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10. Efficient Delivery of Antimicrobial Peptides in an Innovative, Slow-Release Pharmacological Formulation

Author

Serna, Naroa, primary, López-Laguna, Hèctor, additional, Aceituno, Patricia, additional, Rojas-Peña, Mauricio, additional, Parladé, Eloi, additional, Voltà-Durán, Eric, additional, Martínez-Torró, Carlos, additional, Sánchez, Julieta M., additional, Di Somma, Angela, additional, Carratalá, Jose Vicente, additional, Livieri, Andrea L., additional, Ferrer-Miralles, Neus, additional, Vázquez, Esther, additional, Unzueta, Ugutz, additional, Roher, Nerea, additional, and Villaverde, Antonio, additional

Published
2023
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11. Hybrid Micro-/Nanoprotein Platform Provides Endocrine-like and Extracellular Matrix-like Cell Delivery of Growth Factors

Author

López-Laguna, Hèctor, Tsimbouri, Penelope M., Jayawarna, Vineetha, Rigou, Ioanna, Serna, Naroa, Voltà-Durán, Eric, Unzueta, Ugutz, Salmeron-Sanchez, Manuel, Vázquez, Esther, Dalby, Matthew J., and Villaverde, Antonio

Abstract

Protein materials are versatile tools in diverse biomedical fields. Among them, artificial secretory granules (SGs), mimicking those from the endocrine system, act as mechanically stable reservoirs for the sustained release of proteins as oligomeric functional nanoparticles. Only validated in oncology, the physicochemical properties of SGs, along with their combined drug-releasing and scaffolding abilities, make them suitable as smart topographies in regenerative medicine for the prolonged delivery of growth factors (GFs). Thus, considering the need for novel, safe, and cost-effective materials to present GFs, in this study, we aimed to biofabricate a protein platform combining both endocrine-like and extracellular matrix fibronectin-derived (ECM-FN) systems. This approach is based on the sustained delivery of a nanostructured histidine-tagged version of human fibroblast growth factor 2. The GF is presented onto polymeric surfaces, interacting with FN to spontaneously generate nanonetworks that absorb and present the GF in the solid state, to modulate mesenchymal stromal cell (MSC) behavior. The results show that SGs-based topographies trigger high rates of MSCs proliferation while preventing differentiation. While this could be useful in cell therapy manufacture demanding large numbers of unspecialized MSCs, it fully validates the hybrid platform as a convenient setup for the design of biologically active hybrid surfaces and in tissue engineering for the controlled manipulation of mammalian cell growth.

Published
2024
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13. Biofabrication of Self-Assembling Covalent Protein Nanoparticles through Histidine-Templated Cysteine Coupling

Author

López-Laguna, Hèctor, primary, Rueda, Ariana, additional, Martínez-Torró, Carlos, additional, Sánchez-Alba, Lucía, additional, Carratalá, José Vicente, additional, Atienza-Garriga, Jan, additional, Parladé, Eloi, additional, Sánchez, Julieta M., additional, Serna, Naroa, additional, Voltà-Durán, Eric, additional, Ferrer-Miralles, Neus, additional, Reverter, David, additional, Mangues, Ramon, additional, Villaverde, Antonio, additional, Vázquez, Esther, additional, and Unzueta, Ugutz, additional

Published
2023
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15. A diphtheria toxin-based nanoparticle achieves specific cytotoxic effect on CXCR4+ lymphoma cells without toxicity in immunocompromised and immunocompetent mice

Author

Falgàs, Aïda, primary, Garcia-León, Annabel, additional, Núñez, Yáiza, additional, Serna, Naroa, additional, Sánchez-Garcia, Laura, additional, Unzueta, Ugutz, additional, Voltà-Durán, Eric, additional, Aragó, Marc, additional, Álamo, Patricia, additional, Alba-Castellón, Lorena, additional, Sierra, Jorge, additional, Gallardo, Alberto, additional, Villaverde, Antonio, additional, Vázquez, Esther, additional, Mangues, Ramon, additional, and Casanova, Isolda, additional

Published
2022
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16. Raw data to support the manuscript 'Engineering non-antibody human proteins as efficient scaffolds for selective, receptor-targeted drug delivery'

Author

Serna, Naroa, Pallarès, Victor, Unzueta Elorza, Ugutz, García-León, Annabel, Voltà-Durán, Eric, Sánchez Chardi, Alejandro, Parladé Molist, Eloi, Rueda, Ariana, Casanova Rigat, Isolda, Falgàs, Aïda, Alba-Castellón, Lorena, Sierra, Jorge, Villaverde Corrales, Antonio, Vázquez Gómez, Esther, Mangues, Ramon, Serna, Naroa, Pallarès, Victor, Unzueta Elorza, Ugutz, García-León, Annabel, Voltà-Durán, Eric, Sánchez Chardi, Alejandro, Parladé Molist, Eloi, Rueda, Ariana, Casanova Rigat, Isolda, Falgàs, Aïda, Alba-Castellón, Lorena, Sierra, Jorge, Villaverde Corrales, Antonio, Vázquez Gómez, Esther, and Mangues, Ramon

Abstract

Altres ajuts: Marató de TV3 Foundation (grant 201941-30-31-32), Raw data of a set of experiments aimed to explore the suitability of different human proteins as scaffold for targeted nanocarriers.

