Diaferia Carlo, Sibillano Teresa, Giannini Cinzia, Roviello Valentina, Vitagliano Luigi, Morelli Giancarlo, Accardo Antonella
Department of Pharmacy, Research Centre on Bioactive Peptides (CIRPeB), University of Naples "Federico II" and DFM Scarl, Via Mezzocannone 16, 80134, Naples, Italy.
Institute of Crystallography (IC), CNR, Via Amendola 122, 70126, Bari, Italy.
Chemistry. 2017 Jun 27;23(36):8741-8748. doi: 10.1002/chem.201701381. Epub 2017 Jun 5.
A great interest has been recently generated by the discovery that peptide-based nanostructures (NSs) endowed with cross-β structure may show interesting photoluminescent (PL) properties. It was shown that NSs formed by PEGylated hexaphenylalanine (PEG -F6, PEG=polyethylene glycol) are able to emit at 460 nm when excited at 370 or 410 nm. Here, the possibility to transfer the fluorescence of these PEG -F6-based NSs by foster resonance electron transfer (FRET) phenomenon to a fluorescent dye was explored. To achieve this aim, the 4-chloro-7-nitrobenzofurazan (NBD) dye was encapsulated in these NSs. Structural data in solution and in solid state, obtained by a variety of techniques (circular dichroism, Fourier-transform infrared spectroscopy, wide-angle X-ray scattering, and small-angle X-ray scattering), indicated that the organization of the peptide spine of PEG -F6 NS, which consists of anti-parallel β-sheets separated by a dry interface made of interacting phenylalanine side chains, was maintained upon NBD encapsulation. The spectroscopic characterization of these NSs clearly showed a red-shift of the emission fluorescence peak both in solution and in solid state. This shift from 460 to 530 nm indicated that a FRET phenomenon from the peptide-based to the fluorophore-encapsulated NS occurred. FRET could also be detected in the PEG -F6 conjugate, in which the NBD was covalently bound to the amine of the compound. On the basis of these results, it is suggested that the red-shift of the intrinsic PL of NSs may be exploited in the bio-imaging field.
最近,具有交叉β结构的肽基纳米结构(NSs)可能展现出有趣的光致发光(PL)特性这一发现引发了极大的关注。研究表明,由聚乙二醇化六苯基丙氨酸(PEG -F6,PEG =聚乙二醇)形成的NSs在370或410 nm激发时能够在460 nm处发光。在此,探讨了通过福斯特共振能量转移(FRET)现象将这些基于PEG -F6的NSs的荧光转移到荧光染料上的可能性。为实现这一目标,将4-氯-7-硝基苯并呋喃(NBD)染料封装在这些NSs中。通过多种技术(圆二色性、傅里叶变换红外光谱、广角X射线散射和小角X射线散射)获得的溶液和固态结构数据表明,PEG -F6 NS肽链的结构由反平行β片层组成,中间由相互作用的苯丙氨酸侧链构成的干燥界面隔开,在NBD封装后得以保持。这些NSs的光谱表征清楚地表明,溶液和固态中的发射荧光峰均发生了红移。从460 nm到530 nm的这种位移表明发生了从基于肽的NS到封装有荧光团的NS的FRET现象。在PEG -F6共轭物中也能检测到FRET,其中NBD与该化合物的胺共价结合。基于这些结果,有人提出NSs固有PL的红移可用于生物成像领域。
