Tensioactivos y Líquidos Iónicos Biocompatibles – IQAC – Institut de Química Avançada de Catalunya – CSIC

TENSIOACTIVOS Y LIQUIDOS IONICOS BIOCOMPATIBLES

Presentación Líneas de investigación Miembros Publicaciones

Jefe de grupo: Aurora Pinazo

Actualmente, la industria química se enfrenta a uno de los retos más importantes de su historia. Las actuales directrices mundiales en cuanto a la calidad de vida, exigen el uso de procesos integrados de producción sostenible que, para generar productos de alto valor añadido, utilicen de manera racional las materias primas naturales renovables. La principal reacción a esto es el aumento en la investigación sobre cómo se pueden utilizar los recursos renovables en la síntesis de nuevos compuestos biocompatibles.

Dado que se sabe que los compuestos que presentan actividad superficial pueden afectar negativamente al medio acuático, hay una clara tendencia a emplear materias primas renovables no tóxicas como materiales de partida para la síntesis de compuestos biocompatibles no contaminantes. En este contexto, nuestro grupo lleva a cabo una investigación exhaustiva de nuevos tensioactivos y líquidos iónicos derivados de fuentes naturales renovables, tales como aminoácidos y aceites naturales. Nuestro objetivo es desarrollar tensioactivos y líquidos iónicos biocompatibles y biodegradables. Los tensioactivos y los líquidos iónicos con estas propiedades cubrirían, en parte, las necesidades de una serie de industrias tales como la industria de la alimentación, la cosmética y la farmacéutica.

LÍNEAS DE INVESTIGACIÓN

Síntesis de nuevos tensioactivos y líquidos iónicos biocompatibles derivados de aminoácidos
Estudio de su adsorción en interfaces y de sus propiedades de agregación.
Estudio de las interacciones con membranas biológicas.
Estudio de su actividad antimicrobiana, toxicidad y biodegradación.

Liquid crystals of biocompatible amino acid based surfactants and ionic liquids

Antimicrobial effect of biocompatible amino acid based surfactants on E. coli bacteria

Personal científico

49-Aurora-Pinazo

Aurora Pinazo
Científico Titular
aurora.pinazo@iqac.csic.es

Listado completo de publicaciones

50-Ma-Teresa-Garcia

Mª Teresa García
Científico Titular
teresa.garcia@iqac.csic.es

Listado completo de publicaciones

51-Lourdes-Perez

Lourdes Pérez
Científico Titular
lourdes.perez@iqac.csic.es

Listado completo de publicaciones

Personal de laboratorio

foto-missing

Zakaria Hafidi
Investigador Postdoctoral
zakaria.hafidi@iqac.csic.es

52-Juan-Jose-Gonzalez

Juan José González
Ayudante investigación
juanjose.gonzalez@iqac.csic.es

foto-missing

Elena Bautista
Técnica

Cationic Surfactants Based on Arginine-Phenylalanine and Arginine-Tryptophan: Synthesis, Aggregation Behavior, Antimicrobial Activity, and Biodegradation-
Lourdes Pérez, María Teresa García, Aurora Pinazo, Edgar Pérez-Matas, Zakaria Hafidi and Elena Bautista

Pharmaceutics 2022, 14(12), 2602
Biological, toxicological and molecular docking evaluations of isoxazoline-thiazolidine-2,4-dione analogues as new class of anti-hyperglycemic agents-
Fettach, S., Thari, F.Z., Hafidi, Z., Karrouchi, K., Bouathmany, K., Cherrah, Y., El Achouri, M., Benbacer, L., El Mzibri, M., Sefrioui, H., Bougrin, K., Faouzi, M.E.A.

Journal of Biomolecular Structure and Dynamics, 2021
Arginine-phenylalanine and arginine-tryptophan-based surfactants as new biocompatible antifungal agents and their synergistic effect with Amphotericin B against fluconazole-resistant Candida strains-
Serpa Sampaio Moreno, L., Nobre Junior, H.V., Ramos da Silva, A., Aires do Nascimento, F.B.S., Rocha da Silva, C., de Andrade Neto, J.B., Cavalcanti, B.C., Odorico de Moraes, M., Pinazo, A., Pérez, L.

