Your search keyword '"Jordina Loubat-Casanovas"' showing total 9 results

1. Preclinical evaluation of a COVID-19 vaccine candidate based on a recombinant RBD fusion heterodimer of SARS-CoV-2

Author

Antonio Barreiro, Antoni Prenafeta, Gregori Bech-Sabat, Mercè Roca, Eva Perozo Mur, Ricard March, Luis González-González, Laia Madrenas, Júlia Corominas, Alex Fernández, Alexandra Moros, Manuel Cañete, Mercè Molas, Thais Pentinat-Pelegrin, Clara Panosa, Alberto Moreno, Ester Puigvert Molas, Eva Pol Vilarrassa, Jordi Palmada, Carme Garriga, Teresa Prat Cabañas, Javier Iglesias-Fernández, Júlia Vergara-Alert, Cristina Lorca-Oró, Núria Roca, Leira Fernández-Bastit, Jordi Rodon, Mònica Pérez, Joaquim Segalés, Edwards Pradenas, Silvia Marfil, Benjamin Trinité, Raquel Ortiz, Bonaventura Clotet, Julià Blanco, Jorge Díaz Pedroza, Rosa Ampudia Carrasco, Yaiza Rosales Salgado, Jordina Loubat-Casanovas, Sara Capdevila Larripa, Julia Garcia Prado, Jordi Barretina, Marta Sisteré-Oró, Paula Cebollada Rica, Andreas Meyerhans, and Laura Ferrer

Subjects

Health sciences, Immune response, Immunology, Microbiology, Science

Abstract

Summary: Current COVID-19 vaccines have been associated with a decline in infection rates, prevention of severe disease, and a decrease in mortality rates. However, SARS-CoV-2 variants are continuously evolving, and development of new accessible COVID-19 vaccines is essential to mitigate the pandemic. Here, we present data on preclinical studies in mice of a receptor-binding domain (RBD)-based recombinant protein vaccine (PHH-1V) consisting of an RBD fusion heterodimer comprising the B.1.351 and B.1.1.7 SARS-CoV-2 variants formulated in SQBA adjuvant, an oil-in-water emulsion. A prime-boost immunisation with PHH-1V in BALB/c and K18-hACE2 mice induced a CD4+ and CD8+ T cell response and RBD-binding antibodies with neutralizing activity against several variants, and also showed a good tolerability profile. Significantly, RBD fusion heterodimer vaccination conferred 100% efficacy, preventing mortality in SARS-CoV-2 infected K18-hACE2 mice, but also reducing Beta, Delta and Omicron infection in lower respiratory airways. These findings demonstrate the feasibility of this recombinant vaccine strategy.

Published

2023

2. Supplemetary Video S4 from Snail1-Expressing Fibroblasts in the Tumor Microenvironment Display Mechanical Properties That Support Metastasis

Author

Josep Baulida, Antonio García de Herreros, Federico Rojo, Daniel Navajas, Cristina Peña, Ana Rovira, Félix Bonilla, Joan Albanell, Ana Lluch, Raúl Peña, Tomás Luque, Mercedes Herrera, Jordina Loubat-Casanovas, and Jelena Stanisavljevic

Abstract

Video S4. MDA-MB231 cells on 3D-ECM generated by TGFβ-treated KO MEFs.

Published

2023

3. Supplemental Methods from Snail1-Expressing Fibroblasts in the Tumor Microenvironment Display Mechanical Properties That Support Metastasis

Author

Josep Baulida, Antonio García de Herreros, Federico Rojo, Daniel Navajas, Cristina Peña, Ana Rovira, Félix Bonilla, Joan Albanell, Ana Lluch, Raúl Peña, Tomás Luque, Mercedes Herrera, Jordina Loubat-Casanovas, and Jelena Stanisavljevic

Abstract

Supplemental Methods

Published

2023

4. Supplementary Figures S1-S5 and Tables S1-S3 from Snail1-Expressing Fibroblasts in the Tumor Microenvironment Display Mechanical Properties That Support Metastasis

Author

Josep Baulida, Antonio García de Herreros, Federico Rojo, Daniel Navajas, Cristina Peña, Ana Rovira, Félix Bonilla, Joan Albanell, Ana Lluch, Raúl Peña, Tomás Luque, Mercedes Herrera, Jordina Loubat-Casanovas, and Jelena Stanisavljevic

