Ando S, McPhie P, Chaiken I M
Molecular, Cellular and Nutritional Endocrinology Branch, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, Maryland 20892.
J Biol Chem. 1987 Sep 25;262(27):12962-9.
The structural organization of neurohypophysial hormone biosynthetic precursors and the interdependence between intramolecular folding and precursor self-association were examined using sequence-engineered mutants of the semisynthetic oxytocin/bovine neurophysin precursor (pros-OT/BNPI). In [N alpha 1-Ac,N epsilon 30,71-diacetimidyl, Ala2,des-His106] Pro-Ot/BNPI or [N alpha 1-Ac,Ala2]pros-OT/BNPI), two structural elements (Tyr2 and free alpha-amino group) were eliminated which were predicted to be critical for intramolecular conformation by stabilizing contact between hormone and neurophysin domains. This mutant was used to test the dependence of precursor self-association on intramolecular conformation. In the second mutant precursor, [N alpha 30,71-diacetimidyl,D-Pro7,D-Leu8,des-His106]p ro-OT/BNPI (or [D-Pro7,D-Leu8]pros-OT/BNPI), the stereochemistry at L-Pro7-L-Leu8 was changed to test the extent to which precursor conformation depends on ordered structure in the processing/spacer sequence which connects the interacting hormone and neurophysin I domains. Intramolecular conformation was characterized for the precursor and mutants by analytical affinity chromatography on immobilized hormone analog Met-Tyr-Phe and by circular dichroism. Data obtained by both methods showed that, while pros-OT/BNPI is folded, with hormone domain occupying the hormone-binding site of the neurophysin domain, the alpha-acetyl-Ala2 mutant is not so organized intramolecularly. When pros-OT/BNPI and the alpha-acetyl-Ala2 mutant were eluted on immobilized BNPII to measure self-association propensity, the native-like precursor was found to bind with 12-15-fold higher affinity than the assembly mutant. Thus, while pros-OT/BNPI assumes a molecular structure containing a high-affinity self-association surface induced by intramolecular hormone domain-neurophysin domain interaction, [N alpha 1-Ac,Ala2]pros-OT/BNPI does not. The results with the alpha-acetyl-Ala2 mutant show that intramolecular domain-domain interaction is the obligatory "trigger" which induces the high-affinity precursor self-association that likely drives precursor to aggregated forms in the concentrated intragranular environment that exists in peptide hormone-synthesizing cells. In contrast, affinity chromatographic and circular dichroism properties of the D-Pro7,D-Leu8 mutant show that this intramolecular trigger is dependent, but only weakly, on the conformation of the peptide sequence between domains, as judged by native-like interaction properties below 40 degrees C but lowered stability to elevated temperature.(ABSTRACT TRUNCATED AT 400 WORDS)
利用半合成催产素/牛神经垂体素前体(pros-OT/BNPI)的序列工程突变体,研究了神经垂体激素生物合成前体的结构组织以及分子内折叠与前体自缔合之间的相互依赖性。在[Nα1-Ac,Nε30,71-二乙酰亚胺基,Ala2,去-His106]Pro-Ot/BNPI或[Nα1-Ac,Ala2]pros-OT/BNPI中,消除了两个结构元件(Tyr2和游离α-氨基),预计这两个元件通过稳定激素和神经垂体素结构域之间的接触对分子内构象至关重要。该突变体用于测试前体自缔合对分子内构象的依赖性。在第二个突变体前体[Nα30,71-二乙酰亚胺基,D-Pro7,D-Leu8,去-His106]pro-OT/BNPI(或[D-Pro7,D-Leu8]pros-OT/BNPI)中,改变L-Pro7-L-Leu8处的立体化学,以测试前体构象在多大程度上依赖于连接相互作用的激素和神经垂体素I结构域的加工/间隔序列中的有序结构。通过固定化激素类似物Met-Tyr-Phe上的分析亲和色谱和圆二色性对前体和突变体的分子内构象进行了表征。两种方法获得的数据表明,虽然pros-OT/BNPI折叠,激素结构域占据神经垂体素结构域的激素结合位点,但α-乙酰基-Ala2突变体在分子内没有如此组织。当pros-OT/BNPI和α-乙酰基-Ala2突变体在固定化的BNPII上洗脱以测量自缔合倾向时,发现天然样前体的结合亲和力比组装突变体高12-15倍。因此,虽然pros-OT/BNPI呈现出一种分子结构,该结构包含由分子内激素结构域-神经垂体素结构域相互作用诱导的高亲和力自缔合表面,但[Nα1-Ac,Ala2]pros-OT/BNPI并非如此。α-乙酰基-Ala2突变体的结果表明,分子内结构域-结构域相互作用是诱导高亲和力前体自缔合的必需“触发因素”,这种自缔合可能会驱使前体在肽激素合成细胞中存在的浓缩颗粒内环境中形成聚集形式。相比之下,D-Pro7,D-Leu8突变体的亲和色谱和圆二色性性质表明,这种分子内触发因素是依赖的,但仅微弱地依赖于结构域之间肽序列的构象,这可以通过低于40℃时的天然样相互作用性质判断,但对升高温度的稳定性降低。(摘要截断于400字)