Published
2022

17. Raw data from Self-Assembled Nanobodies as Selectively Targeted, Nanostructured and Multivalent Materials

Author

Sánchez-García, Laura, Voltà-Durán, Eric, Parladé Molist, Eloi, Mazzega, Elisa, Sánchez-Chardi, Alejandro, Serna, Naroa, López-Laguna, Hèctor, Mitstorfer, Mara, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, de Marco, Ario, Sánchez-García, Laura, Voltà-Durán, Eric, Parladé Molist, Eloi, Mazzega, Elisa, Sánchez-Chardi, Alejandro, Serna, Naroa, López-Laguna, Hèctor, Mitstorfer, Mara, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, and de Marco, Ario

Abstract

Raw data of a set of experiments aimed to explore the self-assembling of recombinant nanobodies

Published
2022

18. Raw data from a MS with the tentative title : Cell penetration of receptor-targeted protein-only nanoparticles assisted by the translocation domain of the diphtheria toxin

Author

Voltà-Durán, Eric, Sanchez, Julieta M., Parladé Molist, Eloi, Serna, Naroa, Vázquez Gómez, Esther, Unzueta Elorza, Ugutz, Villaverde Corrales, Antonio, Institut Germans Trias i Pujol. Institut de Recerca contra la Leucèmia Josep Carreras, Voltà-Durán, Eric, Sanchez, Julieta M., Parladé Molist, Eloi, Serna, Naroa, Vázquez Gómez, Esther, Unzueta Elorza, Ugutz, Villaverde Corrales, Antonio, and Institut Germans Trias i Pujol. Institut de Recerca contra la Leucèmia Josep Carreras

Abstract

Raw data of a set of experiments aimed to explore the properties of the diftheria toxin translocation domain placed in receptor-targeted self-assembling nanoparticles based on recombinant proteins

Published
2022

19. An In Silico Methodology That Facilitates Decision Making in the Engineering of Nanoscale Protein Materials

Author

Parladé Molist, Eloi, Voltà-Durán, Eric, Cano-Garrido, Olivia, Sanchez, Julieta M., Unzueta Elorza, Ugutz, López-Laguna, Hèctor, Serna, Naroa, Cano, Montserrat, Rodríguez-Mariscal, Manuel, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, Parladé Molist, Eloi, Voltà-Durán, Eric, Cano-Garrido, Olivia, Sanchez, Julieta M., Unzueta Elorza, Ugutz, López-Laguna, Hèctor, Serna, Naroa, Cano, Montserrat, Rodríguez-Mariscal, Manuel, Vázquez Gómez, Esther, and Villaverde Corrales, Antonio

Abstract

Under the need for new functional and biocompatible materials for biomedical applications, protein engineering allows the design of assemblable polypeptides, which, as convenient building blocks of supramolecular complexes, can be produced in recombinant cells by simple and scalable methodologies. However, the stability of such materials is often overlooked or disregarded, becoming a potential bottleneck in the development and viability of novel products. In this context, we propose a design strategy based on in silico tools to detect instability areas in protein materials and to facilitate the decision making in the rational mutagenesis aimed to increase their stability and solubility. As a case study, we demonstrate the potential of this methodology to improve the stability of a humanized scaffold protein (a domain of the human nidogen), with the ability to oligomerize into regular nanoparticles usable to deliver payload drugs to tumor cells. Several nidogen mutants suggested by the method showed important and measurable improvements in their structural stability while retaining the functionalities and production yields of the original protein. Then, we propose the procedure developed here as a cost-effective routine tool in the design and optimization of multimeric protein materials prior to any experimental testing.

Published
2022

20. The Poly-Histidine Tag H6 Mediates Structural and Functional Properties of Disintegrating, Protein-Releasing Inclusion Bodies

Author

Sánchez, Julieta María, Carratalá, José Vicente, Serna, Naroa, Unzueta Elorza, Ugutz, Nolan, Verónica, Sánchez Chardi, Alejandro, Voltà-Durán, Eric, López-Laguna, Hèctor, Ferrer-Miralles, Neus, Villaverde Corrales, Antonio, Vázquez Gómez, Esther, Institut Germans Trias i Pujol. Institut de Recerca contra la Leucèmia Josep Carreras, Sánchez, Julieta María, Carratalá, José Vicente, Serna, Naroa, Unzueta Elorza, Ugutz, Nolan, Verónica, Sánchez Chardi, Alejandro, Voltà-Durán, Eric, López-Laguna, Hèctor, Ferrer-Miralles, Neus, Villaverde Corrales, Antonio, Vázquez Gómez, Esther, and Institut Germans Trias i Pujol. Institut de Recerca contra la Leucèmia Josep Carreras

Abstract

The coordination between histidine-rich peptides and divalent cations supports the formation of nano- and micro-scale protein biomaterials, including toxic and non-toxic functional amyloids, which can be adapted as drug delivery systems. Among them, inclusion bodies (IBs) formed in recombinant bacteria have shown promise as protein depots for time-sustained protein release. We have demonstrated here that the hexahistidine (H6) tag, fused to recombinant proteins, impacts both on the formation of bacterial IBs and on the conformation of the IB-forming protein, which shows a higher content of cross-beta intermolecular interactions in H6-tagged versions. Additionally, the addition of EDTA during the spontaneous disintegration of isolated IBs largely affects the protein leakage rate, again protein release being stimulated in His-tagged materials. This event depends on the number of His residues but irrespective of the location of the tag in the protein, as it occurs in either C-tagged or N-tagged proteins. The architectonic role of H6 in the formation of bacterial IBs, probably through coordination with divalent cations, offers an easy approach to manipulate protein leakage and to tailor the applicability of this material as a secretory amyloidal depot in different biomedical interfaces. In addition, the findings also offer a model to finely investigate, in a simple set-up, the mechanics of protein release from functional secretory amyloids.

