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34 results on '"Villate-Beitia, Ilia"'

2. Assessment of Different Niosome Formulations for Optogenetic Applications: Morphological and Electrophysiological Effects

Author

Celdrán, José David, primary, Humphreys, Lawrence, additional, González, Desirée, additional, Soto-Sánchez, Cristina, additional, Martínez-Navarrete, Gema, additional, Maldonado, Iván, additional, Gallego, Idoia, additional, Villate-Beitia, Ilia, additional, Sainz-Ramos, Myriam, additional, Puras, Gustavo, additional, Pedraz, José Luis, additional, and Fernández, Eduardo, additional

Published
2023
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3. Carbon-Based Nanostructures as Emerging Materials for Gene Delivery Applications.

Author

Yazdani, Sara, Mozaffarian, Mehrdad, Pazuki, Gholamreza, Hadidi, Naghmeh, Villate-Beitia, Ilia, Zárate, Jon, Puras, Gustavo, and Pedraz, Jose Luis

Subjects
SMALL interfering RNA, NANOSTRUCTURES, MICRORNA, QUANTUM dots, CARBON nanotubes, MESSENGER RNA
Abstract

Gene therapeutics are promising for treating diseases at the genetic level, with some already validated for clinical use. Recently, nanostructures have emerged for the targeted delivery of genetic material. Nanomaterials, exhibiting advantageous properties such as a high surface-to-volume ratio, biocompatibility, facile functionalization, substantial loading capacity, and tunable physicochemical characteristics, are recognized as non-viral vectors in gene therapy applications. Despite progress, current non-viral vectors exhibit notably low gene delivery efficiency. Progress in nanotechnology is essential to overcome extracellular and intracellular barriers in gene delivery. Specific nanostructures such as carbon nanotubes (CNTs), carbon quantum dots (CQDs), nanodiamonds (NDs), and similar carbon-based structures can accommodate diverse genetic materials such as plasmid DNA (pDNA), messenger RNA (mRNA), small interference RNA (siRNA), micro RNA (miRNA), and antisense oligonucleotides (AONs). To address challenges such as high toxicity and low transfection efficiency, advancements in the features of carbon-based nanostructures (CBNs) are imperative. This overview delves into three types of CBNs employed as vectors in drug/gene delivery systems, encompassing their synthesis methods, properties, and biomedical applications. Ultimately, we present insights into the opportunities and challenges within the captivating realm of gene delivery using CBNs. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Long-term biophysical stability of nanodiamonds combined with lipid nanocarriers for non-viral gene delivery to the retina

Author

AL Qtaish, Nuseibah H., primary, Villate-Beitia, Ilia, additional, Gallego, Idoia, additional, Martínez-Navarrete, Gema, additional, Soto-Sánchez, Cristina, additional, Sainz-Ramos, Myriam, additional, Lopez-Mendez, Tania B, additional, Paredes, Alejandro J., additional, Javier Chichón, Francisco, additional, Zamarreño, Noelia, additional, Fernández, Eduardo, additional, Puras, Gustavo, additional, and Luis Pedraz, José, additional

Published
2023
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7. Correction to “Nanodiamonds Integration into Niosomes as an Emerging and Efficient Gene Therapy Nanoplatform for Central Nervous System Diseases”

Author

AL Qtaish, Nuseibah, primary, Gallego, Idoia, additional, Paredes, Alejandro J., additional, Villate-Beitia, Ilia, additional, Soto-Sánchez, Cristina, additional, Martínez-Navarrete, Gema, additional, Sainz-Ramos, Myriam, additional, Lopez-Mendez, Tania B., additional, Chichón, Francisco Javier, additional, Zamarreño, Noelia, additional, Fernández, Eduardo, additional, Puras, Gustavo, additional, and Pedraz, José Luis, additional

Published
2023
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8. Multicomponent Synthesis of Unsaturated γ-Lactam Derivatives. Applications as Antiproliferative Agents through the Bioisosterism Approach: Carbonyl vs. Phosphoryl Group

Author

del Corte, Xabier, primary, López-Francés, Adrián, additional, Villate-Beitia, Ilia, additional, Sainz-Ramos, Myriam, additional, Martínez de Marigorta, Edorta, additional, Palacios, Francisco, additional, Alonso, Concepción, additional, de los Santos, Jesús M., additional, Pedraz, José Luis, additional, and Vicario, Javier, additional

