Romeo Margherita, Stravalaci Matteo, Beeg Marten, Rossi Alessandro, Fiordaliso Fabio, Corbelli Alessandro, Salmona Mario, Gobbi Marco, Cagnotto Alfredo, Diomede Luisa
Department of Molecular Biochemistry and Pharmacology, IRCCS - Istituto di Ricerche Farmacologiche "Mario Negri", Milan, Italy.
Department of Cardiovascular Research, Unit of Bio-imaging, IRCCS - Istituto di Ricerche Farmacologiche "Mario Negri", Milan, Italy.
J Alzheimers Dis. 2017;57(3):857-871. doi: 10.3233/JAD-160951.
The 24-residue peptide humanin (HN) has been proposed as a peptide-based inhibitor able to interact directly with amyloid-β (Aβ) oligomers and interfere with the formation and/or biological properties of toxic Aβ species. When administered exogenously, HN, or its synthetic S14G-derivative (HNG), exerted multiple cytoprotective effects, counteracting the Aβ-induced toxicity. Whether these peptides interact directly with Aβ, particularly with the soluble oligomeric assemblies, remains largely unknown. We here investigated the ability of HN and HNG to interact directly with highly aggregating Aβ42, and interfere with the formation and toxicity of its oligomers. Experiments were run in cell-free conditions and in vivo in a transgenic C. elegans strain in which the Aβ toxicity was specifically due to oligomeric species. Thioflavin-T assay indicated that both HN and HNG delay the formation and reduce the final amount of Aβ42 fibrils. In vitro surface plasmon resonance studies indicated that they interact with Aβ42 oligomers favoring the formation of amorphous larger assemblies, observed with turbidity and electron microscopy. In vivo studies indicated that both HN and HNG decrease the relative abundance of A11-positive prefibrillar oligomers as well as OC-positive fibrillar oligomers and had similar protective effects. However, while HN possibly decreased the oligomers by promoting their assembly into larger aggregates, the reduction of oligomers caused by HNG can be ascribed to a marked decrease of the total Aβ levels, likely the consequence of the HNG-induced overexpression of the Aβ-degrading enzyme neprilysin. These findings provide information on the mechanisms underlying the anti-oligomeric effects of HN and HNG and illustrate the role of S14G substitution in regulating the in vivo mechanism of action.
由24个氨基酸残基组成的人胰岛素(HN)被认为是一种基于肽的抑制剂,能够直接与淀粉样β蛋白(Aβ)寡聚体相互作用,并干扰有毒Aβ物种的形成和/或生物学特性。当外源性给予时,HN或其合成的S14G衍生物(HNG)发挥多种细胞保护作用,抵消Aβ诱导的毒性。这些肽是否直接与Aβ相互作用,特别是与可溶性寡聚体组装体相互作用,在很大程度上仍然未知。我们在此研究了HN和HNG直接与高度聚集的Aβ42相互作用并干扰其寡聚体形成和毒性的能力。实验在无细胞条件下以及在转基因秀丽隐杆线虫菌株中进行,在该菌株中Aβ毒性特别归因于寡聚体物种。硫黄素-T测定表明,HN和HNG均延迟Aβ42纤维的形成并减少其最终量。体外表面等离子体共振研究表明,它们与Aβ42寡聚体相互作用,有利于形成无定形的更大组装体,这通过浊度和电子显微镜观察到。体内研究表明,HN和HNG均降低A11阳性前纤维寡聚体以及OC阳性纤维寡聚体的相对丰度,并具有相似的保护作用。然而,虽然HN可能通过促进其组装成更大的聚集体来降低寡聚体,但HNG引起的寡聚体减少可归因于总Aβ水平的显著降低,这可能是HNG诱导的Aβ降解酶中性内肽酶过表达的结果。这些发现提供了关于HN和HNG抗寡聚体作用机制的信息,并说明了S14G取代在调节体内作用机制中的作用。
