Synthesis and Characterization of New Porphyrazine-Gd(III) Conjugates as Multimodal MR Contrast Agents

Song, Ying; Zong, Hong; Trivedi, Evan R.; Vesper, Benjamin J.; Waters, Emily A.; Barrett, Anthony G. M.; Radosevich, James A.; Hoffman, Brian M.; Meade, Thomas J.

doi:10.1021/bc1002828

Cited by 52 publications

(51 citation statements)

References 36 publications

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“…Bimodal imaging is presently gaining a great deal of interest since it can take advantage of great spatial, temporal resolution, and unlimited tissue penetration of MRI and high sensitivity of optical imaging. [25][26][27][28] Different classes of compounds have been designed as bimodal contrast agents, for example, Gd III chelates derivatized with luminescent dyes or transition-metal complexes, [29][30][31][32] as well as functionalized Fe 3 O 4 , [33] polymer, [34] or silica [35] nanoparticles.…”

Section: A C H T U N G T R E N N U N G (H 2 O) 3 ]mentioning

confidence: 99%

A Self‐Assembled Complex with a Titanium(IV) Catecholate Core as a Potential Bimodal Contrast Agent

Dehaen

Eliseeva

Kimpe

et al. 2011

Chemistry A European J

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A ditopic chelating ligand (H(6)4) that bears catechol and diethylenetriamine-N,N,N',N'',N''-pentaacetate (DTPA) has been designed and shown to specifically bind lanthanide(III) ions at the DTPA core ([Ln(H(2)4)(H(2)O)](-)) and further self-assemble with titanium(IV), thereby giving rise to the formation of a supramolecular metallostar complex with a lanthanide(III)-to-titanium(IV) ratio of 3:1, [(Ln4)(3)Ti(H(2)O)(3)](5-) (Ln=La, Eu, Gd). The efficacy of the metallostar complex as a potential bimodal optical/magnetic resonance imaging (MRI) agent has been evaluated. Nuclear magnetic relaxation dispersion (NMRD) measurements for the [(Gd4)(3)Ti(H(2)O)(3)](5-) complex have demonstrated an enhanced r(1) relaxivity that corresponds to 36.9 s(-1) mM(-1) per metallostar molecule at 20 MHz and 310 K, which is a result of a decreased tumbling rate. The ability of the complex to bind to human serum albumin (HSA) was also examined by relaxometric measurements. In addition, upon UV irradiation the [(Gd4)(3)Ti(H(2)O)(3)](5-) complex exhibits broad-band green emission in the range 400-750 nm with a maximum at 490 nm. Taking into account the high relaxivity and luminescence properties, the [(Gd4)(3)Ti(H(2)O)(3)](5-) complex is a good lead compound for the development of efficient bimodal contrast agents.

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Section: A C H T U N G T R E N N U N G (H 2 O) 3 ]mentioning

confidence: 99%

A Self‐Assembled Complex with a Titanium(IV) Catecholate Core as a Potential Bimodal Contrast Agent

Dehaen

Eliseeva

Kimpe

et al. 2011

Chemistry A European J

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“…These properties render them suitable for potential applications in photodynamic therapy (PDT) and photodynamic diagnosis (PDD) as photosensitizers, in chemical catalysis, and in analytical chemistry as sensors . Porphyrazines that contain sulfanyl substituents reveal good solubility in common organic solvents and significant photocytotoxicities . Many years of research on sulfanyl porphyrazines led to the expansion of their periphery with various groups; for example, ether/thioether, calixarene, (tetrathiafulvalene)sulfanylethyl, 2′‐(4‐pyridoxy)ethyl, 1‐naphthylmethyl, 2′‐(ferrocenecarboxy)ethyl, and 4‐(4‐nitroimidazol‐1‐yl)butyl …”