Published
2022
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10. Nanodiamond Integration into Niosomes as an Emerging and Efficient Gene Therapy Nanoplatform for Central Nervous System Diseases

Author

AL Qtaish, Nuseibah, primary, Gallego, Idoia, additional, Paredes, Alejandro J., additional, Villate-Beitia, Ilia, additional, Soto-Sánchez, Cristina, additional, Martínez-Navarrete, Gema, additional, Sainz-Ramos, Myriam, additional, Lopez-Mendez, Tania B., additional, Fernández, Eduardo, additional, Puras, Gustavo, additional, and Pedraz, José Luis, additional

Published
2022
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12. Sphingolipid extracts enhance gene delivery of cationic lipid vesicles into retina and brain

Author

AL Qtaish, Nuseibah, primary, Gallego, Idoia, additional, Villate- Beitia, Ilia, additional, Sainz-Ramos, Myriam, additional, Martínez-Navarrete, Gema, additional, Soto-Sánchez, Cristina, additional, Fernández, Eduardo, additional, Gálvez-Martín, Patricia, additional, Lopez-Mendez, Tania B., additional, Puras, Gustavo, additional, and Luis Pedraz, José, additional

Published
2021
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14. Correlation between Biophysical Properties of Niosomes Elaborated with Chloroquine and Different Tensioactives and Their Transfection Efficiency

Author

Sainz-Ramos, Myriam, primary, Villate-Beitia, Ilia, additional, Gallego, Idoia, additional, AL Qtaish, Nuseibah, additional, Menéndez, Margarita, additional, Lagartera, Laura, additional, Grijalvo, Santiago, additional, Eritja, Ramón, additional, Puras, Gustavo, additional, and Pedraz, José Luis, additional

Published
2021
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17. Applying 3D constructs for gene therapy

Author

Maldonado Pérez, Iván, Sainz Ramos, Myriam, Caci, Emanuela, Gallego, Idoia, Villate Beitia, Ilia, Zarate Sesma, Jon, Pedraz Muñoz, José Luis, Puras Ochoa, Gustavo, Ruiz Alonso, Sandra, García Villén, Fátima, Maldonado Pérez, Iván, Sainz Ramos, Myriam, Caci, Emanuela, Gallego, Idoia, Villate Beitia, Ilia, Zarate Sesma, Jon, Pedraz Muñoz, José Luis, Puras Ochoa, Gustavo, Ruiz Alonso, Sandra, and García Villén, Fátima

Abstract

The main objective of three-dimensional (3D) bioprinting technology is the development of 3D constructs combining biomaterials and cells to replicate tissues and organs. Using this technique, different kinds of epitheliums can be produced in order to imitate the in vivo environment with more precision than cell cultures. Such scaffolds are usually characterized prior to evaluate cellular response upon the addition of different drugs and genetic materials. The aim of this study was to make use of 3D bioprinting technology to develop scaffolds that mimic the in vivo lung environment to evaluate the capacity of niosomes (non-viral vectors) to deliver genetic material for the treatment of cystic fibrosis (CF) genetic disorder.

Published
2021

18. Correlation between Biophysical Properties of Niosomes Elaborated with Chloroquine and Different Tensioactives and Their Transfection Efficiency

Author

Ministerio de Ciencia e Innovación (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Sainz-Ramos, Myriam, Villate-Beitia, Ilia, Gallego, Idoia, AL Qtaish, Nuseibah, Menéndez, Margarita, Lagartera, Laura, Grijalvo, Santiago, Eritja Casadellà, Ramón, Puras, Gustavo, Pedraz, José Luís, Ministerio de Ciencia e Innovación (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Sainz-Ramos, Myriam, Villate-Beitia, Ilia, Gallego, Idoia, AL Qtaish, Nuseibah, Menéndez, Margarita, Lagartera, Laura, Grijalvo, Santiago, Eritja Casadellà, Ramón, Puras, Gustavo, and Pedraz, José Luís