Abstract

Supplementary Figure S1. TGF beta remodels the ECM generated by mesenchymal stem and 1BR3G cells in a Snail1-dependent manner. Supplementary Figure S2. Cell Commitment is Modulated by Fibroblast-derived Matrices in a Snail1-dependent Manner. Supplementary Figure S3. TGF beta controls focal contacts in a Snail1-dependent manner. Supplementary Figure S4. TGF beta regulates N-cadherin intercellular contacts in a Snail1-dependent manner. Supplementary Figure S5. Alignment of MEFs bo-cultured with CAFs. Supplementary Table S1. Baseline Characteristics According to Snail1 Expression in the Stroma Supplementary Table S2. Overall Survival Analysis in Patients with Snail1 Expression in Stroma Supplementary Table S3. Antibodies Used for Protein Analysis

Published

2023

5. Snail1 is required for the maintenance of the pancreatic acinar phenotype

Author

Santi Rosell, Clara Francí, Pilar Navarro, Antonio García de Herreros, Jordina Loubat-Casanovas, Núria Gonzàlez, Lorena Alba-Castellón, and Raúl Peña

Subjects

Male, 0301 basic medicine, Fluorescent Antibody Technique, Adipose tissue, Acinar Cells, Immunoenzyme Techniques, Mice, acinar-ductal metaplasia, Metaplasia, Pancreas physiology, Tumor Cells, Cultured, Mice, Knockout, pancreas physiology, Reverse Transcriptase Polymerase Chain Reaction, Acinar-ductal metaplasia, Phenotype, Cell biology, medicine.anatomical_structure, Oncology, Female, medicine.symptom, Pancreas, Research Paper, Carcinoma, Pancreatic Ductal, Genetically modified mouse, medicine.medical_specialty, Snail1, Blotting, Western, Mice, Transgenic, Biology, Real-Time Polymerase Chain Reaction, fibroblast activation, Fibroblast activation, Pàncrees, 03 medical and health sciences, Internal medicine, medicine, Animals, RNA, Messenger, Pancreatic mesenchymal cells, pancreatic mesenchymal cells, Embryogenesis, Mesenchymal stem cell, Epithelium, Pancreatic Neoplasms, 030104 developmental biology, Endocrinology, Snail Family Transcription Factors, Transcription Factors

Abstract

The Snail1 transcriptional factor is required for correct embryonic development, yet its expression in adult animals is very limited and its functional roles are not evident. We have now conditionally inactivated Snail1 in adult mice and analyzed the phenotype of these animals. Snail1 ablation rapidly altered pancreas structure: one month after Snail1 depletion, acinar cells were markedly depleted, and pancreas accumulated adipose tissue. Snail1 expression was not detected in the epithelium but was in pancreatic mesenchymal cells (PMCs). Snail1 ablation in cultured PMCs downregulated the expression of several β-catenin/Tcf-4 target genes, modified the secretome of these cells and decreased their ability to maintain acinar markers in cultured pancreas cells. Finally, Snail1 deficiency modified the phenotype of pancreatic tumors generated in transgenic mice expressing c-myc under the control of the elastase promoter. Specifically, Snail1 depletion did not significantly alter the size of the tumors but accelerated acinar-ductal metaplasia. These results demonstrate that Snail1 is expressed in PMCs and plays a pivotal role in maintaining acinar cells within the pancreas in normal and pathological conditions.

Published

2015

6. Snail1-Expressing Fibroblasts in the Tumor Microenvironment Display Mechanical Properties That Support Metastasis

Author

Ana Rovira, Mercedes Herrera, Félix Bonilla, Federico Rojo, Antonio García de Herreros, Jordina Loubat-Casanovas, Tomas Luque, Jelena Stanisavljevic, Joan Albanell, Ana Lluch, Cristina Peña, Raúl Peña, Daniel Navajas, and Josep Baulida

Subjects

rho GTP-Binding Proteins, Cancer Research, Pathology, medicine.medical_specialty, RHOA, Stromal cell, Extracellular matrix, Mice, Tumor Microenvironment, medicine, Animals, Humans, Neoplasm Metastasis, Mice, Knockout, Tumor microenvironment, biology, Chemistry, Granulation tissue, Fibrillogenesis, Fibroblasts, Cell biology, Fibronectin, medicine.anatomical_structure, Oncology, Colonic Neoplasms, biology.protein, Snail Family Transcription Factors, rhoA GTP-Binding Protein, Wound healing, Transcription Factors