Colloids and Surfaces B: Biointerfaces, 207, art. no. 112017, 2021
Green cationic arginine surfactants: Influence of the polar head cationic character on the self-aggregation and biological properties-
Pérez, L., Pons, R., Oliveira de Sousa, F.F., Morán, M.D.C., Ramos da Silva, A., Pinazo, A

Journal of Molecular Liquids, 339, art. no. 116819, . 2021
Antifungal activity of amino-alcohols based cationic surfactants and in silico, homology modeling, docking and molecular dynamics studies against lanosterol 14-α-demethylase enzyme-
Hafidi, Z., El achouri, M., O.Sousa, F.F., Pérez, L.

Journal of Biomolecular Structure and Dynamics, 2021
Interaction of cationic surfactants with DPPC membranes: effect of a novel N α-benzoylated arginine-based compound-
Hermet, M., Elisa Fait, M., Vazquez, R.F., Mate, S., Daza Millone, M.A., Elena Vela, M., García, M.T., Morcelle, S.R., Bakas, L.

Amino Acids, 53 (4), pp. 609-619. 2021
Development of anacardic acid-loaded zein nanoparticles: Physical chemical characterization, stability and antimicrobial improvement-
Araujo, J.T.C.D., Martin-Pastor, M., Pérez, L., Pinazo, A., Sousa, F.F.O.D.

Journal of Molecular Liquids, 332, art. no. 115808, 2021
Aggregation behavior, antibacterial activity and biocompatibility of catanionic assemblies based on amino acid‐derived surfactants-
Pérez, L., Pinazo, A., Morán, M.C., Pons, R.

International Journal of Molecular Sciences, 21 (23), art. no. 8912, pp. 1-23. 2020
Catanionic mixtures of surface-active ionic liquids and N-lauroyl sarcosinate: Surface adsorption, aggregation behavior and microbial toxicity-
Garcia, M.T., Ribosa, I., Gonzalez, J.J., Comelles, F.

Journal of Molecular Liquids, 318, art. no. 114040, 2020
Antifungal and antiprotozoal green amino acid-based rhamnolipids: Mode of action, antibiofilm efficiency and selective activity against resistant Candida spp. strains and Acanthamoeba castellanii-
da Silva, A., Nobre, H., Sampaio, L., Nascimento, B.D., da Silva, C., de Andrade Neto, J.B., Manresa, Á., Pinazo, A., Cavalcanti, B., de Moraes, M.O., Ruiz-Trillo, I., Antó, M., Morán, C., Pérez, L.

Colloids and Surfaces B: Biointerfaces, 193, art. no. 111148, 2020
Biocompatible catanionic vesicles from arginine-based surfactants: A new strategy to tune the antimicrobial activity and cytotoxicity of vesicular systems-
Pinazo, A., Pons, R., Marqués, A., Farfan, M., da Silva, A., Perez, L.

Pharmaceutics, 12 (9), art. no. 857, pp. 1-24. 2020
Protein expression knockdown in cancer cells induced by a gemini cationic lipid nanovector with histidine-based polar heads-
Sánchez-Arribas, N., Martínez-Negro, M., Villar, E.M., Pérez, L., Barcina, J.O., Aicart, E., Taboada, P., Guerrero-Martínez, A., Junquera, E.

Pharmaceutics, 12 (9), art. no. 791, pp. 1-22. 2020
Biocompatible Nanovector of siRNA Consisting of Arginine-Based Cationic Lipid for Gene Knockdown in Cancer Cells-
Sánchez-Arribas, N., Martínez-Negro, M., Villar, E.M., Pérez, L., Aicart, E., Taboada, P., Guerrero-Martínez, A., Junquera, E.

