Paramagnetic fluorinated nanoemulsions for sensitive cellular fluorine-19 magnetic resonance imaging

Kislukhin, Alexander A.; Xu, Hongyan; Adams, Stephen; Narsinh, Kazim; Tsien, Roger Y.; Ahrens, Eric T.

doi:10.1038/nmat4585

Cited by 149 publications

(182 citation statements)

References 29 publications

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“…These materials are central components in diverse applications in the pharmaceutical, food, cosmetic and biomedical industry2345. The classical amphiphilic organic surfactants are most often used as components for emulsion preparation, but they exhibit various toxic and irritant properties6.…”

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confidence: 99%

A minimal length rigid helical peptide motif allows rational design of modular surfactants

et al. 2017

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Extensive work has been invested in the design of bio-inspired peptide emulsifiers. Yet, none of the formulated surfactants were based on the utilization of the robust conformation and self-assembly tendencies presented by the hydrophobins, which exhibited highest surface activity among all known proteins. Here we show that a minimalist design scheme could be employed to fabricate rigid helical peptides to mimic the rigid conformation and the helical amphipathic organization. These designer building blocks, containing natural non-coded α-aminoisobutyric acid (Aib), form superhelical assemblies as confirmed by crystallography and microscopy. The peptide sequence is amenable to structural modularity and provides the highest stable emulsions reported so far for peptide and protein emulsifiers. Moreover, we establish the ability of short peptides to perform the dual functions of emulsifiers and thickeners, a feature that typically requires synergistic effects of surfactants and polysaccharides. This work provides a different paradigm for the molecular engineering of bioemulsifiers.

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confidence: 99%

A minimal length rigid helical peptide motif allows rational design of modular surfactants

et al. 2017

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“…6,7,37 Other metals may also have favourable properties. Fe(III) has shown promise in some experiments, 38 although T 2 effects may be too substantial for PrOF NMR experiments. 39 In addition to efficient screening of large compound libraries, this method can reduce protein concentration needs, or allow for the use of non-cryogenically cooled NMR probes for PrOF NMR screening.…”

Section: Discussionmentioning

confidence: 99%

Paramagnetic relaxation enhancement for protein-observed ¹⁹F NMR as an enabling approach for efficient fragment screening

et al. 2016

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Protein-observed 19F (PrOF) NMR is an emerging tool for ligand discovery. To optimize the efficiency of PrOF NMR experiments, paramagnetic relaxation enhancement through the addition of chelated Ni(II) was used to shorten longitudinal relaxation time without causing significant line broadening. Thus enhancing relaxation time leads to shorter experiments without perturbing the binding of low- or high-affinity ligands. This method allows for time-efficient screening of potential ligands for a wide variety of proteins in the growing field of fragment-based ligand discovery.

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“…Thelongitudinal (T 1 )and transverse (T 2 )relaxation times of the 19 Fw ithin the CFP NCs were determined to optimize the acquisition parameters for future 19 Table S2). [25] Although until recently nuclear spins with relatively short T 2 values could not be monitored with conventional MRI acquisition schemes,u ltrashort echo time (UTE) and zero echo time (ZTE) pulse sequences enable MRI of nuclear spin pools with an extremely short T 2 value, [24] including metallated PFCs with 19 FMRI. However,byusing low-flip-angle excitation pulses it was possible to significantly shorten the TR used, allowing increased averaging and thus ah igher signal-to-noise-ratio (SNR) for agiven experiment time.T he 19 FMRs ignal of CFP could be maximized at low flip angles (Ernst angle) at af ixed experiment time,w hile av ery low SNR was obtained when a908 8 pulse was used (TR = 5 T 1 = 48.5 s; Figure 4b).…”

Section: Angewandte Chemiementioning

confidence: 99%

“…Therelatively long T 1 time of CFP may be less favorable for MRI applications owing to the long repetition time (TR) needed to fulfil the 5 T 1 condition for maximizing the MR signal. [25] Next, the feasibility of spatially mapping the distribution of our newly developed water-soluble nanofluorides with 19 FMRI was examined. Thea ddition of ap aramagnetic dopant into the NCs should be considered for the purpose of shortening T 1 ,a sp roposed for PFC nanoemulsions.…”

Section: Angewandte Chemiementioning

confidence: 99%

Calcium Fluoride Nanocrystals: Tracers for In Vivo ¹⁹F Magnetic Resonance Imaging

2018

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Inorganic nanocrystals (NCs) have been extensively developed for av ariety of uses.T he ability to obtain highresolution NMR signals from the core nuclei of NCs in solution could offer new opportunities in materials sciences and MR imaging.Herein, we demonstrate that small, water-soluble 19 Fionic NCs can average out homonuclear dipolar interactions, enabling one to obtain high-resolution 19 FNMR signals in solution that reflect the MR properties of F À in the crystal core. Decorating 19 F-NC surfaces with ab iocompatible poly(ethylene glycol) coating maintains colloidal stability in water while preserving the NC high-resolution 19 FNMR properties,e ven after further functionalization. The high content and magnetic equivalence of the fluorides within the NCs enable their use as imaging tracers for in vivo 19 FMRI by facilitating a"hot-spot" displayoft heir distribution.

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Paramagnetic fluorinated nanoemulsions for sensitive cellular fluorine-19 magnetic resonance imaging

Cited by 149 publications

References 29 publications

A minimal length rigid helical peptide motif allows rational design of modular surfactants

A minimal length rigid helical peptide motif allows rational design of modular surfactants

Paramagnetic relaxation enhancement for protein-observed ¹⁹F NMR as an enabling approach for efficient fragment screening

Calcium Fluoride Nanocrystals: Tracers for In Vivo ¹⁹F Magnetic Resonance Imaging

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Paramagnetic fluorinated nanoemulsions for sensitive cellular fluorine-19 magnetic resonance imaging

Cited by 149 publications

References 29 publications

A minimal length rigid helical peptide motif allows rational design of modular surfactants

A minimal length rigid helical peptide motif allows rational design of modular surfactants

Paramagnetic relaxation enhancement for protein-observed 19F NMR as an enabling approach for efficient fragment screening

Calcium Fluoride Nanocrystals: Tracers for In Vivo 19F Magnetic Resonance Imaging

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Paramagnetic relaxation enhancement for protein-observed ¹⁹F NMR as an enabling approach for efficient fragment screening

Calcium Fluoride Nanocrystals: Tracers for In Vivo ¹⁹F Magnetic Resonance Imaging