MRI Contrast Agents in Glycobiology

Geraldes, Carlos F. G. C.; Peters, Joop A.

doi:10.3390/molecules27238297

“…MRI has unlimited diagnostic depth, high resolution, and excellent contrast abilities. However, in many cases, MRI requires a specific contrast agent (CA) to enhance the difference between the target tissue and the background [ 1 , 2 , 3 , 4 ]. The CA for 1 H MRI is detected indirectly by their effect on the spin relaxation of water protons.…”

Section: Introductionmentioning

confidence: 99%

“…The CA for 1 H MRI is detected indirectly by their effect on the spin relaxation of water protons. Paramagnetic metal complexes of Gd and Mn, and iron oxide nanoparticles are among the primary-used CA [ 1 , 3 , 4 , 5 , 6 , 7 ]. However, recent concerns regarding low stability and potential toxicity of Gd-based and Fe 3 O 4 nanoparticles CAs make their clinical use challenging [ 8 , 9 , 10 , 11 , 12 , 13 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

Fluorinated Human Serum Albumin as Potential 19F Magnetic Resonance Imaging Probe

Mitin

¹

,

Chubarov

²

2023

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Fluorinated human serum albumin conjugates were prepared and tested as potential metal-free probes for 19F magnetic resonance imaging (MRI). Each protein molecule was modified by several fluorine-containing compounds via the N-substituted natural acylating reagent homocysteine thiolactone. Albumin conjugates retain the protein’s physical and biological properties, such as its 3D dimensional structure, aggregation ability, good solubility, proteolysis efficiency, biocompatibility, and low cytotoxicity. A dual-labeled with cyanine 7 fluorescence dye and fluorine reporter group albumin were synthesized for simultaneous fluorescence imaging and 19F MRI. The preliminary in vitro studies show the prospects of albumin carriers for multimodal imaging.

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“…[32][33] This biological interest has led to the development of responsive probes for in cellulo and in vivo detection. [5,[34][35][36][37][38][39] We demonstrate here that LnL 5 Gal allows successful imaging of β-galactosidase activity by NIR luminescence (YbL 5…”

Section: Galmentioning

confidence: 88%

Lanthanide‐Based Probes for Imaging Detection of Enzyme Activities by NIR Luminescence, T1‐ and ParaCEST MRI

Jouclas,

Laine,

Eliseeva

et al. 2024

Angewandte Chemie

0

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Applying a single molecular probe to monitor enzymatic activities in multiple, complementary imaging modalities is highly desirable to ascertain detection and to avoid the complexity associated with the use of agents of different chemical entities. We demonstrate here the versatility of lanthanide (Ln3+) complexes with respect to their optical and magnetic properties and their potential for enzymatic detection in NIR luminescence, CEST and T1 MR imaging, controlled by the nature of the Ln3+ ion, while using a unique chelator. Based on X‐ray structural, photophysical, and solution NMR investigations of a family of Ln3+ DO3A‐pyridine model complexes, we could rationalize the luminescence (Eu3+, Yb3+), CEST (Yb3+) and relaxation (Gd3+) properties and their variations between carbamate and amine derivatives. This allowed the design of probes which undergo enzyme‐mediated changes detectable in NIR luminescence, CEST and T1‐weighted MRI, respectively governed by variations in their absorption energy, in their exchanging proton pool and in their size, thus relaxation efficacy. We demonstrate that these properties can be exploited for the visualization of b‐galactosidase activity in phantom samples by different imaging modalities: NIR optical imaging, CEST and T1‐weighted MRI.

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“…Upregulation of β‐galactosidase is often correlated with the occurrence of cancers and cell senescence; thus, in vivo detection and localization of β‐galactosidase activities can become an essential tool for cancer diagnosis and treatment monitoring [32–33] . This biological interest has led to the development of responsive probes for in cellulo and in vivo detection [5,34–39] . We demonstrate here that

{{{\bf L n L}}_{{\bf G a l}}^{5}}

allows successful imaging of β‐galactosidase activity by NIR luminescence (

{{{\bf Y b L}}_{{\bf G a l}}^{5}}

), T1‐weighted (

{{{\bf G d L}}_{{\bf G a l}}^{5}}

) and CEST MRI (

{{{\bf Y b L}}_{{\bf G a l}}^{5}}

).…”

Section: Introductionmentioning

confidence: 96%

Lanthanide‐Based Probes for Imaging Detection of Enzyme Activities by NIR Luminescence, T1‐ and ParaCEST MRI

Jouclas,

Laine,

Eliseeva

et al. 2024

Angew Chem Int Ed

1

0

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Applying a single molecular probe to monitor enzymatic activities in multiple, complementary imaging modalities is highly desirable to ascertain detection and to avoid the complexity associated with the use of agents of different chemical entities. We demonstrate here the versatility of lanthanide (Ln3+) complexes with respect to their optical and magnetic properties and their potential for enzymatic detection in NIR luminescence, CEST and T1 MR imaging, controlled by the nature of the Ln3+ ion, while using a unique chelator. Based on X‐ray structural, photophysical, and solution NMR investigations of a family of Ln3+ DO3A‐pyridine model complexes, we could rationalize the luminescence (Eu3+, Yb3+), CEST (Yb3+) and relaxation (Gd3+) properties and their variations between carbamate and amine derivatives. This allowed the design of probes which undergo enzyme‐mediated changes detectable in NIR luminescence, CEST and T1‐weighted MRI, respectively governed by variations in their absorption energy, in their exchanging proton pool and in their size, thus relaxation efficacy. We demonstrate that these properties can be exploited for the visualization of b‐galactosidase activity in phantom samples by different imaging modalities: NIR optical imaging, CEST and T1‐weighted MRI.

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MRI Contrast Agents in Glycobiology

Cited by 7 publications

References 208 publications

Fluorinated Human Serum Albumin as Potential 19F Magnetic Resonance Imaging Probe

Fluorinated Human Serum Albumin as Potential 19F Magnetic Resonance Imaging Probe

Lanthanide‐Based Probes for Imaging Detection of Enzyme Activities by NIR Luminescence, T1‐ and ParaCEST MRI

Lanthanide‐Based Probes for Imaging Detection of Enzyme Activities by NIR Luminescence, T1‐ and ParaCEST MRI

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