Marta Redrado scite author profile

A series of neutral and cationic heterotrimetallic complexes of the type fac-[Re(CO) 3 (bipy(CC) 2 -(AuL) 2 )X] n , where bipy(CC) 2 is 4,4′-alkynyl-2,2′-bipyridine; L is either triphenylphosphine (PPh 3 ), [1,3bis(2,6-diisopropylphenyl)-imidazol-2-ylidene] (IPr), or tert-butyl isocyanide (CN t Bu); and X is a chloride (n = 0) or acetonitrile (n = 1), were synthesized and characterized together with their Re(I) precursors, i.e., fac-[Re(CO) 3 (bipy(CC) 2 )X] n . X-ray diffraction of complexes 1, 3, and 6 corroborated the expected octahedral and linear distribution of the ligands along the Re(I) and Au(I) centers, respectively. Luminescent studies showed that all the complexes displayed a broad emission band centered between 565 and 680 nm, corresponding to a 3 MLCT from the Re(I) to the diimine derivative. The presence of the gold fragment coordinated to the diimine ligand shifted in all cases the emission maxima toward higher energies. Such an emission difference could be potentially used for assessing the precise moment of interaction of the probe with the biological target if the gold fragment is implicated. Antiproliferative studies in cancer cells, A549 (lung cancer) and HeLa (cervix cancer), showed a generalized selectivity toward HeLa cells for those heterotrimetallic species incubated at longer times (72 vs 24 h). ICP-MS spectrometry revealed the greater cell internalization of cationic vs neutral species. Preliminary fluorescence microscopy experiments showed a different behavior of the complexes in HeLa and A549 cell lines. Whereas the complexes in A549 were randomly distributed in the outside of the cell, those incubated with HeLa cells were located close to the cellular membrane, suggesting some type of interaction, and possibly explaining their cellular selectivity when it comes to the antiproliferative activity displayed in the different cell lines.

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Multifunctional Heterometallic Ir^III−Au^I Probes as Promising Anticancer and Antiangiogenic Agents

Redrado

Benedi

Marzo

et al. 2021

Chemistry A European J

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A new class of emissive cyclometallated IrIII−AuI complexes with a bis(diphenylphosphino) methanide bridging ligand was successfully synthesised from the diphosphino complex [Ir(N^C)2(dppm)]+ (1). The different gold ancillary ligand, a triphenylphosphine (2), a chloride (3) or a thiocytosine (4) did not reveal any significant effect on the photophysical properties, which are mainly due to metal‐to‐ligand charge‐transfer (3MLCT) transitions based on IrIII. However, the AuI fragment, along with the ancillary ligand, seemed crucial for the bioactivity in A549 lung carcinoma cells versus endothelial cells. Both cell types display variable sensitivities to the complexes (IC50=0.6–3.5 μM). The apoptotic pathway is activated in all cases, and paraptotic cell death seems to take place at initial stages in A549 cells. Species 2–4 showed at least dual lysosomal and mitochondrial biodistribution in A549 cells, with an initial lysosomal localisation and a possible trafficking process between both organelles with time. The bimetallic IrIII−AuI complexes disrupted the mitochondrial transmembrane potential in A549 cells and increased reactive oxygen species (ROS) generation and thioredoxin reductase (TrxR) inhibition in comparison with that displayed by the monometallic complex 1. Angiogenic activity assays performed in endothelial cells revealed the promising antimetastatic potential of 1, 2 and 4.

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Carbon nanotube growth on cobalt-sprayed substrates by thermal CVD

Terrado

Redrado

Muñoz

et al. 2006

Materials Science and Engineering: C

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Theranostics Through the Synergistic Cooperation of Heterometallic Complexes

2021

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Heterometallic drugs are emerging as a great alternative to conventional metallodrugs. Careful selection of different metallic fragments makes possible to enhance not only the therapeutic potential by a synergistic effect, but also to incorpore key features like traceability. Drugs that integrate traceability and therapy in one system are known as theranostic agents. In cancer research, theranostic agents are becoming increasingly important. They deliver crucial information regarding their biological interplay that can ultimately be used for optimization. The well‐established therapeutic potential of PtII‐, RuII‐ and AuI‐based drugs combined with the outstanding optical properties of d6 transition metal complexes grant the delivery of traceable metallodrugs. These species can be easily fine‐tuned through modification of their respective ligands to provide a new generation of drugs.

