Yoshimoto Makoto, Wang Shaoqing, Fukunaga Kimitoshi, Walde Peter, Kuboi Ryoichi, Nakao Katsumi
Department of Applied Chemistry and Chemical Engineering, Faculty of Engineering, Yamaguchi University, 2-16-1 Tokiwadai, Ube, 755-8611 Japan.
Biotechnol Bioeng. 2003 Mar 20;81(6):695-704. doi: 10.1002/bit.10514.
Glucose oxidase-containing liposomes (GOL) as well as detergent-modulated glucose oxidase-containing liposomes were prepared and characterized, focusing not only on the reactivity of the liposomes upon external addition of glucose but also on the leakage of the entrapped glucose oxidase (GO) from the liposomes with the aim of developing a reactive and stable liposomal GO system. The membranes of the GOL prepared were composed of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) and modulated with either Triton X-100 or cholate. In the absence of added detergent, no GO leakage from the GOL was observed while its enzymatic activity was very low (low glucose permeability). As detergent-modulated liposomes, mixed POPC/Triton X-100 and mixed POPC/cholate liposomes (abbreviated as TL and CL, respectively) were prepared at different effective detergent/POPC molar ratios (R(e)) ranging from R(e) = 0 to R(e) = R(e) (sat) (R(e) (sat) is the critical value of R(e) at which the liposome membrane is saturated with detergent). The reactivity of GO-loaded TL (abbreviated as GOTL) or GO-loaded CL (GOCL) increased drastically with increase in the respective detergent content in the liposomes. In the case of GOTL, at R(e) (sat) = 0.40, a high reactivity was measured with a simultaneous high extent of GO leakage, suggesting that the observed enzymatic reaction was catalyzed mainly by leaked GO, caused by the interaction of Triton X-100 with the POPC membrane. On the other hand, GOCL prepared at R(e) (sat) = 0.43 showed relatively high reactivity with only a small extent of GO leakage, suggesting that most of the enzyme reaction was limited by the glucose permeation across the bilayers of GOCL. The GO leakage from GOCL was found to occur mostly during the rearrangement of the liposomal membrane during the preparation of the GOCL (mixing the GOL and cholate). Fluorescence polarization measurements of membrane-associated DPH (1,6-diphenyl-1,3,5-hexatriene) indicated that CL prepared by modifying POPC with cholate did not lead to a drastic change in membrane fluidity, indicating that the interacting cholate molecules did not penetrate deeply into the POPC bilayers. In summary, it was clearly shown that the membrane permeability of GOL can be quite simply modulated by mixing it with a certain amount of cholate to form highly reactive and stable GOCL with minimal enzyme leakage.
制备并表征了含葡萄糖氧化酶的脂质体(GOL)以及经去污剂调节的含葡萄糖氧化酶的脂质体,不仅关注脂质体在外部添加葡萄糖时的反应性,还关注包封的葡萄糖氧化酶(GO)从脂质体中的泄漏情况,目的是开发一种反应性和稳定性良好的脂质体GO系统。所制备的GOL膜由1 - 棕榈酰 - 2 - 油酰 - sn - 甘油 - 3 - 磷酸胆碱(POPC)组成,并用Triton X - 100或胆酸盐进行调节。在未添加去污剂的情况下,未观察到GO从GOL中泄漏,但其酶活性非常低(葡萄糖渗透性低)。作为经去污剂调节的脂质体,分别以不同的有效去污剂/POPC摩尔比(R(e))制备了混合的POPC/Triton X - 100和混合的POPC/胆酸盐脂质体(分别简称为TL和CL),R(e)范围从R(e)=0到R(e)=R(e)(饱和)(R(e)(饱和)是脂质体膜被去污剂饱和时R(e)的临界值)。负载GO的TL(简称为GOTL)或负载GO的CL(GOCL)的反应性随着脂质体中各自去污剂含量的增加而急剧增加。在GOTL的情况下,当R(e)(饱和)=0.40时,测量到高反应性同时伴有高程度的GO泄漏,这表明观察到的酶促反应主要由泄漏的GO催化,这是由于Triton X - 100与POPC膜的相互作用引起的。另一方面,在R(e)(饱和)=0.43制备的GOCL显示出相对较高的反应性,且只有少量的GO泄漏,这表明大多数酶促反应受葡萄糖跨GOCL双层渗透的限制。发现GO从GOCL泄漏主要发生在GOCL制备过程中脂质体膜的重排期间(将GOL和胆酸盐混合)。对膜相关的DPH(1,6 - 二苯基 - 1,3,5 - 己三烯)进行荧光偏振测量表明,用胆酸盐修饰POPC制备的CL不会导致膜流动性发生剧烈变化,这表明相互作用的胆酸盐分子不会深入渗透到POPC双层中。总之,清楚地表明,通过将GOL与一定量的胆酸盐混合,可以非常简单地调节GOL的膜通透性,以形成具有高反应性和稳定性且酶泄漏最少的GOCL。
