苯并噻唑功能化的金属螯合剂的合成及生物活性

设计、合成了2种苯并噻唑功能化的金属螯合剂:N,N′-双(水杨醛)缩-2,2′-(3-(苯并[d]噻唑-2-基)-1,2-苯基)二氧乙基二胺L1和N,N′-双(水杨醛)缩-2,2′-(4-(苯并[d]噻唑-2-基)-1,2-苯基)二氧乙基二胺L2。并通过比浊度分析、BCA实验、HRP/Amplex Red实验以及MTT实验检测它们的生物活性。发现这2种螯合剂都能有效抑制金属离子(Zn~(2+)、Cu~(2+))诱导的Aβ_(1～40)的聚集,能大幅减少Cu-Aβ加合物产生H_2O_2的量,有效抑制Zn~(2+)、Cu~(2+)诱导Aβ聚集而产生的神经细胞毒性,并大幅提高细胞存活率。作为比较,对非苯并噻唑功能化但螯合部位相同的螯合剂做了相同的生物活性测试,但其生物活性明显比苯并噻唑功能化的金属螯合剂的低。     

Diketopyrrolopyrrole Bis-Phosphonate Conjugate: A New Fluorescent Probe for In Vitro Bone Imaging

The synthesis of a conjugate molecule between an unusual red-fluorescent diketopyrrolopyrrole (DPP) unit and a bis-phosphonate (BP) precursor by a click-chemistry strategy to target bone tissue and monitor the interaction is reported. After thorough investigation, conjugation through a triazole unit between a γ-azido rather than a β-azido BP and an alkyne-functionalized DPP fluorophore group turned out to be the winning strategy. Visualization of the DPP-BP conjugate on osteoclasts and specific antiresorption activity were successfully demonstrated.     

Generalizing the Concept of Specific Compound Formulation Additives towards Non‐Fluorescent Drugs: A Solubilization Study on Potential Anti‐Alzheimer‐Active Small‐Molecule Compounds

Tailor‐made compound formulation additives enable the testing of potential drugs with undesirable pharmacological profiles. A combinatorial approach using Raman microscopy as the readout method is presented to select peptide sequences from large one‐bead‐one‐compound libraries. The resulting peptide–PEG conjugates solubilize potential prophylactic and therapeutic anti‐Alzheimer compounds and can be used as specific additives not only for fluorescent but also for non‐fluorescent compounds.     

Proteophenes – Amino Acid Functionalized Thiophene-based Fluorescent Ligands for Visualization of Protein Deposits in Tissue Sections with Alzheimer's Disease Pathology

Protein deposits composed of specific proteins or peptides are associated with several neurodegenerative diseases and fluorescent ligands able to detect these pathological hallmarks are vital. Here, we report the synthesis of a class of thiophene-based ligands, denoted proteophenes, with different amino acid side-chain functionalities along the conjugated backbone, which display selectivity towards specific disease-associated protein aggregates in tissue sections with Alzheimer's disease (AD) pathology. The selectivity of the ligands towards AD associated pathological hallmarks, such as aggregates of the amyloid-β (Aβ) peptide or tau filamentous inclusions, was highly dependent on the chemical nature of the amino acid functionality, as well as on the location of the functionality along the pentameric thiophene backbone. Finally, the concept of synthesizing donor-acceptor-donor proteophenes with distinct photophysical properties was shown. Our findings provide the structural and functional basis for the development of new thiophene-based ligands that can be utilized for optical assignment of different aggregated proteinaceous species in tissue sections.     

荧光纳米钻石与转铁蛋白的相互作用及其在细胞内的成像应用

通过电导返滴定法测定经强酸氧化后的荧光纳米钻石(FND, 约140 nm)表面羧基含量为126 μmol/g, 占表面原子数的29.7%. 对FND物理吸附人转铁蛋白(hTf)进行了研究, 其吸附行为符合Langmuir等温吸附, 在PBS(pH 7.4)中最大吸附量为(176.46±2.13) μg/mg, 同时研究了pH对FND吸附hTf的影响, 发现在pH等于hTf的等电点附近有最大吸附. 利用激光共聚焦和流式细胞仪对FND和FND-hTf内吞到人肝癌细胞(HepG2)的差异进行了定性和定量分析, 结果得到FND-hTf比FND容易内吞到细胞中, 利于胞内成像.     

