Tycko Robert, Sciarretta Kimberly L, Orgel Joseph P R O, Meredith Stephen C
Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892-0520, USA.
Biochemistry. 2009 Jul 7;48(26):6072-84. doi: 10.1021/bi9002666.
Asp23-to-Asn mutation within the coding sequence of beta-amyloid, called the Iowa mutation, is associated with early onset, familial Alzheimer's disease and cerebral amyloid angiopathy, in which patients develop neuritic plaques and massive vascular deposition predominantly of the mutant peptide. We examined the mutant peptide, D23N-Abeta40, by electron microscopy, X-ray diffraction, and solid-state NMR spectroscopy. D23N-Abeta40 forms fibrils considerably faster than the wild-type peptide (k = 3.77 x 10(-3) min(-1) and 1.07 x 10(-4) min(-1) for D23N-Abeta40 and the wild-type peptide WT-Abeta40, respectively) and without a lag phase. Electron microscopy shows that D23N-Abeta40 forms fibrils with multiple morphologies. X-ray fiber diffraction shows a cross-beta pattern, with a sharp reflection at 4.7 A and a broad reflection at 9.4 A, which is notably smaller than the value for WT-Abeta40 fibrils (10.4 A). Solid-state NMR measurements indicate molecular level polymorphism of the fibrils, with only a minority of D23N-Abeta40 fibrils containing the in-register, parallel beta-sheet structure commonly found in WT-Abeta40 fibrils and most other amyloid fibrils. Antiparallel beta-sheet structures in the majority of fibrils are indicated by measurements of intermolecular distances through (13)C-(13)C and (15)N-(13)C dipole-dipole couplings. An intriguing possibility exists that there is a relationship between the aberrant structure of D23N-Abeta40 fibrils and the unusual vasculotropic clinical picture in these patients.
β-淀粉样蛋白编码序列内的Asp23突变为Asn,即所谓的爱荷华突变,与早发性家族性阿尔茨海默病和脑淀粉样血管病相关,在这些疾病中,患者会出现神经炎性斑块以及主要由突变肽构成的大量血管沉积。我们通过电子显微镜、X射线衍射和固态核磁共振波谱法对突变肽D23N-Aβ40进行了研究。D23N-Aβ40形成原纤维的速度比野生型肽快得多(D23N-Aβ40和野生型肽WT-Aβ40的k值分别为3.77×10⁻³ min⁻¹和1.07×10⁻⁴ min⁻¹),且没有延迟期。电子显微镜显示D23N-Aβ40形成的原纤维具有多种形态。X射线纤维衍射显示出交叉β模式,在4.7 Å处有一个尖锐反射,在9.4 Å处有一个宽反射,这明显小于WT-Aβ40原纤维的值(10.4 Å)。固态核磁共振测量表明原纤维存在分子水平的多态性,只有少数D23N-Aβ40原纤维含有在WT-Aβ40原纤维和大多数其他淀粉样原纤维中常见的同向平行β折叠结构。通过¹³C-¹³C和¹⁵N-¹³C偶极-偶极耦合测量分子间距离,表明大多数原纤维中存在反平行β折叠结构。一种有趣的可能性是,D23N-Aβ40原纤维的异常结构与这些患者不寻常的血管嗜性临床表现之间存在关联。