Published
2022

21. An In Silico Methodology That Facilitates Decision Making in the Engineering of Nanoscale Protein Materials

Author

Parladé, Eloi, primary, Voltà-Durán, Eric, additional, Cano-Garrido, Olivia, additional, Sánchez, Julieta M., additional, Unzueta, Ugutz, additional, López-Laguna, Hèctor, additional, Serna, Naroa, additional, Cano, Montserrat, additional, Rodríguez-Mariscal, Manuel, additional, Vazquez, Esther, additional, and Villaverde, Antonio, additional

Published
2022
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22. The Poly-Histidine Tag H6 Mediates Structural and Functional Properties of Disintegrating, Protein-Releasing Inclusion Bodies

Author

Sánchez, Julieta María, primary, Carratalá, José Vicente, additional, Serna, Naroa, additional, Unzueta, Ugutz, additional, Nolan, Verónica, additional, Sánchez-Chardi, Alejandro, additional, Voltà-Durán, Eric, additional, López-Laguna, Hèctor, additional, Ferrer-Miralles, Neus, additional, Villaverde, Antonio, additional, and Vazquez, Esther, additional

Published
2022
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25. Cap a la millora de la teràpia dirigida contra el càncer : nanopartícules antitumorals amb doble funcionalitat

Author

Voltà-Durán, Eric, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, and Unzueta Elorza, Ugutz

Abstract

El tractament del càncer mitjançant teràpia dirigida continua avançant. La idea és aconseguir fàrmacs amb els quals el mecanisme d'acció s'enfoqui directament en les cèl·lules malaltes i evitar danyar les sanes. Mitjançant enginyeria de proteïnes es creen nanopartícules amb activitat tòxica i altres que transporten el fàrmac. El grup de Nanobiotecnologia de l'Institut de Biotecnologia i Biomedicina, en col·laboració amb el d'Oncogènesi i Antitumorals de l'Institut de recerca de l'Hospital de la Santa Creu i Sant Pau ha aconseguit elaborar nanopartícules estables que porten en una mateixa entitat aquesta doble funcionalitat: toxina i fàrmac. Si bé encara s'ha de continuar investigant per a aconseguir major precisió, els resultats obren una finestra a un ampli camp de recerca per al disseny de fàrmacs dirigits contra tumors. El tratamiento del cáncer mediante terapia dirigida sigue avanzando. La idea es conseguir fármacos cuyo mecanismo de acción se enfoque directamente en las células enfermas y evitar dañar las sanas. Mediante ingeniería de proteínas se crean nanopartículas con actividad tóxica y otras que transportan el fármaco. El grupo de Nanobiotecnología del Institut de Biotecnologia i Biomedicina, en colaboración con el de Oncogénesis y Antitumorales del Institut de recerca de l'Hospital de la Santa Creu i Sant Pau ha conseguido elaborar nanopartículas estables que portan en una misma entidad esta doble funcionalidad: toxina y fármaco. Aunque todavía se debe seguir investigando para conseguir mayor precisión, los resultados abren una ventana a un amplio campo de investigación para el diseño de fármacos dirigidos contra tumores. Cancer treatment through targeted therapy continues to advance. The idea is to have drugs whose mechanism of action focuses directly on diseased cells and avoids damaging healthy cells. Protein engineering creates nanoparticles with toxic activity and others that carry the drug. The Nanobiotechnology group of the Institute of Biotechnology and Biomedicine, in collaboration with the Oncogenesis and Antitumoral Group of the Institut de recerca de l'Hospital de la Santa Creu i Sant Pau, has managed to develop stable nanoparticles that carry this double functionality in the same entity: toxin and drug. Although research is still required to achieve greater precision, the results open a window to a wide field of research for the design of tumor-targeted drugs.

Published
2021

26. Biofabrication of functional protein nanoparticles through simple His-tag engineering

Author

López-Laguna, Hèctor, primary, Sánchez, Julieta M., additional, Carratalá, José Vicente, additional, Rojas-Peña, Mauricio, additional, Sánchez-García, Laura, additional, Parladé, Eloi, additional, Sánchez-Chardi, Alejandro, additional, Voltà-Durán, Eric, additional, Serna, Naroa, additional, Cano-Garrido, Olivia, additional, Flores, Sandra, additional, Ferrer-Miralles, Neus, additional, Nolan, Verónica, additional, de Marco, Ario, additional, Roher, Nerea, additional, Unzueta, Ugutz, additional, Vazquez, Esther, additional, and Villaverde, Antonio, additional

Published
2021
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27. Self-Assembled Nanobodies as Selectively Targeted, Nanostructured, and Multivalent Materials

Author

Sánchez-García, Laura, primary, Voltà-Durán, Eric, additional, Parladé, Eloi, additional, Mazzega, Elisa, additional, Sánchez-Chardi, Alejandro, additional, Serna, Naroa, additional, López-Laguna, Hèctor, additional, Mitstorfer, Mara, additional, Unzueta, Ugutz, additional, Vázquez, Esther, additional, Villaverde, Antonio, additional, and de Marco, Ario, additional