Abstract

Lipid nanocarriers, such as niosomes, are considered attractive candidates for non-viral gene delivery due to their suitable biocompatibility and high versatility. In this work, we studied the influence of incorporating chloroquine in niosomes biophysical performance, as well as the effect of non-ionic surfactant composition and protocol of incorporation in their biophysical performance. An exhaustive comparative evaluation of three niosome formulations differing in these parameters was performed, which included the analysis of their thermal stability, rheological behavior, mean particle size, dispersity, zeta potential, morphology, membrane packing capacity, affinity to bind DNA, ability to release and protect the genetic material, buffering capacity and ability to escape from artificially synthesized lysosomes. Finally, in vitro biological studies were, also, performed in order to determine the compatibility of the formulations with biological systems, their transfection efficiency and transgene expression. Results revealed that the incorporation of chloroquine in niosome formulations improved their biophysical properties and the transfection efficiency, while the substitution of one of the non-ionic surfactants and the phase of addition resulted in less biophysical variations. Of note, the present work provides several biophysical parameters and characterization strategies that could be used as gold standard for gene therapy nanosystems evaluation.

Published
2021

19. Non-viral mediated gene therapy in human cystic fibrosis airway epithelial cells recovers chloride channel functionality

Author

Ministerio de Ciencia e Innovación (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Sainz-Ramos, Myriam, Villate-Beitia, Ilia, Gallego, Idoia, Qtaish, Nuseibah A. L., Lopez-Mendez, Tania B., Eritja Casadellà, Ramón, Grijalvo, Santiago, Puras, Gustavo, Pedraz, José Luís, Ministerio de Ciencia e Innovación (España), Eritja Casadellà, Ramón [0000-0001-5383-9334], Sainz-Ramos, Myriam, Villate-Beitia, Ilia, Gallego, Idoia, Qtaish, Nuseibah A. L., Lopez-Mendez, Tania B., Eritja Casadellà, Ramón, Grijalvo, Santiago, Puras, Gustavo, and Pedraz, José Luís

Abstract

Gene therapy strategies based on non-viral vectors are currently considered as a promising therapeutic option for the treatment of cystic fibrosis (CF), being liposomes the most commonly used gene carriers. Niosomes offer a powerful alternative to liposomes due to their higher stability and lower cytotoxicity, provided by their non-ionic surfactant and helper components. In this work, a three-formulation screening is performed, in terms of physicochemical and biological behavior, in CF patient derived airway epithelial cells. The most efficient niosome formulation reaches 28% of EGFP expressing live cells and follows caveolae-mediated endocytosis. Transfection with therapeutic cystic fibrosis transmembrane conductance regulator (CFTR) gene results in 5-fold increase of CFTR protein expression in transfected versus non-transfected cells, which leads to 1.5-fold increment of the chloride channel functionality. These findings highlight the relevance of niosome-based systems as an encouraging non-viral gene therapy platform with potential therapeutic benefits for CF.

Published
2020

20. Brain Angiogenesis Induced by Nonviral Gene Therapy with Potential Therapeutic Benefits for Central Nervous System Diseases

Author

Eritja Casadellà, Ramón [0000-0001-5383-9334], Gallego, Idoia, Villate-Beitia, Ilia, Soto-Sánchez, Cristina, Menéndez, Margarita, Grijalvo, Santiago, Eritja Casadellà, Ramón, Martínez-Navarrete, Gema, Humphreys, Lawrence, López-Méndez, Tania, Puras, Gustavo, Fernández, Eduardo, Pedraz, José Luís, Eritja Casadellà, Ramón [0000-0001-5383-9334], Gallego, Idoia, Villate-Beitia, Ilia, Soto-Sánchez, Cristina, Menéndez, Margarita, Grijalvo, Santiago, Eritja Casadellà, Ramón, Martínez-Navarrete, Gema, Humphreys, Lawrence, López-Méndez, Tania, Puras, Gustavo, Fernández, Eduardo, and Pedraz, José Luís

Abstract

Gene therapy employing nanocarriers represents a promising strategy to treat central nervous system (CNS) diseases, where brain microvasculature is frequently compromised. Vascular endothelial growth factor (VEGF) is a key angiogenic molecule; however, its in vivo administration to the CNS by nonviral gene therapy has not been conducted. Hence, we prepared and physicochemically characterized four cationic niosome formulations (1–4), which were combined with pVEGF-GFP to explore their capacity to transfer the VEGF gene to CNS cells and achieve angiogenesis in the brain. Experiments in primary neuronal cells showed successful and safe transfection with niosome 4, producing double levels of biologically active VEGF in comparison to the rest of the formulations. Intracortical administration of niosome 4 based nioplexes in mouse brain validated the ability of this nonviral vector to deliver the VEGF gene to CNS cells, inducing brain angiogenesis and emerging as a promising therapeutic approach for the treatment of CNS diseases.