ACS applied materials & interfaces, 12 (31), pp. 34536-34547. 2020
Surface activity, self-aggregation and antimicrobial activity of catanionicmixtures of surface active imidazolium- or pyridinium-based ionicliquids and sodium bis(2-ethylhexyl) sulfosuccionate-
M. Teresa Garcia, Isabel Ribosa, Juan José González, Francesc Comelles

Journal of Molecular Liquids 303, 2020, 112637
Rhamnolipids functionalized with basic amino acids: Synthesis, aggregation behavior, antibacterial activity and biodegradation studies-
Ramos da Silva, A., Manresa, M.Á., Pinazo, A., García, M.T., Pérez, L.

Colloids and Surfaces B: Biointerfaces, 181, pp. 234-243. 2019
Gemini histidine based surfactants: Characterization; surface properties and biological activity-
Pinazo, A., Pons, R., Bustelo, M., Manresa, M.Á., Morán, C., Raluy, M., Pérez, L.

Journal of Molecular Liquids, 289, art. no. 111156, 2019
Synthesis, self-assembly, bacterial and fungal toxicity, and preliminary biodegradation studies of a series of L-phenylalanine-derived surface-active ionic liquids-
Illia V. Kapitanov, Andrew Jordan, Yevgen Karpichev, Marcel Spulak, Lourdes Perez, Andrew Kellett, Klaus Kümmerer and Nicholas Gathergood

Green Chem. 2019
Biodegradability and aquatic toxicity of new cleavable betainate cationic oligomeric surfactants-
M. Teresa Garcia, Isabel Ribosa, Iwona Kowalczyk, Marta Pakiet and Bogumil Brycki

Journal of Hazardous Materials 371 (2019) 108–114
Green Catanionic Gemini Surfactant–Lichenysin Mixture: Improved Surface, Antimicrobial, and Physiological Properties.-
Ruiz A., A. Pinazo, L. Pérez, A. Manresa, A. Marquez

ACS Appl. Mater. Interfaces, 2017, 9, 22121-22131.
Monocatenary histidine-based surfactants: Role of the alkyl chain length in antimicrobial activity and their selectivity over red blood cells-
Bustelo, M; Pinazo, A.; Manresa, M.A.; Vinardell, M.P.; Pérez, L.

Colloids Surf A, 2017, 532, 501-509.
Pharmaceutical versatility of cationic niosomes derived from amino acid-based surfactants: Skin penetration behavior and controlled drug release.-
Muzzalupo, L. Pérez, A. Pinazo, L. Tavano

Int J Pharm., 2017, 529, 245-252.
Protein-repellent and antimicrobial nanoparticle coatings from hyaluronic acid and a lysine-derived biocompatible surfactant-
Bračič, M., Fras-Zemljič, L.,Pérez, L.,Kogej, K.,Stana-Kleinschek, K.,Kargl, R., Mohan, T.

J Mater Chem B. 2017, 5, 3888-3897.
Hydrophilicity and flexibility of the spacer as critical parameters on the aggregation behavior of long alkyl chain cationic gemini surfactants in aqueous solution.-
M.T. Garcia; O. Kaczerewska; I. Ribosa; B. Brycki; P. Materna; M. Drgas.

J Molec Liquids. 2017, .230, 453 - 460.
Micellization and Antimicrobial Properties of Surface-Active Ionic Liquids Containing Cleavable Carbonate Linkages-
M.Teresa Garcia; Isabel Ribosa; Lourdes Perez; Angeles Manresa; Francesc Comelles..

Langmuir. 2017, 33 -26, 6511 - 6520.
New cationic vesicles prepared with double chain surfactants from arginine: Role of the hydrophobic group on the antimicrobial activity and cytotoxicity.-
Pinazo, A; Petrizelli, V; Bustelo, M; Pons, R; Vinardell, M P; Mitjans, M; Manresa, A; Perez, L

Colloids Surf B Biointerfaces, 2016, 141, 19-27
Amino acid-based surfactants: New antimicrobial agents-
Pinazo, A.; Manresa, M. A.; Marques, A. M.; Pérez, L.