Published
2021
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28. Biparatopic Protein Nanoparticles for the Precision Therapy of CXCR4+ Cancers

Author

Cano-Garrido, Olivia, primary, Álamo, Patricia, additional, Sánchez-García, Laura, additional, Falgàs, Aïda, additional, Sánchez-Chardi, Alejandro, additional, Serna, Naroa, additional, Parladé, Eloi, additional, Unzueta, Ugutz, additional, Roldán, Mònica, additional, Voltà-Durán, Eric, additional, Casanova, Isolda, additional, Villaverde, Antonio, additional, Mangues, Ramón, additional, and Vázquez, Esther, additional

Published
2021
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29. Dataset for the following MS with provisional title : Ion-dependent slow protein release from in vivo disintegrating micro-granules

Author

Álamo, Patricia, Parladé Molist, Eloi, López-Laguna, Hèctor, Voltà-Durán, Eric, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Mangues, Ramon, Villaverde Corrales, Antonio, Álamo, Patricia, Parladé Molist, Eloi, López-Laguna, Hèctor, Voltà-Durán, Eric, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Mangues, Ramon, and Villaverde Corrales, Antonio

Abstract

Altres ajuts: CIBER-BBN projects: NANOPROTHER, NANOREMOTE i 4NanoMets, ICREA ACADEMIA award, Set DATASET that accompains the manuscript by Alamo and co-workers provisionally entitled Ion-dependent slow protein release from in vivo disintegrating micro-granules

Published
2021

30. Raw data to support the manuscript with the following intended title : The poly-histidine tag H6 mediates structural and functional properties of disintegrating bacterial amyloids

Author

Sanchez, Julieta M., Carratalá, José Vicente, Serna, Naroa, Unzueta Elorza, Ugutz, Nolan, Verónica, Sánchez Chardi, Alejandro, Voltà-Durán, Eric, López-Laguna, Hèctor, Ferrer Miralles, Neus, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, Sanchez, Julieta M., Carratalá, José Vicente, Serna, Naroa, Unzueta Elorza, Ugutz, Nolan, Verónica, Sánchez Chardi, Alejandro, Voltà-Durán, Eric, López-Laguna, Hèctor, Ferrer Miralles, Neus, Vázquez Gómez, Esther, and Villaverde Corrales, Antonio

Abstract

Altres ajuts: CIBER-BBN project: NANOPROTHER, Raw data of a set of experiments aimed to explore the involvement of His-tags in the formation of bacterial inclusion bodies

Published
2021

31. Biofabrication of functional protein nanoparticles through simple His-tag engineering

Author

López-Laguna, Hèctor, Sanchez, Julieta M, Carratalá, José Vicente, Rojas Peña, Mauricio, Sánchez-García, Laura, Parladé Molist, Eloi, Sánchez-Chardi, Alejandro, Voltà-Durán, Eric, Serna, Naroa, Cano-Garrido, Olivia, Flores, Sandra, Ferrer-Miralles, Neus, Nolan, Verónica, de Marco, Ario, Roher Armentia, Nerea, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, López-Laguna, Hèctor, Sanchez, Julieta M, Carratalá, José Vicente, Rojas Peña, Mauricio, Sánchez-García, Laura, Parladé Molist, Eloi, Sánchez-Chardi, Alejandro, Voltà-Durán, Eric, Serna, Naroa, Cano-Garrido, Olivia, Flores, Sandra, Ferrer-Miralles, Neus, Nolan, Verónica, de Marco, Ario, Roher Armentia, Nerea, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, and Villaverde Corrales, Antonio

Abstract

Altres ajuts: Acord transformatiu CRUE-CSIC, We have developed a simple, robust, and fully transversal approach for thea-la-cartefabrication of functional multimeric nanoparticles with potential biomedical applications, validated here by a set of diverse and unrelated polypeptides. The proposed concept is based on the controlled coordination between Znions and His residues in His-tagged proteins. This approach results in a spontaneous and reproducible protein assembly as nanoscale oligomers that keep the original functionalities of the protein building blocks. The assembly of these materials is not linked to particular polypeptide features, and it is based on an environmentally friendly and sustainable approach. The resulting nanoparticles, with dimensions ranging between 10 and 15 nm, are regular in size, are architecturally stable, are fully functional, and serve as intermediates in a more complex assembly process, resulting in the formation of microscale protein materials. Since most of the recombinant proteins produced by biochemical and biotechnological industries and intended for biomedical research are His-tagged, the green biofabrication procedure proposed here can be straightforwardly applied to a huge spectrum of protein species for their conversion into their respective nanostructured formats.