Abstract

Crosstalk between tumor and stromal cells in the tumor microenvironment alter its properties in ways that facilitate the invasive behavior of tumor cells. Here, we demonstrate that cancer-associated fibroblasts (CAF) increase the stiffness of the extracellular matrix (ECM) and promote anisotropic fiber orientation, two mechanical signals generated through a Snail1/RhoA/αSMA–dependent mechanism that sustains oriented tumor cell migration and invasiveness. Snail1-depleted CAF failed to acquire myofibroblastic traits in response to TGFβ, including RhoA activation, αSMA-positive stress fibers, increased fibronectin fibrillogenesis, and production of a stiff ECM with oriented fibers. Snail1 expression in human tumor–derived CAF was associated with an ability to organize the ECM. In coculture, a relatively smaller number of Snail1-expressing CAF were capable of imposing an anisotropic ECM architecture, compared with nonactivated fibroblasts. Pathologically, human breast cancers with Snail1+ CAF tended to exhibit desmoplastic areas with anisotropic fibers, lymph node involvement, and poorer outcomes. Snail1 involvement in driving an ordered ECM was further confirmed in wound-healing experiments in mice, with Snail1 depletion preventing the anisotropic organization of granulation tissue and delaying wound healing. Overall, our results showed that inhibiting Snail1 function in CAF could prevent tumor-driven ECM reorganization and cancer invasion. Cancer Res; 75(2); 284–95. ©2014 AACR.

Published

2015

7. Protumorigenic effects of Snail-expression fibroblasts on colon cancer cells

Author

J. Ignacio Casal, José Miguel García, Ma Jesús Larriba, Lorena Alba-Castellón, Vanesa García, Antonio García de Herreros, Beatriz Gil, Ma Jesús Citores, R. Rodríguez, Mercedes Herrera, Ana Álvarez-Cienfuegos, Cristina Peña, Félix Bonilla, Javier Silva, Alberto Herrera, and Jordina Loubat-Casanovas

Subjects

Cancer Research, Colorectal cancer, Cancer, Cell migration, Biology, medicine.disease, Epithelial cell migration, Cell biology, Paracrine signalling, medicine.anatomical_structure, Oncology, Fibroblast activation protein, alpha, medicine, Cancer-Associated Fibroblasts, Fibroblast

Abstract

Snail1 is a transcriptional factor that plays an important role in epithelial-mesenchymal transition and in the acquisition of invasive properties by epithelial cells. In colon tumors, Snail1 expression in the stroma correlates with lower specific survival of cancer patients. However, the role(s) of Snail1 expression in stroma and its association with patients' survival have not been determined. We used human primary carcinoma-associated fibroblasts (CAFs) or normal fibroblasts (NFs) and fibroblast cell lines to analyze the effects of Snail1 expression on the protumorigenic capabilities in colon cancer cells. Snail1 expression was higher in CAFs than in NFs and, as well as α-SMA, a classic marker of activated CAFs. Moreover, in tumor samples from 50 colon cancer patients, SNAI1 expression was associated with expression of other CAF markers, such as α-SMA and fibroblast activation protein. Interestingly, coculture of CAFs with colon cells induced a significant increase in epithelial cell migration and proliferation, which was associated with endogenous SNAI1 expression levels. Ectopic manipulation of Snail1 in fibroblasts demonstrated that Snail1 expression controlled migration as well as proliferation of cocultured colon cancer cells in a paracrine manner. Furthermore, expression of Snail1 in fibroblasts was required for the coadjuvant effect of these cells on colon cancer cell growth and invasion when coxenografted in nude mice. Finally, cytokine profile changes, particularly MCP-3 expression, in fibroblasts are put forward as mediators of Snail1-derived effects on colon tumor cell migration. In summary, these studies demonstrate that Snail1 is necessary for the protumorigenic effects of fibroblasts on colon cancer cells.

