微极性
三酰基甘油类似物对硝基苯基膦酸酯与脂肪酶活性位点丝氨酸特异性反应,形成共价脂肪酶-抑制剂复合物,模拟脂肪酶介导的酯水解的第一过渡态。在这里,我们报道了一种新型的磷酸盐抑制剂,它含有一个极性敏感的荧光团来监测不同溶剂中酶活性位点周围的微极性。相应的化合物是己基和甲基二甲氨基萘碳乙基巯基乙氧基膦酸盐。该己基膦酸酯衍生物与米根霉(ROL)、粘色杆菌(CVL)和洋葱假单胞菌(PCL)的脂肪酶反应。由此产生的脂质-蛋白复合物在溶液中表征了水渗透到脂质结合位点以及作为溶剂极性变化的相关蛋白质构象变化。我们发现所有脂酶中脂结合位点的可及性在水中最低。当蛋白质溶解在乙醇水溶液中时,它要高得多。这些生物物理效应可能导致先前观察到的酶功能的剧烈变化,如活性和立体选择性取决于各自的溶剂。
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