Dicyanovinylnaphthalenes for neuroimaging of amyloids and relationships of electronic structures and geometries to binding affinities

Petrič, Andrej; Johnson, Scott A.; Pham, Hūng Viêt; Liu, Ying; Čeh, Simon; Golobič, Amalija; Agdeppa, Eric D.; Timbol, Gerald; Liu, Jie; Keum, Gyochang; Satyamurthy, Nagichettiar; Kepe, Vladimir; Houk, K. N.; Barrio, Jorge R.

doi:10.1073/pnas.1214134109

Cited by 36 publications

(53 citation statements)

References 26 publications

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“…Moreover, the emission maxima of these solvatochromic probes displayed significant solvent dependency and occurred at higher wavelengths with increasing solvent polarities ( Figure S3, S4 and Table S1 in Supporting Information), indicative of the ongoing ICT transition with an increased dipole moment in the excited state when compared with that of the ground state. [20][21][22] Notably, when compared with the DANIR 3b and 3c, these four NIRFs maintained excellent fluorescent properties, including long Table 1), which are prerequisites of an optimal fluorochrome for in vivo NIR imaging. However, the excitation maxima of the NIRFs were less than 600 nm (Table 1), which limited the penetration depth of excitation light, and therefore, further modifications are necessary.…”

Section: Introductionmentioning

confidence: 97%

Amyloid-β Deposits Target Efficient Near-Infrared Fluorescent Probes: Synthesis, in Vitro Evaluation, and in Vivo Imaging

Zhao

et al. 2016

Anal. Chem.

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The formation of extracellular amyloid-β (Aβ) plaques is a common molecular change that underlies several debilitating human conditions, including Alzheimer's disease (AD); however, the existing near-infrared (NIR) fluorescent probes for the in vivo detection of Aβ plaques are limited by undesirable fluorescent properties and poor brain kinetics. In this work, we designed, synthesized, and evaluated a new family of efficient NIR probes that target Aβ plaques by incorporating hydroxyethyl groups into the ligand structure. Among these probes, DANIR 8c showed excellent fluorescent properties with an emission maximum above 670 nm upon binding to Aβ aggregates and also displayed a high sensitivity (a 629-fold increase in fluorescence intensity) and affinity (Kd = 14.5 nM). Because of the improved hydrophilicity that was induced by hydroxyls, 8c displayed increased initial brain uptake and a fast washout from the brain, as well as an acceptable biostability in the brain. In vivo NIR fluorescent imaging revealed that 8c could efficiently distinguish between AD transgenic model mice and normal controls. Overall, 8c is an efficient and veritable NIR fluorescent probe for the in vivo detection of Aβ plaques in the brain.

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Section: Introductionmentioning

confidence: 97%

Amyloid-β Deposits Target Efficient Near-Infrared Fluorescent Probes: Synthesis, in Vitro Evaluation, and in Vivo Imaging

Zhao

et al. 2016

Anal. Chem.

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“…This aspect is important in terms of utility of these compounds as Alzheimer's imaging agents, because all the known imaging agents (thioflavin T derivatives) are planar which aids the binding of these molecules to amyloid fibrils . Recently, Petric et al . reported the binding affinities of two planar molecules of dicyanovinyl naphthalenes for neuroimaging of amyloid and came to the conclusion that the most planar analogues showed the highest binding affinities towards amyloid while the least planar analogue showed lowest binding affinity.…”

Section: Introductionmentioning

confidence: 99%

A comparative study between para‐aminophenyl and ortho‐aminophenyl benzothiazoles using NMR and DFT calculations

Pierens

Venkatachalam

Reutens

2014

Magnetic Reson in Chemistry

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Ortho-and para-substituted aminophenyl benzothiazoles were synthesized and characterized using NMR spectroscopy. A comparison of the proton chemical shift values reveals significant differences in the observed chemical shift values for the NH protons indicating the presence of a hydrogen bond in all ortho-substituted compounds as compared to the para compounds. The presence of intramolecular hydrogen bond in the ortho amino substituted aminophenyl benzothiazole forces the molecule to be planar which may be an additional advantage in developing these compounds as Alzheimer's imaging agent since the binding to amyloid fibrils prefers planar compounds. The splitting pattern of the methylene proton next to the amino group also showed significant coupling to the amino proton consistent with the notion of the existence of slow exchange and hydrogen bond in the ortho-substituted compounds. This is further verified by density functional theory (DFT) calculations which yielded a near planar low energy conformer for all the o-aminophenyl benzothiazoles and displayed a hydrogen bond from the amine proton to the nitrogen of the thiazole ring. A detailed analysis of the 1 H, 13 C, and 15 N NMR chemical shifts and DFT calculated structures of the compounds are described.

