人平衡核苷转运体(hENT1)在酿酒酵母中的功能性表达与重组。核苷转运抑制剂与重组hENT1及糖基化缺陷衍生物(hENT1/N48Q)的相互作用。
Functional production and reconstitution of the human equilibrative nucleoside transporter (hENT1) in Saccharomyces cerevisiae. Interaction of inhibitors of nucleoside transport with recombinant hENT1 and a glycosylation-defective derivative (hENT1/N48Q).
作者信息
Vickers M F, Mani R S, Sundaram M, Hogue D L, Young J D, Baldwin S A, Cass C E
机构信息
Department of Biochemistry, University of Alberta, 474 Medical Sciences Building, Edmonton, Alberta T6G 2H7, Canada.
出版信息
Biochem J. 1999 Apr 1;339 ( Pt 1)(Pt 1):21-32.
We have produced recombinant human equilibrative nucleoside transporter (hENT1) in the yeast Saccharomyces cerevisiae and have compared the binding of inhibitors of equilibrative nucleoside transport with the wild-type transporter and a N-glycosylation-defective mutant transporter. Equilibrium binding of 3H-labelled nitrobenzylmercaptopurine ribonucleoside {6-[(4-nitrobenzyl)thio]-9-beta-d-ribofuranosyl purine; NBMPR} to hENT1-producing yeast revealed a single class of high-affinity sites that were shown to be in membrane fractions by (1) equilibrium binding (means+/-S.D.) of [3H]NBMPR to intact yeast (Kd 1.2+/-0.2 nM; Bmax 5.0+/-0.5 pmol/mg of protein) and membranes (Kd 0.7+/-0.2 nM; Bmax 6.5+/-1 pmol/mg of protein), and (2) reconstitution of hENT1-mediated [3H]thymidine transport into proteoliposomes that was potently inhibited by NBMPR. Dilazep and dipyridamole inhibited NBMPR binding to hENT1 with IC50 values of 130+/-10 and 380+/-20 nM respectively. The role of N-linked glycosylation in the interaction of NBMPR with hENT1 was examined by the quantification of binding of [3H]NBMPR to yeast producing either wild-type hENT1 or a glycosylation-defective mutant (hENT1/N48Q) in which Asn-48 was converted into Gln. The Kd for binding of NBMPR to hENT1/N48Q was 10. 5+/-1.6 nM, indicating that the replacement of an Asn residue with Gln decreased the affinity of hENT1 for NBMPR. The decreased affinity of hENT1/N48Q for NBMPR was due to an increased rate of dissociation (koff) and a decreased rate of association (kon) of specifically bound [3H]NBMPR because the values for hENT1-producing and hENT1/N48Q-producing yeast were respectively 0.14+/-0.02 and 0. 36+/-0.05 min-1 for koff, and (1.2+/-0.1)x10(8) and (0.40+/-0. 04)x10(8) M-1.min-1 for kon. These results indicated that the conservative conversion of an Asn residue into Gln at position 48 of hENT1 and/or the loss of N-linked glycosylation capability altered the binding characteristics of the transporter for NBMPR, dilazep and dipyridamole.
我们已在酿酒酵母中生产出重组人平衡核苷转运体(hENT1),并比较了平衡核苷转运抑制剂与野生型转运体及N - 糖基化缺陷型突变转运体的结合情况。3H标记的硝基苄基巯基嘌呤核糖核苷{6 - [(4 - 硝基苄基)硫代]-9 - β - D - 呋喃核糖基嘌呤;NBMPR}与产生hENT1的酵母的平衡结合显示出一类高亲和力位点,通过以下方式证明这些位点存在于膜组分中:(1)[3H]NBMPR与完整酵母(Kd 1.2±0.2 nM;Bmax 5.0±0.5 pmol/mg蛋白质)和膜(Kd 0.7±0.2 nM;Bmax 6.5±1 pmol/mg蛋白质)的平衡结合(平均值±标准差),以及(2)hENT1介导的[3H]胸苷转运重建到蛋白脂质体中,该转运被NBMPR有效抑制。地拉卓和双嘧达莫分别以130±10和380±20 nM的IC50值抑制NBMPR与hENT1的结合。通过定量[3H]NBMPR与产生野生型hENT1或糖基化缺陷型突变体(hENT1/N48Q,其中Asn - 48被转换为Gln)的酵母的结合,研究了N - 连接糖基化在NBMPR与hENT1相互作用中的作用。NBMPR与hENT1/N48Q结合的Kd为10.5±1.6 nM,表明用Gln取代Asn残基降低了hENT1对NBMPR的亲和力。hENT1/N48Q对NBMPR亲和力降低是由于特异性结合的[3H]NBMPR的解离速率(koff)增加和结合速率(kon)降低,因为产生hENT1和hENT1/N48Q的酵母的koff值分别为0.14±0.02和0.36±0.05 min-1,kon值分别为(1.2±0.1)×10(8)和(0.40±0.04)×10(8) M-1·min-1。这些结果表明,hENT1第48位Asn残基保守转换为Gln和/或N - 连接糖基化能力丧失改变了转运体对NBMPR、地拉卓和双嘧达莫的结合特性。
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