Published
2021

32. Ion-dependent slow protein release from in vivo disintegrating micro-granules

Author

Álamo, Patricia, Parladé Molist, Eloi, López-Laguna, Hèctor, Voltà-Durán, Eric, Unzueta Elorza, Ugutz, Vazquez, Esther, Mangues, Ramon, Villaverde Corrales, Antonio, Álamo, Patricia, Parladé Molist, Eloi, López-Laguna, Hèctor, Voltà-Durán, Eric, Unzueta Elorza, Ugutz, Vazquez, Esther, Mangues, Ramon, and Villaverde Corrales, Antonio

Abstract

Through the controlled addition of divalent cations, polyhistidine-tagged proteins can be clustered in form of chemically pure and mechanically stable micron-scale particles. Under physiological conditions, these materials act as self-disintegrating protein depots for the progressive release of the forming polypeptide, with potential applications in protein drug delivery, diagnosis, or theragnosis. Here we have explored the in vivo disintegration pattern of a set of such depots, upon subcutaneous administration in mice. These microparticles were fabricated with cationic forms of either Zn, Ca, Mg, or Mn, which abound in the mammalian body. By using a CXCR4-targeted fluorescent protein as a reporter building block we categorized those cations regarding their ability to persist in the administration site and to sustain a slow release of functional protein. Ca and specially Zn have been observed as particularly good promoters of time-prolonged protein leakage. The released polypeptides result is available for selective molecular interactions, such as specific fluorescent labeling of tumor tissues, in which the protein reaches nearly steady levels.

Published
2021

33. In vitro fabrication of microscale secretory granules

Author

López-Laguna, Hèctor, Parladé Molist, Eloi, Álamo, Patricia, Sánchez, Julieta M., Voltà-Durán, Eric, Serna, Naroa, Sánchez-García, Laura, Cano-Garrido, Olivia, Sánchez-Chardi, Alejandro, Villaverde Corrales, Antonio, Mangues, Ramon, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, López-Laguna, Hèctor, Parladé Molist, Eloi, Álamo, Patricia, Sánchez, Julieta M., Voltà-Durán, Eric, Serna, Naroa, Sánchez-García, Laura, Cano-Garrido, Olivia, Sánchez-Chardi, Alejandro, Villaverde Corrales, Antonio, Mangues, Ramon, Unzueta Elorza, Ugutz, and Vázquez Gómez, Esther

Abstract

Altres ajuts: ICREA Academia award, Advanced medical treatments involving drug delivery require fully biocompatible materials with the ability to release functional drugs in a time-prolonged way. Ideally, the delivered molecules should be self-contained as chemically homogenous entities to prevent the use of potentially toxic scaffolds or hold matrices. In nature, peptidic hormones are self-stored in protein-only secretory granules formed by the reversible coordination of Zn and histidine residues. Inspired by this concept, an in vitro transversal procedure is developed, analyzed, and comparatively applied for the fabrication of protein-only secretory granules at the microscale. These materials can be produced from any polyhistidine-tagged protein using physiological concentrations of Zn as a potent and versatile glue-like agent. The screening of granules formed by 12 engineered and nonengineered proteins at different Zn concentrations revealed optimal fabrication conditions and the consequent release profiles. Moreover, the functional and structural properties of the delivered protein are fully validated using a drug-targeting protein platform in a mouse model of human colorectal cancer. In summary, short histidine tags allow the packaging of structurally and functionally dissimilar polypeptides, which supports the proposed fabrication method as a powerful protocol extensible to diverse clinical scenarios in which slow protein drug delivery is required.

Published
2021

34. Self-assembled nanobodies as selectively targeted, nanostructured, and multivalent materials

Author

Sánchez-García, Laura, Voltà-Durán, Eric, Parladé Molist, Eloi, Mazzega, Elisa, Sánchez-Chardi, Alejandro, Serna, Naroa, López-Laguna, Hèctor, Mitstorfer, Mara, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, de Marco, Ario, Sánchez-García, Laura, Voltà-Durán, Eric, Parladé Molist, Eloi, Mazzega, Elisa, Sánchez-Chardi, Alejandro, Serna, Naroa, López-Laguna, Hèctor, Mitstorfer, Mara, Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Villaverde Corrales, Antonio, and de Marco, Ario

Abstract

Altres ajuts: EU COST Action CA 17140 ; ICREA Academia award, Nanobodies represent valuable tools in advanced therapeutic strategies but their small size (∼2.5 × ∼ 4 nm) and limited valence for interactions might pose restrictions for in vivo applications, especially regarding their modest capacity for multivalent and cooperative interaction. In this work, modular protein constructs have been designed, in which nanobodies are fused to protein domains to provide further functionalities and to favor oligomerization into stable self-assembled nanoparticles. The nanobody specificity for their targets is maintained in such supramolecular complexes. Also, their diameter around 70 nm and multivalent interactivity should favor binding and penetrability into target cells via solvent-exposed receptor. These concepts have been supported by unrelated nanobodies directed against the ricin toxin (A3C8) and the Her2 receptor (EM1), respectively, that were modified with the addition of a reporter protein and a hexa-histidine tag at the C-terminus that promotes self-assembling. The A3C8-based nanoparticles neutralize the ricin toxin efficiently, whereas the EM1-based nanoparticles enable to selective imaging Her2-positive cells. These findings support the excellent extracellular and intracellular functionality of nanobodies organized in form of oligomeric nanoscale assemblies.

