Schulz A, Marx U C, Hidaka Y, Shimonishi Y, Rösch P, Forssmann W G, Adermann K
Niedersächsisches Institut für Peptid-Forschung, Hannover, Germany.
Protein Sci. 1999 Sep;8(9):1850-9. doi: 10.1110/ps.8.9.1850.
Guanylin is a guanylyl cyclase (GC)-activating peptide that is mainly secreted as the corresponding prohormone of 94 amino acid residues. In this study, we show that the originally isolated 15-residue guanylin, representing the COOH-terminal part of the prohormone, is released from the prohormone by cleavage of an Asp-Pro amide bond under conditions applied during the isolation procedures. Thus, the 15-residue guanylin is probably a non-native, chemically induced GC-activating peptide. This guanylin molecule contains two disulfide bonds that are absolutely necessary for receptor activation. We demonstrate that the folding of the reduced 15-residue guanylin results almost completely in the formation of the two inactive disulfide isomers. In contrast, the reduced form of proguanylin containing the entire prosequence folds to a product with the native cysteine connectivity. Because proguanylin lacking the 31 NH2-terminal residues of the prosequence folds only to a minor extent to guanylin with the native disulfide bonds, it is evident that this NH2-terminal region contributes significantly to the correct disulfide-coupled folding. Structural studies using CD and NMR spectroscopy show that native proguanylin contains a considerable amount of alpha-helical and, to a lesser extent, beta-sheet structural elements. In addition, a close proximity of the NH2- and the COOH-terminal regions was found by NOESY. It appears that this interaction is important for the constitution of the correct conformation and provides an explanation of the minor guanylyl cyclase activity of proguanylin by shielding the bioactive COOH-terminal domain from the receptor.
鸟苷林是一种鸟苷酸环化酶(GC)激活肽,主要以前体激素的形式分泌,该前体激素由94个氨基酸残基组成。在本研究中,我们发现最初分离出的15个氨基酸残基的鸟苷林,代表前体激素的COOH末端部分,在分离过程中所采用的条件下,通过Asp-Pro酰胺键的切割从前体激素中释放出来。因此,15个氨基酸残基的鸟苷林可能是一种非天然的、化学诱导的GC激活肽。这种鸟苷林分子含有两个二硫键,这两个二硫键对于受体激活是绝对必需的。我们证明,还原型15个氨基酸残基的鸟苷林几乎完全折叠形成两种无活性的二硫键异构体。相反,含有完整前导序列的前体鸟苷林的还原形式折叠成具有天然半胱氨酸连接性的产物。由于缺少前导序列31个NH2末端残基的前体鸟苷林仅在较小程度上折叠成具有天然二硫键的鸟苷林,显然该NH2末端区域对正确的二硫键偶联折叠有显著贡献。使用圆二色光谱和核磁共振光谱进行的结构研究表明,天然前体鸟苷林含有大量的α螺旋结构,以及较少程度的β折叠结构元件。此外,通过NOESY发现NH2末端和COOH末端区域紧密相邻。看来这种相互作用对于正确构象的形成很重要,并通过屏蔽生物活性COOH末端结构域与受体的相互作用,解释了前体鸟苷林较低的鸟苷酸环化酶活性。