Adv Colloid Interface Sci. 2016, 228, 17-39
Biodegradability and aquatic toxicity of quaternary ammonium-based gemini surfactants: Effect of the spacer on their ecological properties.-
M.T. Garcia; O. Kaczerewska; I. Ribosa; B. Brycki; P. Materna; M. Drgas.

Chemosphere. 2016, 154, 155 - 160.
Cationic vesicles based on biocompatible diacyl glycerol-arginine surfactants: Physicochemical properties, antimicrobial activity, encapsulation efficiency and drug release-
LTavano, A. Pinazo, M. Abo-Riya, M.R. Infante, M.A, Manresa, Pérez L.

Colloids Surf B Biointerfaces. 2014,120, 160-167.
Self-assembly and antimicrobial activity of long-chain amide-functionalized ionic liquids in aqueous solution.-
M.T. Garcia; I. Ribosa; L. Perez; A. Manresa; F. Comelles.

Colloids Surf B Biointerfaces. 2014, 123, 318 - 325.
Amino Acid Based Surfactants: An Overview-
Pérez, A. Pinazo, R. Pons, M.R. Infante

Adv Colloid Interface Sci. 2014, 205, 134-135.
Role of aggregate size in the hemolytic and antimicrobial activity of colloidal solutions based on single and gemini surfactants from arginine-
Tavano, M.R. Infante, M. Abo Riya, A. Pinazo, M.P. Vinardell, M. Mitjans, M.A. Manresa, L. Perez

Soft Matter, 2013, 9, 306-319.
Mixed Monolayer of DPPC and Lysine-Based Cationic Surfactants: An Investigation into the Antimicrobial Activity-
Colomer, L. Pérez, R. Pons, M.R. Infante, D. Perez-Clos, A. Manresa, M.J. Espuny, A. Pinazo

Langmuir, 2013, 29, 7912-7921.
A new generation of aprotic yet Brønsted acidic imidazolium salts: effect of ester/amide groups in the C-2, C-4 and C-5 on antimicrobial toxicity and biodegradation.-
R.G. Gore, L. Myles, M. Spulak, I. Beadham, M.T. Garcia, S.J. Connon, N. Gathergood.

Green Chemistry. 2013, 15, 2747 - 2760.
Aggregation behavior and antimicrobial activity of ester-functionalized imidazolium- and pyrdinium based ionic liquids in aqueous solution.-
M.T.Garcia , I. Ribosa, L. Perez, A. Manresa, F. Comelles.

Langmuir. 2013, 29, 2536 -2545.
Antimicrobial toxicity studies of ionic liquids leading to a "hit" MRSA selective antibacterial imidazolium salt.-
Coleman; M. Spulak; M.T. Garcia; N. Gathergood.

Green Chemistry. 2012, 14, 1350 - 1356.
Interaction of Nonionic Surfactants and Hydrophilic Ionic Liquids in Aqueous Solutions: Can Short Ionic Liquids Be More than a Solvent?.-
Comelles; I. Ribosa; J.J. González; M.T. Garcia.

Langmuir. 2012, 28, 14522 - 14530.
Self-aggregation and antimicrobial activity of imidazolium and pyridinium based ionic liquids in aqueous solution.-
Cornellas, L. Pérez, F. Comelles, I. Ribosa, A. Manresa; M.T. García.

J Colloid Interface Sci. 2011, 355, 164 - 171.
Adsorption of polyphenols in wastewater by organo-bentonites-
A.Marsal, E. Bautista, I. Ribosa, R. Pons, M.T. García

Applied Clay Science 44 (2009) 151 – 155
Cationic gemini surfactants containing an O-substituted spacer and hydroxyethyl moiety in the polar heads: Self-assembly, biodegradability and aquatic toxicity-
O.Kaczerewska; B. Brycki; I. Ribosa; F. Comelles; M.T. Garcia.

J Industrial Engineer Chem. 2018, 59, 141-148