Published
2021

35. Design and engineering of tumor-targeted, dual-acting cytotoxic nanoparticles

Author

Ministerio de Ciencia, Innovación y Universidades (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Voltà-Durán, Eric, Serna, Naroa, Sánchez-García, Laura, Aviñó, Anna, Sánchez, Julieta M., López-Laguna, Héctor, Cano-Garrido, Olivia, Casanova, Isolda, Mangues, Ramón, Eritja Casadellà, Ramón, Vázquez, Esther, Villaverde, Antonio, Unzueta, Ugutz, Ministerio de Ciencia, Innovación y Universidades (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Voltà-Durán, Eric, Serna, Naroa, Sánchez-García, Laura, Aviñó, Anna, Sánchez, Julieta M., López-Laguna, Héctor, Cano-Garrido, Olivia, Casanova, Isolda, Mangues, Ramón, Eritja Casadellà, Ramón, Vázquez, Esther, Villaverde, Antonio, and Unzueta, Ugutz

Abstract

The possibility to conjugate tumor-targeted cytotoxic nanoparticles and conventional antitumoral drugs in single pharmacological entities would open a wide spectrum of opportunities in nanomedical oncology. This principle has been explored here by using CXCR4-targeted self-assembling protein nanoparticles based on two potent microbial toxins, the exotoxin A from Pseudomonas aeruginosa and the diphtheria toxin from Corynebacterium diphtheriae, to which oligo-floxuridine and monomethyl auristatin E respectively have been chemically coupled. The resulting multifunctional hybrid nanoconjugates, with a hydrodynamic size of around 50 nm, are stable and internalize target cells with a biological impact. Although the chemical conjugation minimizes the cytotoxic activity of the protein partner in the complexes, the concept of drug combination proposed here is fully feasible and highly promising when considering multiple drug treatments aimed to higher effectiveness or when facing the therapy of cancers with acquired resistance to classical drugs.

Published
2021

36. In Vitro Fabrication of Microscale Secretory Granules

Author

López‐Laguna, Hèctor, primary, Parladé, Eloi, additional, Álamo, Patricia, additional, Sánchez, Julieta M., additional, Voltà‐Durán, Eric, additional, Serna, Naroa, additional, Sánchez‐García, Laura, additional, Cano‐Garrido, Olivia, additional, Sánchez‐Chardi, Alejandro, additional, Villaverde, Antonio, additional, Mangues, Ramón, additional, Unzueta, Ugutz, additional, and Vázquez, Esther, additional

Published
2021
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39. Engineering Secretory Amyloids for Remote and Highly Selective Destruction of Metastatic Foci

Author

Céspedes, María Virtudes, Cano-Garrido, Olivia, Álamo, Patricia, Sala, Rita, Gallardo, Alberto, Serna, Naroa, Falgàs, Aïda, Voltà-Durán, Eric, Casanova Rigat, Isolda, Sánchez Chardi, Alejandro, López-Laguna, Hèctor, Sánchez-García, Laura, Sanchez, Julieta M., Unzueta Elorza, Ugutz, Vázquez Gómez, Esther, Mangues, Ramon, Villaverde Corrales, Antonio, and Universitat Autònoma de Barcelona. Departament de Genètica i de Microbiologia

Subjects
Amyloid, Receptors, CXCR4, Materials science, Cell Survival, Molecular Conformation, Exotoxins, Antineoplastic Agents, Apoptosis, 02 engineering and technology, 010402 general chemistry, Protein Engineering, 01 natural sciences, CXCR4, Inclusion bodies, Chemokine receptor, Mice, metastatic cancer, Bacterial Proteins, Cancer stem cell, In vivo, protein materials, Pseudomonas exotoxin, Animals, Humans, General Materials Science, Secretion, Molecular Targeted Therapy, Neoplasm Metastasis, drug release, Inclusion Bodies, Drug Carriers, Mechanical Engineering, secretory amyloids, self-assembly, 021001 nanoscience & nanotechnology, In vitro, Recombinant Proteins, 0104 chemical sciences, Drug Liberation, Mechanics of Materials, Cancer research, Neoplastic Stem Cells, Nanoparticles, 0210 nano-technology, Colorectal Neoplasms, Peptides, HeLa Cells
Abstract

Altres ajuts: to EU COST Action CA 17140 Functional amyloids produced in bacteria as nanoscale inclusion bodies are intriguing but poorly explored protein materials with wide therapeutic potential. Since they release functional polypeptides under physiological conditions, these materials can be potentially tailored as mimetic of secretory granules for slow systemic delivery of smart protein drugs. To explore this possibility, bacterial inclusion bodies formed by a self-assembled, tumor-targeted Pseudomonas exotoxin (PE24) are administered subcutaneously in mouse models of human metastatic colorectal cancer, for sustained secretion of tumor-targeted therapeutic nanoparticles. These proteins are functionalized with a peptidic ligand of CXCR4, a chemokine receptor overexpressed in metastatic cancer stem cells that confers high selective cytotoxicity in vitro and in vivo. In the mouse models of human colorectal cancer, time-deferred anticancer activity is detected after the subcutaneous deposition of 500 µg of PE24-based amyloids, which promotes a dramatic arrest of tumor growth in the absence of side toxicity. In addition, long-term prevention of lymphatic, hematogenous, and peritoneal metastases is achieved. These results reveal the biomedical potential and versatility of bacterial inclusion bodies as novel tunable secretory materials usable in delivery, and they also instruct how therapeutic proteins, even with high functional and structural complexity, can be packaged in this convenient format.