Published
2020

23. Brain Angiogenesis Induced by Nonviral Gene Therapy with Potential Therapeutic Benefits for Central Nervous System Diseases

Author

Gallego, Idoia, primary, Villate-Beitia, Ilia, additional, Soto-Sánchez, Cristina, additional, Menéndez, Margarita, additional, Grijalvo, Santiago, additional, Eritja, Ramón, additional, Martínez-Navarrete, Gema, additional, Humphreys, Lawrence, additional, López-Méndez, Tania, additional, Puras, Gustavo, additional, Fernández, Eduardo, additional, and Pedraz, José Luis, additional

Published
2020
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24. Niosome-Based Approach for In Situ Gene Delivery to Retina and Brain Cortex as Immune-Privileged Tissues

Author

AL Qtaish, Nuseibah, primary, Gallego, Idoia, additional, Villate-Beitia, Ilia, additional, Sainz-Ramos, Myriam, additional, López-Méndez, Tania Belén, additional, Grijalvo, Santiago, additional, Eritja, Ramón, additional, Soto-Sánchez, Cristina, additional, Martínez-Navarrete, Gema, additional, Fernández, Eduardo, additional, Puras, Gustavo, additional, and Pedraz, José Luis, additional

Published
2020
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25. Niosome-Based Approach for In Situ Gene Delivery to Retina and Brain Cortex as Immune-Privileged Tissues

Author

Eritja Casadellà, Ramón [0000-0001-5383-9334], AL Qtaish, Nuseibah, Gallego, Idoia, Villate-Beitia, Ilia, Sainz-Ramos, Myriam, López-Méndez, Tania Belén, Grijalvo, Santiago, Eritja Casadellà, Ramón, Soto-Sánchez, Cristina, Martínez-Navarrete, Gema, Fernández, Eduardo, Puras, Gustavo, Pedraz, José Luís, Eritja Casadellà, Ramón [0000-0001-5383-9334], AL Qtaish, Nuseibah, Gallego, Idoia, Villate-Beitia, Ilia, Sainz-Ramos, Myriam, López-Méndez, Tania Belén, Grijalvo, Santiago, Eritja Casadellà, Ramón, Soto-Sánchez, Cristina, Martínez-Navarrete, Gema, Fernández, Eduardo, Puras, Gustavo, and Pedraz, José Luís

Abstract

Non-viral vectors have emerged as a promising alternative to viral gene delivery systems due to their safer profile. Among non-viral vectors, recently, niosomes have shown favorable properties for gene delivery, including low toxicity, high stability, and easy production. The three main components of niosome formulations include a cationic lipid that is responsible for the electrostatic interactions with the negatively charged genetic material, a non-ionic surfactant that enhances the long-term stability of the niosome, and a helper component that can be added to improve its physicochemical properties and biological performance. This review is aimed at providing recent information about niosome-based non-viral vectors for gene delivery purposes. Specially, we will discuss the composition, preparation methods, physicochemical properties, and biological evaluation of niosomes and corresponding nioplexes that result from the addition of the genetic material onto their cationic surface. Next, we will focus on the in situ application of such niosomes to deliver the genetic material into immune-privileged tissues such as the brain cortex and the retina. Finally, as future perspectives, non-invasive administration routes and different targeting strategies will be discussed.

Published
2019

26. Gene Therapy for Cystic Fibrosis: Hurdles to Overcome for Successful Clinical Translation

Author

Sainz-Ramos, Myriam, Qtaish, Nuseibah AL, Gallego, Idoia, Villate-Beitia, Ilia, López, Tania, Puras, Gustavo, Pedraz, José Luis, Sainz-Ramos, Myriam, Qtaish, Nuseibah AL, Gallego, Idoia, Villate-Beitia, Ilia, López, Tania, Puras, Gustavo, and Pedraz, José Luis

Abstract

Cystic fibrosis (CF) is a genetic disease that hampers the lung function. Despite that the main defective gene has been deeply characterized, some relevant concerns still need to be resolved before considering gene therapy as a realistic medical choice. One of the major issues that need to be strongly considered in order to succeed in the search for an effective gene therapy approach for CF is the design of the appropriate genetic material to be delivered. Other relevant factors to take into consideration include the design of safe and effective gene delivery systems, the biological barriers that need to be overcome in order to reach the nucleus of the target cells, and the problems related to the design of a drug formulation suitable for lung delivery purposes. Furthermore, some problems related to the commercialization of gene therapy products also need to be resolved. In this chapter, we discuss the up-to-date strategies to overcome such hurdles in order for gene therapy to become a routine treatment modality for CF.