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“…The 2-(1-{6-[(2-fl uoroethyl)(methyl)amino]-2-naphthyl}ethylidene)malononitrile (FDDNP) is a functional fl uorescent biomarker belonging to the family of dicyanovinyl naphthalene labels, which binds to its ligand through hydrophobic interactions [6]. FDDNP also binds to amyloid plaques with high affi nity [7].…”

Section: Introductionmentioning

confidence: 99%

“…So far, only a few electronic structure studies on FDDNP and other dicyanovinyl naphthalene biomarkers, based on ab initio calculations have been performed. Petrič et al [6] performed a combined experimental and theoretical study on FDDNP and its analogs to explain the chemical modifi cation effects on binding affi nity of biomarkers to amyloid plaques and their fl uorescence Quantum yields. Given the close relationship between the structure and nonlinear activities, and the functional importance of default molecule, it is necessary to develop a deeper vision on electron-topological properties, in order to predict its different optical capabilities.…”

Section: Introductionmentioning

confidence: 99%

“…For example, the non-centrosymmetric structure of fi brillar collagen is the major source of the SHG signals in different tissues [2,3], and for cellular and subcellular samples. For this purpose, several SHG labels have been used [4,5].The 2-(1-{6-[(2-fl uoroethyl)(methyl)amino]-2-naphthyl}ethylidene)malononitrile (FDDNP) is a functional fl uorescent biomarker belonging to the family of dicyanovinyl naphthalene labels, which binds to its ligand through hydrophobic interactions [6]. FDDNP also binds to amyloid plaques with high affi nity [7].…”

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confidence: 99%

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Topological Analysis and Frequency Dependent Hyperpolarizability Calculations of FDDNP: a DFT Study

Akhtari¹,

Hassanzadeh²,

Fakhraei³

et al. 2016

ChemJMold

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Abstract. The topological and fi rst-hyperpolarizability properties of 2-(1-{6-[(2-fl uoroethyl)(methyl)amino]-2-naphthyl}ethylidene)malononitrile (FDDNP) were studied using DFTB3LYP method. The static and dynamic electronic (hyper)polarizabilities of conformers were calculated and a simple two-state model was employed to explain the fi rst hyperpolarizability differences in two conformers. The second harmonic generation property was evaluated at the typical wavelengths of Cr:forsterite, Nd:YAG(neodymium-doped yttrium aluminium garnet) and Ti:sapphire lasers to predict the compound conformers potency for second harmonic generation imaging in biological studies.Keywords: second-harmonic generation, FDDNP, near-infrared, QTAIM. IntroductionOptical imaging techniques based on nonlinear optical phenomena have been widely incorporated in microscopy using ultra-fast pulsed lasers. There have been described many applications in cellular and tissue imaging due to the ability to spatially resolve subcellular details with high molecular contrast [1].The employed near-infrared (NIR) wavelengths reduce scattering and maximize tissue penetration. These characteristics boost nonlinear microscopy as an elective method for imaging cells with micrometer-resolution deep into the living tissues. Both labeled and label-free second harmonic generation (SHG) imaging techniques have been employed in biological studies. For example, the non-centrosymmetric structure of fi brillar collagen is the major source of the SHG signals in different tissues [2,3], and for cellular and subcellular samples. For this purpose, several SHG labels have been used [4,5].The 2-(1-{6-[(2-fl uoroethyl)(methyl)amino]-2-naphthyl}ethylidene)malononitrile (FDDNP) is a functional fl uorescent biomarker belonging to the family of dicyanovinyl naphthalene labels, which binds to its ligand through hydrophobic interactions [6]. FDDNP also binds to amyloid plaques with high affi nity [7]. Fluorescence imaging microscopy of amyloid aggregates has a key role in diagnosing Alzheimer's disease and other neurodegenerative diseases [8,9].According to the importance of second-harmonic generation, as one of the nonlinear excitation families with deep imaging, 3D capabilities and intrinsic contrast in certain tissues, the study of nonlinear optical properties of biomaterials and their labels plays an essential role in development of medicinal optic devices. So far, only a few electronic structure studies on FDDNP and other dicyanovinyl naphthalene biomarkers, based on ab initio calculations have been performed. Petrič et al.[6] performed a combined experimental and theoretical study on FDDNP and its analogs to explain the chemical modifi cation effects on binding affi nity of biomarkers to amyloid plaques and their fl uorescence Quantum yields. Given the close relationship between the structure and nonlinear activities, and the functional importance of default molecule, it is necessary to develop a deeper vision on electron-topological properties, in order to predict its di...

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Dicyanovinylnaphthalenes for neuroimaging of amyloids and relationships of electronic structures and geometries to binding affinities

Cited by 36 publications

References 26 publications

Amyloid-β Deposits Target Efficient Near-Infrared Fluorescent Probes: Synthesis, in Vitro Evaluation, and in Vivo Imaging

Amyloid-β Deposits Target Efficient Near-Infrared Fluorescent Probes: Synthesis, in Vitro Evaluation, and in Vivo Imaging

A comparative study between para‐aminophenyl and ortho‐aminophenyl benzothiazoles using NMR and DFT calculations

Topological Analysis and Frequency Dependent Hyperpolarizability Calculations of FDDNP: a DFT Study

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