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Aligned carbon nanotubes grown on alumina and quartz substrates by a simple thermal CVD process

Terrado

Redrado

Muñoz

et al. 2006

Diamond and Related Materials

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Dual Emissive Ir(III) Complexes for Photodynamic Therapy and Bioimaging

et al. 2021

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Photodynamic therapy (PDT) is a cancer treatment still bearing enormous prospects of improvement. Within the toolbox of PDT, developing photosensitizers (PSs) that can specifically reach tumor cells and promote the generation of high concentration of reactive oxygen species (ROS) is a constant research goal. Mitochondria is known as a highly appealing target for PSs, thus being able to assess the biodistribution of the PSs prior to its light activation would be crucial for therapeutic maximization. Bifunctional Ir(III) complexes of the type [Ir(C^N)2(N^N-R)]+, where N^C is either phenylpyridine (ppy) or benzoquinoline (bzq), N^N is 2,2′-dipyridylamine (dpa) and R either anthracene (1 and 3) or acridine (2 and 4), have been developed as novel trackable PSs agents. Activation of the tracking or therapeutic function could be achieved specifically by irradiating the complex with a different light wavelength (405 nm vs. 470 nm respectively). Only complex 4 ([Ir(bzq)2(dpa-acr)]+) clearly showed dual emissive pattern, acridine based emission between 407–450 nm vs. Ir(III) based emission between 521 and 547 nm. The sensitivity of A549 lung cancer cells to 4 evidenced the importance of involving the metal center within the activation process of the PS, reaching values of photosensitivity over 110 times higher than in dark conditions. Moreover, complex 4 promoted apoptotic cell death and possibly the paraptotic pathway, as well as higher ROS generation under irradiation than in dark conditions. Complexes 2–4 accumulated in the mitochondria but species 2 and 4 also localizes in other subcellular organelles.

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Tunable Emissive Ir(III) Benzimidazole‐quinoline Hybrids as Promising Theranostic Lead Compounds

et al. 2022

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Bioactive and luminescent cyclometallated Ir(III) complexes [Ir(ppy) 2 L1]Cl (1) and [Ir(ppy) 2 L2]Cl (2) containing a benzimidazole derivative (L1/L2) as auxiliary mimic of a nucleotide have been synthesised. The emissive properties of both complexes are conditioned by the nature of L1 and L2, rendering an orange and a green emitter respectively. Both are highly emissive with quantum yield increasing in absence of oxygen up to 0.26 (1) and 0.36 (2), suggesting their phosphorescent character. Antiproliferative activity against lung cancer A549 cells increased up to 15 times upon irradiation conditions, reaching IC 50 values in the nanomolar range (0.3 � 0.09 μM (1) and 0.26 � 0.14 μM (2)) and pointing them as good PSs candidates for photodynamic therapy via 1 O 2 generation. Cellular biodistribution analysis by fluorescence microscopy suggest the lysosomes as the preferential accumulation organelle. Time-resolved studies showed a greatly increased cellular emission lifetime compared to the solution values, indicating binding to macromolecules or cellular structures and restriction of collision and vibrational quenching.

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Evolution of directly-spinnable carbon nanotube growth by recycling analysis

Huynh

Hawkins

Redrado

et al. 2011

Carbon

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Marta Redrado

Luminescent Re(I)/Au(I) Species As Selective Anticancer Agents for HeLa Cells

Multifunctional Heterometallic Ir^III−Au^I Probes as Promising Anticancer and Antiangiogenic Agents

Carbon nanotube growth on cobalt-sprayed substrates by thermal CVD

Theranostics Through the Synergistic Cooperation of Heterometallic Complexes

Aligned carbon nanotubes grown on alumina and quartz substrates by a simple thermal CVD process

Dual Emissive Ir(III) Complexes for Photodynamic Therapy and Bioimaging

Tunable Emissive Ir(III) Benzimidazole‐quinoline Hybrids as Promising Theranostic Lead Compounds

Evolution of directly-spinnable carbon nanotube growth by recycling analysis

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Marta Redrado

Luminescent Re(I)/Au(I) Species As Selective Anticancer Agents for HeLa Cells

Multifunctional Heterometallic IrIII−AuI Probes as Promising Anticancer and Antiangiogenic Agents

Carbon nanotube growth on cobalt-sprayed substrates by thermal CVD

Theranostics Through the Synergistic Cooperation of Heterometallic Complexes

Aligned carbon nanotubes grown on alumina and quartz substrates by a simple thermal CVD process

Dual Emissive Ir(III) Complexes for Photodynamic Therapy and Bioimaging

Tunable Emissive Ir(III) Benzimidazole‐quinoline Hybrids as Promising Theranostic Lead Compounds

Evolution of directly-spinnable carbon nanotube growth by recycling analysis

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Product

Resources

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Multifunctional Heterometallic Ir^III−Au^I Probes as Promising Anticancer and Antiangiogenic Agents