Search

Your search keyword '"Esteban Chacón-Solano"' showing total 8 results
Start Over Author "Esteban Chacón-Solano"
8 results on '"Esteban Chacón-Solano"'

1. Efficient CRISPR-Cas9-Mediated Gene Ablation in Human Keratinocytes to Recapitulate Genodermatoses: Modeling of Netherton Syndrome

Author

Victoria Gálvez, Esteban Chacón-Solano, Jose Bonafont, Ángeles Mencía, Wei-Li Di, Rodolfo Murillas, Sara Llames, Asunción Vicente, Marcela Del Rio, Marta Carretero, and Fernando Larcher

Subjects
CRISPR/Cas9, human keratinocytes, genodermatosis, gene editing, disease modeling, skin equivalents., Genetics, QH426-470, Cytology, QH573-671
Abstract

Current efforts to find specific genodermatoses treatments and define precise pathogenesis mechanisms require appropriate surrogate models with human cells. Although transgenic and gene knockout mouse models for several of these disorders exist, they often fail to faithfully replicate the clinical and histopathological features of the human skin condition. We have established a highly efficient method for precise deletion of critical gene sequences in primary human keratinocytes, based on CRISPR-Cas9-mediated gene editing. Using this methodology, in the present study we generated a model of Netherton syndrome by disruption of SPINK5. Gene-edited cells showed absence of LEKTI expression and were able to recapitulate a hyperkeratotic phenotype with most of the molecular hallmarks of Netherton syndrome, after grafting to immunodeficient mice and in organotypic cultures. To validate the model as a platform for therapeutic intervention, we tested an ex vivo gene therapy approach using a lentiviral vector expressing SPINK5. Re-expression of SPINK5 in an immortalized clone of SPINK5-knockout keratinocytes was capable of reverting from Netherton syndrome to a normal skin phenotype in vivo and in vitro. Our results demonstrate the feasibility of modeling genodermatoses, such as Netherton syndrome, by efficiently disrupting the causative gene to better understand its pathogenesis and to develop novel therapeutic approaches.

Published
2020
Full Text
View/download PDF

6. FPR2 DNA Aptamers for Targeted Therapy of Wound Repair

Author

María del Carmen de Arriba, Gerónimo Fernández, Esteban Chacón-Solano, Manuel Mataix, Lucía Martínez-Santamaría, Nuria Illera, Rebeca Carrión-Marchante, María Elena Martín, Fernando Larcher, Victor M. González, Marcela Del Río, and Marta Carretero

Subjects
Mice, Wound Healing, Animals, Humans, Cell Biology, Dermatology, Aptamers, Nucleotide, Receptors, Lipoxin, Ligands, Molecular Biology, Biochemistry, Receptors, Formyl Peptide
Abstract

Chronic wounds represent a major health problem worldwide. Some of the available therapies based on recombinant proteins usually fail owing to the hostile environment found at the wound bed. Aptamers appear as an attractive alternative to recombinant factors owing in part to their stability, sensitivity, specificity, and low-cost production. In this study, the Cell-Systematic Evolution of Ligands by EXponential Enrichment technology was employed to generate aptamers that specifically recognize and modulate the function of the FPR2, a receptor expressed in a variety of cells involved in wound repair. Three aptamers were obtained that specifically bound to FPR2 stable transfectants generated in HaCaT cells. The targeted aptamers were shown to act as FPR2 agonists in different in vitro functional assays, including wound healing assays, and elicited a similar pattern of response to that obtained with other known FPR2 peptide agonists, such as the human LL37 cathelicidin. We have also obtained in vivo evidence for the prohealing activities of one of these FPR2 aptamers in a skin-humanized mouse model developed by us, previously shown to accurately recreate the main phases of physiological human wound repair process. In conclusion, we provide evidence of the potential therapeutic value of FPR2 aptamers for cutaneous repair.

Published
2020

7. Contributors

Author

Teresa Alonso-Rasgado, Saeid Amini-Nik, Mohammed Ashrafi, Mohamed Baguneid, Jeremy Baskin, Ardeshir Bayat, Audrey Bélanger, François-Xavier Bernard, Manuel Berning, Katia Boniface, Charbel Bouez, Petra Boukamp, Nicholas Boulais, Jennifer Bourland, Virginie Buhé, Muriel Cario-André, Jean-Luc Carré, Mariana T. Cerqueira, Esteban Chacón-Solano, David Y.S. Chau, Vivien Chen, Lin Chen, Jérémy Chéret, José Cotovio, Stephen C. Davis, Marcela Del Río, Maria L. Dell'Anna, Marianne Deslauriers, Luisa A. DiPietro, Stefan Drakulich, Alexandra Duque-Fernandez, Julie Fradette, Jonathan A. Garlick, Behzad Gerami-Naini, George D. Glinos, Olivier Gouin, Sara Guerrero-Aspizua, Adam Hague, Kyle Hewitt, Victoria Hutter, Marc G. Jeschke, Olga Kashpur, Stewart B. Kirton, Ana Korosec, Dagmar Kulms, Manuela E.L. Lago, Fernando Larcher, Christelle Le Gall-Ianotto, Raphaële Le Garrec, Nicolas Lebonvallet, Raphaël Leschiera, Killian L'Hérondelle, Liang Liang, Beate M. Lichtenberger, Isabelle Lorthois, Maxim Maheux, Alexandra P. Marques, Lucía Martínez-Santamaría, Louis-Charles Masson, Stephanie H. Mathes, Friedegund Meier, Laurent Misery, Alexandre Morin, Nailia Mukhamedshina, Deborah G. Nguyen, Christian N. Parker, Irena Pastar, Elizabeth Pavez Loriè, Christian Pellevoisin, Ulysse Pereira, Rogério P. Pirraco, Roxane Pouliot, Rui L. Reis, Kelsey N. Retting, Geneviève Rioux, Bryan Roy, Mehdi Sakka, Andrew P. Sawaya, Megan Schrementi, Julien Seneschal, Yulia Shamis, Mélissa Simard, Philippe Simard, Avi Smith, Hans-Jürgen Stark, Olivera Stojadinovic, Alain Taieb, Matthieu Talagas, Marjana Tomic-Canic, Tongyu Cao Wikramanayake, and Yusef Yousuf

Published
2018
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results