2-羟基-萘甲醛缩对甲氧基苯甲酰腙的合成与荧光性质研究

合成了2-羟基-萘甲醛缩对甲氧基苯甲酰腙,采用元素分析和红外光谱对该化合物结构进行了表征。详细研究了该化合物在固态、不同溶剂中和有锌离子存在下的荧光光谱,探讨了溶剂极性和锌离子的存在对其荧光光谱的影响。结果表明：该化合物的固体和溶液都有很强的荧光,溶剂对其荧光性质有较大的影响,其DMF溶液在485nm处发光最强。金属锌离子具有荧光增敏性。     

近红外荧光染料的结构、性质及生物荧光成像应用

近红外荧光生物成像技术由于具有深的组织穿透性、低背景荧光干扰、最小生物样本光损伤等特点引起人们越来越多的关注。开发高荧光效率、低毒性的近红外荧光染料是近红外荧光成像技术发展的关键所在。本文综述了五类主要的有机近红外荧光染料(菁类、BODIPY类、罗丹明类、方酸类、卟啉类)的研究进展,重点分析其结构与光学性质等构效关系,为近红外荧光染料的设计和制备提供指导。另外,总结了有机近红外荧光材料功能化修饰的主要方法以改善生物相容性、靶向性能等,最后对近红外荧光染料存在的主要问题以及未来的热点方向进行了分析和展望。     

Solid‐Phase Synthesis and Characterization of N‐Terminally Elongated Aβ−3–x‐Peptides

In addition to the prototypic amyloid‐β (Aβ) peptides Aβ_1–40 and Aβ_1–42, several Aβ variants differing in their amino and carboxy termini have been described. Synthetic availability of an Aβ variant is often the key to study its role under physiological or pathological conditions. Herein, we report a protocol for the efficient solid‐phase peptide synthesis of the N‐terminally elongated Aβ‐peptides Aβ_?3–38, Aβ_?3–40, and Aβ_?3–42. Biophysical characterization by NMR spectroscopy, CD spectroscopy, an aggregation assay, and electron microscopy revealed that all three peptides were prone to aggregation into amyloid fibrils. Immunoprecipitation, followed by mass spectrometry, indicated that Aβ_?3–38 and Aβ_?3–40 are generated by transfected cells even in the presence of a tripartite β‐site amyloid precursor protein cleaving enzyme 1 (BACE1) inhibitor. The elongated Aβ peptides starting at Val(?3) can be separated from N‐terminally‐truncated Aβ forms by high‐resolution isoelectric‐focusing techniques, despite virtually identical isoelectric points. The synthetic Aβ variants and the methods presented here are providing tools to advance our understanding of the potential roles of N‐terminally elongated Aβ variants in Alzheimer's disease.     

基于硅杂蒽类染料的荧光探针及其应用

近年来,荧光成像技术为人们研究活体细胞及组织内的化学生物学过程提供了有效的研究工具,可以无损、实时、原位地以高时空分辨率实现对目标物进行生物荧光成像与分析。荧光成像技术在生物学、环境监测、临床诊断和药物发现等诸多研究领域发挥着越来越重要的作用。生物荧光成像技术的最新进展对发展新型小分子荧光染料及探针提出了更高的要求。激发和发射波长位于近红外光区（600~900 nm）的荧光染料及探针由于具有光毒性低、生物分子自发荧光干扰小、光散射低、组织穿透能力强等优点,非常适合用于生物荧光成像领域。通过将罗丹明分子中O桥原子用Si代替,得到了一类新型的探针分子--硅杂蒽类荧光探针。这类染料分子在保留了氧杂蒽荧光染料优越的光学性质的同时,光谱发生明显红移,满足了近红外荧光检测的要求,具有良好的生物相容性。本文综述了近年来基于硅杂蒽及其衍生物荧光探针的合成及在金属离子、pH值、小分子、生物酶等检测方面的研究进展,并且简要阐述了基于硅杂蒽类探针分子的识别检测机理以及其在生物成像等方面的应用。     

荧光碳点的制备及应用

荧光碳点是继富勒烯、碳纳米管及石墨烯之后最热门的碳纳米材料之一。这种纳米材料克服了传统量子点的某些缺点,不仅具有优良的光学性能与小尺寸特性,而且具有良好的生物相容性,易于实现表面功能化,在生化传感、成像分析、环境检测、光催化技术及药物载体等领域具有很好的应用潜力。本文就近年来人们对荧光碳点的研究进行了综述,简述了碳点的特性,重点介绍了荧光碳点应用的最新进展,对碳点发展过程中尚待解决的问题进行总结并对未来发展方向进行了展望。     

Understanding Interactions between Cellular Matrices and Metal Complexes: Methods To Improve Silver Nanodot‐Specific Staining

Metal complexes are frequently used for biological applications due to their special photophysical and chemical characteristics. Due to strong interactions between metals and biomacromolecules, a random staining of cytoplasm or nucleoplasm by the complexes results in a low signal‐to‐background ratio. In this study, we used luminescent silver nanodots as a model to investigate the major driving force for non‐specific staining in cellular matrices. Even though some silver nanodot emitters exhibited excellent specific staining of nucleoli, labeling with nanodots was problematic owing to severe non‐specific staining. Binding between silver and sulfhydryl group of proteins appeared to be the major factor that enforced the silver staining. The oxidation of thiol groups in cells with hexacyanoferrate(III) dramatically weakened the silver‐cell interaction and consequently significantly improved the efficiency of targeted staining.     