Published
2019

40. Nanostructure Empowers Active Tumor Targeting in Ligand-Based Molecular Delivery

Author

López-Laguna, Hèctor, Sala, Rita, Sanchez, Julieta M., Álamo, Patricia, Unzueta Elorza, Ugutz, Sánchez Chardi, Alejandro, Serna, Naroa, Sánchez García, Laura, Voltà-Durán, Eric, Mangues, Ramon, Villaverde Corrales, Antonio, Vázquez Gómez, Esther, and Universitat Autònoma de Barcelona. Departament de Genètica i de Microbiologia

Subjects
Nanotecnología, active targeting, Tumor targeting, Nanostructure, Chemistry, Nanoparticle, Nanotechnology, protein engineering, INGENIERÍAS Y TECNOLOGÍAS, General Chemistry, Protein engineering, Nano-materiales, Condensed Matter Physics, Ligand (biochemistry), self-assembling, drug delivery systems, Self assembling, cell ligands, General Materials Science, nanoparticles
Abstract

Cell‐selective targeting is expected to enhance effectiveness and minimize side effects of cytotoxic agents. Functionalization of drugs or drug nanoconjugates with specific cell ligands allows receptor‐mediated selective cell delivery. However, it is unclear whether the incorporation of an efficient ligand into a drug vehicle is sufficient to ensure proper biodistribution upon systemic administration, and also at which extent biophysical properties of the vehicle may contribute to the accumulation in target tissues during active targeting. To approach this issue, structural robustness of self‐assembling, protein‐only nanoparticles targeted to the tumoral marker CXCR4 is compromised by reducing the number of histidine residues (from six to five) in a histidine‐based architectonic tag. Thus, the structure of the resulting nanoparticles, but not of building blocks, is weakened. Upon intravenous injection in animal models of human CXCR4+ colorectal cancer, the administered material loses the ability to accumulate in tumor tissue, where it is only transiently found. It instead deposits in kidney and liver. Therefore, precise cell‐targeted delivery requires not only the incorporation of a proper ligand that promotes receptor‐mediated internalization, but also, unexpectedly, its maintenance of a stable multimeric nanostructure that ensures high ligand exposure and long residence time in tumor tissue. Fil: López Laguna, Hèctor. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Universitat Autònoma de Barcelona; España Fil: Sala, Rita. Hospital de la Santa Creu i Sant Pau; España. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España Fil: Sanchez, Julieta Maria. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto de Investigaciones Biológicas y Tecnológicas. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto de Investigaciones Biológicas y Tecnológicas; Argentina. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Universitat Autònoma de Barcelona; España Fil: Álamo, Patricia. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Hospital de la Santa Creu i Sant Pau; España Fil: Unzueta, Ugutz. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Hospital de la Santa Creu i Sant Pau; España Fil: Sánchez Chardi, Alejandro. Universitat Autònoma de Barcelona; España Fil: Serna, Naroa. Universitat Autònoma de Barcelona; España. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España Fil: Sánchez-García, Laura. Universitat Autònoma de Barcelona; España. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España Fil: Voltà Durán, Eric. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Universitat Autònoma de Barcelona; España Fil: Mangues, Ramón. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Hospital de la Santa Creu i Sant Pau; España Fil: Villaverde Corrales, Antonio. Universitat Autònoma de Barcelona; España. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España Fil: Vázquez, Esther. Centro de Investigación Biomédica en Red. Bioingeniería, Biomateriales y Nanomedicina; España. Universitat Autònoma de Barcelona; España

Published
2019

41. Controlling self-assembling and tumor cell-targeting of protein-only nanoparticles through modular protein engineering

Author

Voltà-Durán, Eric, primary, Cano-Garrido, Olivia, additional, Serna, Naroa, additional, López-Laguna, Hèctor, additional, Sánchez-García, Laura, additional, Pesarrodona, Mireia, additional, Sánchez-Chardi, Alejandro, additional, Mangues, Ramón, additional, Villaverde, Antonio, additional, Vázquez, Esther, additional, and Unzueta, Ugutz, additional

Published
2019
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42. Engineering Secretory Amyloids for Remote and Highly Selective Destruction of Metastatic Foci.

Author

Céspedes, María Virtudes, Cano‐Garrido, Olivia, Álamo, Patricia, Sala, Rita, Gallardo, Alberto, Serna, Naroa, Falgàs, Aïda, Voltà‐Durán, Eric, Casanova, Isolda, Sánchez‐Chardi, Alejandro, López‐Laguna, Hèctor, Sánchez‐García, Laura, Sánchez, Julieta M., Unzueta, Ugutz, Vázquez, Esther, Mangues, Ramón, and Villaverde, Antonio

Published
2020
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43. Biparatopic Protein Nanoparticles for the Precision Therapy of CXCR4 + Cancers.

Author

Cano-Garrido, Olivia, Álamo, Patricia, Sánchez-García, Laura, Falgàs, Aïda, Sánchez-Chardi, Alejandro, Serna, Naroa, Parladé, Eloi, Unzueta, Ugutz, Roldán, Mònica, Voltà-Durán, Eric, Casanova, Isolda, Villaverde, Antonio, Mangues, Ramón, and Vázquez, Esther

Subjects
DRUG delivery systems, IN vitro studies, BIOLOGICAL models, IN vivo studies, ANIMAL experimentation, CELL receptors, APOPTOSIS, COLORECTAL cancer, TREATMENT effectiveness, STEM cells, CHEMOKINES, PEPTIDES, NANOPARTICLES, LIGANDS (Biochemistry), MICE
Abstract