Section: Introductionmentioning

confidence: 99%

Dendrimeric Sulfanyl Porphyrazines: Synthesis, Physico‐Chemical Characterization, and Biological Activity for Potential Applications in Photodynamic Therapy

et al. 2016

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Sulfanyl porphyrazines substituted at their periphery with different dendrimeric moieties up to their first generation were synthesized and characterized by photochemical and biological methods. The presence of a dendrimeric periphery enhanced the spectral properties of the porphyrazines studied. The singlet‐oxygen‐generation quantum yield of the obtained macrocycles ranged from 0.02 to 0.20 and was strongly dependent on the symmetry of the compounds and the terminal groups of the dendritic outer shell. The in vitro biological effects of three most promising tribenzoporphyrazines were examined; the results indicated their potential as photosensitizers for photodynamic therapy (PDT) against two oral squamous cell carcinoma cell lines derived from the tongue. The highest photocytotoxicity was found for sulfanyl tribenzoporphyrazine that possessed 4‐[3,5‐di(hydroxymethyl)phenoxy]butyl substituents with nanomolar IC50 values at 10 and 42 nm against CAL 27 and HSC‐3 cell lines, respectively.

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“…The slight paramagnetism of Cu(II) that prevents Cu–Pz–Gd(III) from being a multimodal fluorescent/MR contrast agent enhances the complex's MR effect by increasing relaxivity ( r 1 ) relative to Zn–Pz–Gd(III). This effect was observed in analogous Pz–Gd(III) conjugates but was much less pronounced . The paramagnetism of Cu and the coordination sphere might both contribute to the relaxivity difference.…”

Section: Discussionmentioning

confidence: 80%

Synthesis and characterization of a porphyrazine–Gd(III) MRI contrast agent and in vivo imaging of a breast cancer xenograft model

Trivedi

Waters

et al. 2014

Contrast Media & Molecular

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Porphyrazines (Pz), or tetraazaporphyrins, are being studied for their potential use in detection and treatment of cancer. Here, an amphiphilic Cu–Pz–Gd(III) conjugate has been prepared via azide-alkyne Huisgen cycloaddition or ‘click’ chemistry between an azide functionalized Pz and alkyne functionalized DOTA–Gd(III) analog for use as an MRI contrast agent. This agent, Cu–Pz–Gd(III), is synthesized in good yield and exhibits solution-phase ionic relaxivity (r1 = 11.5 mm−1 s−1) that is approximately four times higher than that of a clinically used monomeric Gd (III) contrast agent, DOTA–Gd(III). Breast tumor cells (MDA-MB-231) associate with Cu–Pz–Gd(III) in vitro, where significant contrast enhancement (9.336 ± 0.335 contrast-to-noise ratio) is observed in phantom cell pellet MR images. This novel contrast agent was administered in vivo to an orthotopic breast tumor model in athymic nude mice and MR images were collected. The average T1 of tumor regions in mice treated with 50 mg kg−1 Cu–Pz–Gd (III) decreased relative to saline-treated controls. Furthermore, the decrease in T1 was persistent relative to mice treated with the monomeric Gd(III) contrast agent. An ex vivo biodistribution study confirmed that Cu–Pz–Gd(III) accumulates in the tumors and is rapidly cleared, primarily through the kidneys. Differential accumulation and T1 enhancement by Cu–Pz–Gd(III) in the tumor's core relative to the periphery offer preliminary evidence that this agent would find application in the imaging of necrotic tissue.

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Synthesis and Characterization of New Porphyrazine-Gd(III) Conjugates as Multimodal MR Contrast Agents

Cited by 52 publications

References 36 publications

A Self‐Assembled Complex with a Titanium(IV) Catecholate Core as a Potential Bimodal Contrast Agent

A Self‐Assembled Complex with a Titanium(IV) Catecholate Core as a Potential Bimodal Contrast Agent

Dendrimeric Sulfanyl Porphyrazines: Synthesis, Physico‐Chemical Characterization, and Biological Activity for Potential Applications in Photodynamic Therapy

Synthesis and characterization of a porphyrazine–Gd(III) MRI contrast agent and in vivo imaging of a breast cancer xenograft model

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