Person:
Sánchez Peláez, Ana Edilia

First Name

Ana Edilia

Last Name

Sánchez Peláez

URI

https://hdl.handle.net/20.500.14352/76214

Affiliation

Universidad Complutense de Madrid

Faculty / Institute

Ciencias Químicas

Department

Química Inorgánica

Area

Química Inorgánica

Identifiers

Full item page

Search Results

Now showing 1 - 8 of 8

Project number: 62
Investigación llevada a las aulas: una experiencia en la asignatura de Química Organometálica del Grado en Química
(2018) Campo Santillana, José Antonio; Sánchez Peláez, Ana Edilia; Gutiérrez Alonso, Ángel; Perpiñán Vielba, María Felisa; Torralba Martínez, María del Carmen; Cuerva de Alaiz, Cristian; Soria Marina, Lorena; Pastor Alcañiz, María Jesús
Project number: 155
Material docente con un enfoque práctico dirigido a la caracterización de compuestos inorgánicos
(2022) López García, María Luisa; Álvarez Serrano, Inmaculada; Cortijo Montes, Miguel; Mayoral Muñoz, Maria Jose; Sánchez Peláez, Ana Edilia; Torres Pardo, Almudena; Torralba Martínez, María del Carmen; Cortés Gil, Raquel
Se han elaborado una coleccón de ejercicios utilizando las técnicas de caracterizacion de materiales inorgánicos Además se incluyen un tutorial en el que se dirige al estudiante como es la manera de identificar las bandas caracteristicas de los compuestos, y tambien hay conocimientos generales de EDS. Los ejercicios propuestos tambien se presentan resueltos paso a paso para que se puedan seguir de manera sencilla su desarrollo.
Steric hindrance and charge influence on the cytotoxic activity and protein binding properties of diruthenium complexes
(International Journal of Biological Macromolecules, 2023) Terán More, Aaron; Ferraro, Giarita; Imbimbo, Paola; Sánchez Peláez, Ana Edilia; Monti, Daria Maria; Herrero Domínguez, Santiago; Merlino, Antonello
Paddlewheel diruthenium complexes are being used as metal-based drugs. It has been proposed that their charge and steric properties determine their selectivity towards proteins. Here, we explore these parameters using the first water-soluble diruthenium complex bearing two formamidinate ligands, [Ru2Cl(DPhF)2(O2CCH3)2], and two derivatives, [Ru2Cl(DPhF)(O2CCH3)3] and K2[Ru2(DPhF)(CO3)3] (DPhF− = N,N′-diphenylformamidinate), with one formamidinate. Their protein binding properties have been assessed employing hen egg white lysozyme (HEWL). The results confirm the relationship between the type of interaction (coordinate/non-coordinate bonds) and the charge of diruthenium complexes. The crystallization medium is also a key factor. In all cases, diruthenium species maintain the M–M bond and produce stable adducts. The antiproliferative properties of these diruthenium complexes have been evaluated on an eukaryotic cell-based model. Our data show a correlation between the number of the formamidinate ligands and the anticancer activity of the diruthenium derivatives against human epithelial carcinoma cells. Increased cytotoxicity may be related to increased steric hindrance and Ru2 5+ core electronic density. However, the effect of increasing the lipophilicity of diruthenium species by introducing a second N,N′-diphenylformamidinate must be also considered. This work illustrates a systematic approach to shed light on the relevant properties of diruthenium compounds to design metal-based metallodrugs and diruthenium metalloenzymes
Project number: 398
Interpretación de los datos aportados por las técnicas instrumentales y dirigidos a la caracterización de compuestos inorgánicos. (Parte II)
(2023) López García, M. Luisa; Álvarez Serrano, Inmaculada; Cortés Gil, Raquel; Cortijo Montes, Miguel; Mayoral Muñoz, M. Jose; Sánchez Peláez, Ana Edilia; Torralba Martínez, M. Carmen; Torres Pardo, Almudena
Este proyecto complementa el proyecto docente anterior (PIMCD 155) en el que se presentaron un conjunto de ejercicios que ayudan a extraer conclusiones a partir de los datos aportados por diferentes técnicas instrumentales de caracterización de sólidos inorgánicos. Así, en principio se elabora de material docente que implique la interpretación de los datos aportados por cada Técnicas que hemos considerado que todo estudiante de grado debe conocer. Se enfatiza la relevancia de estos resultados en la comprensión de los compuestos inorgánicos. Y en la parte final, hemos elaborado una práctica en la que se manejan los datos aportados por las técnicas y se presenta la complementariedad de todas ellas, y el tipo de información relevante que podemos obtener.
Project number: 230
Curso de nivelación de Química para los Grados en Geología e Ingeniería Geológica
(2015) Campo Santillana, José Antonio; Álvarez Serrano, Inmaculada; Herrero Domínguez, Santiago; Ruiz González, M. Luisa; Torralba Martínez, M. Carmen; Sánchez Peláez, Ana Edilia; Ovejero Morcillo, Paloma; Hernando González, María; Varela Losada, Áurea; Ramírez Castellanos, Julio; Arroyo de Dompablo, Elena; Ortega Menor, Lorena; Luque Del Villar, Francisco Javier; Arribas Mocoroa, José; Pieren Pidal, Agustín Pedro; Muñoz Martín, Alfonso; Ureta Gil, María Soledad