用于检测多硫化氢和亚硝酰氢的小分子荧光探针

多硫化氢（H₂S_n）和亚硝酰氢（HNO）在一系列生理病理过程中起着重要的作用,包括调节细胞内氧化还原信号传递过程、增强心肌的收缩能力、抑制血小板聚集等。H₂S_n可以通过硫化氢（H₂S）与活性氧物种反应得到。一氧化氮（NO）和HNO可以在超氧化物歧化酶（SOD）作用下相互转化,H₂S和NO反应可以生成H₂S_n和HNO,调控酶的活性以及蛋白与蛋白之间的相互作用,从而影响蛋白质的生理功能。因此,实时检测生物体内H₂S_n和HNO的浓度具有十分重要的生物医学意义。在各种生物检测技术中,荧光探针具有选择性好,灵敏度高,可以实时原位检测,对样品损伤小等优点,受到了广泛关注。本文将按照探针响应基团的反应类型,将近几年用于定性定量检测H₂S_n和HNO荧光探针进行分类和总结,重点概述探针的设计理念、响应机制和生物应用,并对探针的应用前景进行了展望。同时,本文也关注了硫化氢和其他硫烷硫类物种荧光检测的近期进展。     

Rational Design of Fluorescent Phthalazinone Derivatives for One‐ and Two‐Photon Imaging

Phthalazinone derivatives were designed as optical probes for one‐ and two‐photon fluorescence microscopy imaging. The design strategy involves stepwise extension and modification of pyridazinone by 1) expansion of pyridazinone to phthalazinone, a larger conjugated system, as the electron acceptor, 2) coupling of electron‐donating aromatic groups such as N,N‐diethylaminophenyl, thienyl, naphthyl, and quinolyl to the phthalazinone, and 3) anchoring of an alkyl chain to the phthalazinone with various terminal substituents such as triphenylphosphonio, morpholino, triethylammonio, N‐methylimidazolio, pyrrolidino, and piperidino. Theoretical calculations were utilized to verify the initial design. The desired fluorescent probes were synthesized by two different routes in considerable yields. Twenty‐two phthalazinone derivatives were synthesized and their photophysical properties were measured. Selected compounds were applied in cell imaging, and valuable information was obtained. Furthermore, the designed compounds showed excellent performance in two‐photon microscopic imaging of mouse brain slices.     

Two Dehydroabietic Acid-based Arylamines: Synthesis, Crystal Structure and Fluorescent Properties

Two dehydroabietic acid-based arylamines have been synthesized and characterized by FTIR, 1H NMR, 13C NMR, MS spectra and elemental analysis. Their spatial structures were determined by X-ray diffraction analysis. UV-Vis absorption and fluorescence spectral characteristics of these compounds in methanol were investigated. Their fluorescence emission spectra in different polarity solvents were further evaluated. Fluorescent properties and structural relationship of the compounds showed that fluorescence intensity and quantum yield inversely increase with the non-coplanar degree. In addition, the solvent polarity has different effects on the fluorescence emission spectra of two compounds.     

A Practical Approach for the Detection of Protein Tau with a Portable Potentiostat

Along with many factors, the change in protein tau isoforms, which has an obvious role in the function of microtubules, is an important biomarker of Alzheimer's disease. The aim of this study is to determine the protein Tau-441 with a portable potentiostat using a practical approach. For this purpose, screen printed electrodes (SPCEs) were first hydroxylated and then functional self-assembled monolayers were formed on the surface with 3-aminopropyltriethoxysilane (APTES). Evidence of anti-Tau being immobilized on to the surface was followed by techniques such as cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS) and Fourier transform infrared spectroscopy (FTIR). The constructed immunosensor showed a linear response within the concentration range of 0.0064–0.8 ng/mL for the target analyte Tau-441 and the limit of detection was found to be 0.0053 ng/mL. In addition, analytical behaviors such as reproducible measurements and storage life of the developed immunosensor with a portable potentiostat were also investigated. It has been demonstrated that Tau-441 can be captured with the help of portable device with sensitivity in CSF environment.