Published

2013

8. Protumorigenic effects of Snail-expression fibroblasts on colon cancer cells

Author

Alberto, Herrera, Mercedes, Herrera, Lorena, Alba-Castellón, Javier, Silva, Vanesa, García, Jordina, Loubat-Casanovas, Ana, Alvarez-Cienfuegos, José, Miguel García, Rufo, Rodriguez, Beatriz, Gil, Ma Jesús Citores, Ma Jesús Larriba, J, Ignacio Casal, Antonio García, de Herreros, Félix, Bonilla, and Cristina, Peña

Subjects

Carcinogenesis, Cell Cycle, Serine Endopeptidases, Gene Expression, Membrane Proteins, Mice, Nude, Fibroblasts, Actins, Coculture Techniques, Mice, Cell Movement, Gelatinases, Colonic Neoplasms, Endopeptidases, Tumor Cells, Cultured, Animals, Cytokines, Humans, Female, RNA, Messenger, Snail Family Transcription Factors, Neoplasm Transplantation, Cell Proliferation, Transcription Factors

Abstract

Snail1 is a transcriptional factor that plays an important role in epithelial-mesenchymal transition and in the acquisition of invasive properties by epithelial cells. In colon tumors, Snail1 expression in the stroma correlates with lower specific survival of cancer patients. However, the role(s) of Snail1 expression in stroma and its association with patients' survival have not been determined. We used human primary carcinoma-associated fibroblasts (CAFs) or normal fibroblasts (NFs) and fibroblast cell lines to analyze the effects of Snail1 expression on the protumorigenic capabilities in colon cancer cells. Snail1 expression was higher in CAFs than in NFs and, as well as α-SMA, a classic marker of activated CAFs. Moreover, in tumor samples from 50 colon cancer patients, SNAI1 expression was associated with expression of other CAF markers, such as α-SMA and fibroblast activation protein. Interestingly, coculture of CAFs with colon cells induced a significant increase in epithelial cell migration and proliferation, which was associated with endogenous SNAI1 expression levels. Ectopic manipulation of Snail1 in fibroblasts demonstrated that Snail1 expression controlled migration as well as proliferation of cocultured colon cancer cells in a paracrine manner. Furthermore, expression of Snail1 in fibroblasts was required for the coadjuvant effect of these cells on colon cancer cell growth and invasion when coxenografted in nude mice. Finally, cytokine profile changes, particularly MCP-3 expression, in fibroblasts are put forward as mediators of Snail1-derived effects on colon tumor cell migration. In summary, these studies demonstrate that Snail1 is necessary for the protumorigenic effects of fibroblasts on colon cancer cells.

Published

2013

9. Regulation of heterochromatin transcription by Snail1/LOXL2 during epithelial-to-mesenchymal transition

Author

Ane Iturbide, Jesús Gil, Thomas Jenuwein, Valentina Perrera, Antonio García de Herreros, Jordina Loubat-Casanovas, Alba Millanes-Romero, Sandra Peiró, and Nicolás Herranz

Subjects

Mesoderm, Epithelial-Mesenchymal Transition, Transcription, Genetic, Heterochromatin, Chromosomal Proteins, Non-Histone, Down-Regulation, Biology, Cell Line, Histones, Mice, Downregulation and upregulation, Transcription (biology), medicine, Animals, Humans, Epithelial–mesenchymal transition, Molecular Biology, Transcription factor, Genetics, Heterocromatina, HEK 293 cells, Cell Biology, Cell biology, medicine.anatomical_structure, Histone, HEK293 Cells, Chromobox Protein Homolog 5, Factors de transcripció, biology.protein, Amino Acid Oxidoreductases, Snail Family Transcription Factors, Proteïnes, Transcription Factors

Abstract

Although heterochromatin is enriched with repressive traits, it is also actively transcribed, giving rise to large amounts of noncoding RNAs. Although these RNAs are responsible for the formation and maintenance of heterochromatin, little is known about how their transcription is regulated. Here, we show that the Snail1 transcription factor represses mouse pericentromeric transcription, acting through the H3K4 deaminase LOXL2. Since Snail1 plays a key role in the epithelial-to-mesenchymal transition (EMT), we analyzed the regulation of heterochromatin transcription in this process. At the onset of EMT, one of the major structural heterochromatin proteins, HP1α, is transiently released from heterochromatin foci in a Snail1/LOXL2-dependent manner, concomitantly with a downregulation of major satellite transcription. Moreover, preventing the downregulation of major satellite transcripts compromised the migratory and invasive behavior of mesenchymal cells. We propose that Snail1 regulates heterochromatin transcription through LOXL2, thus creating the favorable transcriptional state necessary for completing EMT.

Published

2013