Effect of Equatorial Ligand Substitution on the Reactivity with Proteins of Paddlewheel Diruthenium Complexes: Structural Studies
(Inorganic Chemistry, 2023) Terán More, Aaron; Ferraro, Giarita; Sánchez Peláez, Ana Edilia; Herrero Domínguez, Santiago; Merlino, Antonello
The paddlewheel [Ru2Cl(O2CCH3)4] complex was previously reported to react with the model protein hen egg white lysozyme (HEWL), forming adducts with two diruthenium moieties bound to Asp101 and Asp119 side chains upon the release of one acetate. To study the effect of the equatorial ligands on the reactivity with proteins of diruthenium compounds, X-ray structures of the adducts formed when HEWL reacts with [Ru2Cl(D-p-FPhF)(O2CCH3)3] [D-p-FPhF = N,N′-bis(4-fluorophenyl)formamidinate] under different conditions were solved. [Ru2Cl(D-p-FPhF)(O2CCH3)3] is bonded through their equatorial positions to the Asp side chains. Protein binding occurs cis or trans to D-p-FPhF. Lys or Arg side chains or even main-chain carbonyl groups can coordinate to the diruthenium core at the axial site. Data help to understand the reactivity of paddlewheel diruthenium complexes with proteins, providing useful information for the design of new artificial diruthenium-containing metalloenzymes with potential applications in the fields of catalysis, biomedicine, and biotechnology.
A Diruthenium Metallodrug as a Potent Inhibitor of Amyloid-β Aggregation: Synergism of Mechanisms of Action
(Inorganic Chemistry, 2024) La Manna, Sara; Di Natale, Concetta; Panzetta, Valeria; Leone, Marilisa; Mercurio, Flavia ; Cipollone, Irene; Monti, Maria; Netti, Paolo ; Ferraro, Giarita; Terán More, Aaron; Sánchez Peláez, Ana Edilia; Herrero Domínguez, Santiago; Merlino, Antonello; Marasco, Daniela
The physical and chemical properties of paddlewheel diruthenium compounds are highly dependent on the nature of the ligands surrounding the bimetallic core. Herein, we compare the ability of two diruthenium compounds, [Ru2Cl(D-p-FPhF)- (O2CCH3)3]·H2O (1) (D-p-FPhF− = N,N′-bis(4-fluorophenyl)- formamidinate) and K3[Ru2(O2CO)4]·3H2O (2), to act as inhibitors of amyloid aggregation of the Aβ1−42 peptide and its peculiar fragments, Aβ1−16 and Aβ21−40. A wide range of biophysical techniques has been used to determine the inhibition capacity against aggregation and the possible mechanism of action of these compounds (Thioflavin T fluorescence and autofluorescence assays, UV−vis absorption spectroscopy, circular dichroism, nuclear magnetic resonance, mass spectrometry, and electron scanning microscopy). Data show that the most effective inhibitory effect is shown for compound 1. This compound inhibits fiber formation and completely abolishes the cytotoxicity of Aβ1−42. The antiaggregatory capacity of this complex can be explained by a binding mechanism of the dimetallic units to the peptide chain along with π−π interactions between the formamidinate ligand and the aromatic side chains. The results suggest the potential use of paddlewheel diruthenium complexes as neurodrugs and confirm the importance of the steric and charge effects on the properties of diruthenium compounds
Ultrasound-assisted synthesis of water-soluble monosubstituted diruthenium compounds
(Ultrasonics Sonochemistry, 2021) Terán More, Aaron; Cortijo Montes, Miguel; Gutiérrez Alonso, Ángel; Sánchez Peláez, Ana Edilia; Herrero Domínguez, Santiago; Jiménez Aparicio, Reyes
The elusive monosubstituted diruthenium complexes [Ru2Cl(DAniF)(O2CMe)3] (1), [Ru2Cl(DPhF)(O2CMe)3] (2), [Ru2Cl(D-p-CNPhF)(O2CMe)3] (3), [Ru2Cl(D-o-TolF)(O2CMe)3] (4), [Ru2Cl(D-m-TolF)(O2CMe)3] (5), [Ru2Cl(D-p-TolF)(O2CMe)3] (6) and [Ru2Cl(p-TolA)(O2CMe)3] (7) have been synthesized using for the first time ultrasound-assisted synthesis to carry out a substitution reaction in metal–metal bonded dinuclear compounds (DAniF− = N,N′-bis(4-anisyl)formamidinate; DPhF− = N,N′-diphenylformamidinate; D-p-CNPhF− = N,N′-bis(4-cyanophenyl)formamidinate; D-o/m/p-TolF− = N,N′-bis(2/3/4-tolyl)formamidinate; p-TolA− = N-4-tolylamidate). This is a simpler and greener method than the tedious procedures described in the literature, and it has permitted to obtain water-soluble complexes with good yields in a short period of time. A synthetic study has been implemented to find the best experimental conditions to prepare compounds 1–7. Two different types of ligands, formamidinate and amidate, have been used to check the generality of the method for the preparation of monosubstituted complexes. Five new compounds (2–6) have been obtained using a formamidinate ligand, the synthesis of the previously described compound 1 has been improved, and an unprecedented monoamidate complex has been achieved (7). The crystal structures of compounds 3 and 7 have been solved by single crystal X-ray diffraction. These compounds show the typical paddlewheel structure with three acetate ligands and one formamidinate (3) or amidate (7) bridging ligand at the equatorial positions. The axial positions are occupied by the chloride ligand giving rise to one-dimensional polymer structures that were previously unknown for monosubstituted compounds.