Published
2018
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27. Polysorbate 20 non-ionic surfactant enhances retinal gene delivery efficiency of cationic niosomes after intravitreal and subretinal administration

Author

Villate-Beitia, Ilia, primary, Gallego, Idoia, additional, Martínez-Navarrete, Gema, additional, Zárate, Jon, additional, López-Méndez, Tania, additional, Soto-Sánchez, Cristina, additional, Santos-Vizcaíno, Edorta, additional, Puras, Gustavo, additional, Fernández, Eduardo, additional, and Pedraz, José Luis, additional

Published
2018
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31. First Insights into Non-invasive Administration Routes for Non-viral Gene Therapy

Author

Villate-Beitia, Ilia

Subjects
Medical / Genetics
Abstract

Gene delivery has attracted increasing interest as a highly promising therapeutic method to treat various diseases, including both genetic and acquired disorders. However, its clinical application is still hampered by the lack of safe and effective gene delivery techniques, as well as by the need of non-invasive routes of administration in gene delivery platforms. Among the different approaches used to transport nucleic acids into target cells, non-viral vectors represent promising and safer alternatives to viruses. Non-invasive administration routes are currently being studied, such as intranasal administration to target the brain, topical retinal administration for ocular diseases and aerosolized formulations for inhalation for the treatment of pulmonary diseases. Reasonable evidence suggests that future gene delivery systems might be based on effective non-viral vectors administered through non-invasive routes, which would constitute a safe, easy to produce, cheap and customizable alternative to the current viral gene delivery platforms. In this review, after briefly introducing the basis of gene therapy, we discuss the up-to-date and possible future strategies to improve DNA transfection efficiency using non-viral vectors and focusing on the non-invasive routes of administration.

Published
2015

33. Gene Therapy for Cystic Fibrosis : Hurdles to Overcome for Successful Clinical Translation

Author

Puras, Gustavo, López, Tania, Villate-Beitia, Ilia, Gallego, Idoia, Sainz, Miriam, Hasan, Nusaiba, and Pedraz, Jose Luis

Subjects
Science / Life Sciences / Biochemistry
Abstract

Cystic fibrosis (CF) is a genetic disease that hampers the lung function. Despite that the main defective gene has been deeply characterized, some relevant concerns still need to be resolved before considering gene therapy as a realistic medical choice. One of the major issues that need to be strongly considered in order to succeed in the search for an effective gene therapy approach for CF is the design of the appropriate genetic material to be delivered. Other relevant factors to take into consideration include the design of safe and effective gene delivery systems, the biological barriers that need to be overcome in order to reach the nucleus of the target cells, and the problems related to the design of a drug formulation suitable for lung delivery purposes. Furthermore, some problems related to the commercialization of gene therapy products also need to be resolved. In this chapter, we discuss the up-to-date strategies to overcome such hurdles in order for gene therapy to become a routine treatment modality for CF.

Published
2018

34. Elaboration and Physicochemical Characterization of Niosome-Based Nioplexes for Gene Delivery Purposes.

Author

Ojeda E, Agirre M, Villate-Beitia I, Mashal M, Puras G, Zarate J, and Pedraz JL

Subjects
DNA chemistry, DNA genetics, Gene Transfer Techniques, Liposomes chemistry, Particle Size, Surface-Active Agents chemistry, Transfection, Cations chemistry, Chemistry, Pharmaceutical methods, Liposomes chemical synthesis
Abstract

Niosome formulations for gene delivery purposes are based on nonionic surfactants, helper lipids, and cationic lipids that interact electrostatically with negatively charged DNA molecules to form the so-called nioplexes. Niosomes are elaborated by different techniques, such as solvent emulsion-evaporation, thin film hydration, hand-shaking, dissolvent injection, and microfluidization method, among many others. In this chapter, we have described some protocols for the elaboration of niosomes and nioplexes and their physicochemical characterization that guarantees the quality criteria of the formulation in terms of size, morphology, ζ-potential, and stability.

Published
2016
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