Simple Summary: Aimed at minimizing side toxicities cancer therapies require appropriate functional vehicles at the nanoscale, for receptor-mediated tumor-targeted drug delivery. The aim of the present study was to explore the human peptide EPI-X4 as a CXCR4-targeting agent in self-assembled, protein-only nanoparticles. While the systemic tumor biodistribution of EPI-X4-based materials is modest, this peptide shows potent proapoptotic effects on CXCR4+ cancer cells. Interestingly, the in vivo selectivity of EPI-X4 was dramatically improved, once combined into biparatopic nanoparticles, with a second CXCR4 ligand, the peptide T22. Biparatopic nanoparticles promote a highly selective tumor destruction in a mouse model of human colorectal cancer, probably associated to the CXCR4 antagonist role of EPI-X4. This study not only validates a new human ligand of the tumoral marker CXCR4, but it also offers a novel strategy for the combination, in protein nanoparticles, of dual acting ligands of tumoral markers for highly selective drug delivery. The accumulated molecular knowledge about human cancer enables the identification of multiple cell surface markers as highly specific therapeutic targets. A proper tumor targeting could significantly avoid drug exposure of healthy cells, minimizing side effects, but it is also expected to increase the therapeutic index. Specifically, colorectal cancer has a particularly poor prognosis in late stages, being drug targeting an appropriate strategy to substantially improve the therapeutic efficacy. In this study, we have explored the potential of the human albumin-derived peptide, EPI-X4, as a suitable ligand to target colorectal cancer via the cell surface protein CXCR4, a chemokine receptor overexpressed in cancer stem cells. To explore the potential use of this ligand, self-assembling protein nanoparticles have been generated displaying an engineered EPI-X4 version, which conferred a modest CXCR4 targeting and fast and high level of cell apoptosis in tumor CXCR4+ cells, in vitro and in vivo. In addition, when EPI-X4-based building blocks are combined with biologically inert polypeptides containing the CXCR4 ligand T22, the resulting biparatopic nanoparticles show a dramatically improved biodistribution in mouse models of CXCR4+ human cancer, faster cell internalization and enhanced target cell death when compared to the version based on a single ligand. The generation of biparatopic materials opens exciting possibilities in oncotherapies based on high precision drug delivery based on the receptor CXCR4. [ABSTRACT FROM AUTHOR]

Published
2021
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44. Analysis of EPI-X4 binding to CXCR4 : raw data to be linked to a scientific publication

Author

Cano-Garrido, Olivia, primary, Alamo, Patricia, additional, Sánchez, Laura, additional, Falgàs, Aïda, additional, Sánchez Chardi, Alejandro, additional, Serna, Naroa, additional, Parladé Molist, Eloi, additional, Unzueta Elorza, Ugutz, additional, Roldán, Mònica, additional, Voltà-Durán, Eric, additional, Casanova Rigat, Isolda, additional, Villaverde Corrales, Antonio, additional, Mangues, Ramon, additional, and Vázquez Gómez, Esther, additional

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47. Raw data to support the manuscript with the following intended title : The poly-histidine tag H6 mediates structural and functional properties of disintegrating bacterial amyloidt

Author

Sanchez, Julieta M., additional, Carratalá, José Vicente, additional, Serna, Naroa, additional, Unzueta Elorza, Ugutz, additional, Nolan, Verónica, additional, Sánchez Chardi, Alejandro, additional, Voltà-Durán, Eric, additional, López-Laguna, Hèctor, additional, Ferrer Miralles, Neus, additional, Vázquez Gómez, Esther, additional, and Villaverde Corrales, Antonio, additional

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48. Protein conformation and formation of protein-only nanoparticles

Author

Voltà-Durán, Eric, additional, Sanchez, Julieta M., additional, López-Laguna, Hèctor, additional, Parladé Molist, Eloi, additional, Sánchez, Laura, additional, Sánchez Chardi, Alejandro, additional, De Marco, Ario, additional, Unzueta Elorza, Ugutz, additional, Vázquez Gómez, Esther, additional, and Villaverde Corrales, Antonio, additional

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49. Raw data to support the manuscript "Engineering non-antibody human proteins as efficient scaffolds for selective, receptor-targeted drug delivery"

Author

Serna, Naroa, additional, Pallarès, Victor, additional, Unzueta Elorza, Ugutz, additional, Garcia-Leon, Annabel, additional, Voltà-Durán, Eric, additional, Sánchez Chardi, Alejandro, additional, Parladé Molist, Eloi, additional, Rueda, Ariana, additional, Casanova Rigat, Isolda, additional, Falgàs, Aïda, additional, Alba-Castellón, Lorena, additional, Sierra, Jorge, additional, Villaverde Corrales, Antonio, additional, Vázquez Gómez, Esther, additional, and Mangues, Ramon, additional

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50. Raw data from Self-Assembled Nanobodies as Selectively Targeted, Nanostructured and Multivalent Materials

Author

Sánchez-García, Laura, additional, Voltà-Durán, Eric, additional, Parladé Molist, Eloi, additional, Mazzega, Elisa, additional, Sánchez-Chardi, Alejandro, additional, Serna, Naroa, additional, López-Laguna, Hèctor, additional, Mitstorfer, Mara, additional, Unzueta Elorza, Ugutz, additional, Vázquez Gómez, Esther, additional, Villaverde Corrales, Antonio, additional, and de Marco, Ario, additional

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