Your search keyword '"Violeta Railean"' showing total 5 results

1. Personalized medicine: Function of CFTR variant p.Arg334Trp is rescued by currently available CFTR modulators

Author

Violeta Railean, Cláudia S. Rodrigues, Sofia S. Ramalho, Iris A. L. Silva, Jan Bartosch, Carlos M. Farinha, Ines Pankonien, and Margarida D. Amaral

Subjects

Biochemistry, Genetics and Molecular Biology (miscellaneous), Molecular Biology, Biochemistry

Abstract

Most of the 2,100 CFTR gene variants reported to date are still unknown in terms of their disease liability in Cystic Fibrosis (CF) and their molecular and cellular mechanism that leads to CFTR dysfunction. Since some rare variants may respond to currently approved modulators, characterizing their defect and response to these drugs is essential for effective treatment of people with CF (pwCF) not eligible for the current treatment. Here, we assessed how the rare variant, p.Arg334Trp, impacts on CFTR traffic and function and its response to existing CFTR modulators. To this end, we performed the forskolin-induced swelling (FIS) assay on intestinal organoids from 10 pwCF bearing the p.Arg334Trp variant in one or both alleles of the CFTR gene. In parallel, a novel p.Arg334Trp-CFTR expressing CFBE cell line was generated to characterize the variant individually. Results show that p.Arg334Trp-CFTR does not significantly affect the plasma membrane traffic of CFTR and evidences residual CFTR function. This CFTR variant is rescued by currently available CFTR modulators independently of the variant in the second allele. The study, predicting clinical benefit for CFTR modulators in pwCF with at least one p.Arg334Trp variant, demonstrates the high potential of personalized medicine through theranostics to extend the label of approved drugs for pwCF carrying rare CFTR variants. We recommend that this personalized approach should be considered for drug reimbursement policies by health insurance systems/national health services.

Published

2023

2. The <scp>SLC26A9</scp> inhibitor <scp>S9‐A13</scp> provides no evidence for a role of <scp>SLC26A9</scp> in airway chloride secretion but suggests a contribution to regulation of <scp>ASL pH</scp> and gastric proton secretion

Author

Sungwoo Jo, Raquel Centeio, Jinhong Park, Jiraporn Ousingsawat, Dong‐kyu Jeon, Khaoula Talbi, Rainer Schreiber, Kunhi Ryu, Kristin Kahlenberg, Veronika Somoza, Livia Delpiano, Michael A. Gray, Margarida D. Amaral, Violeta Railean, Jeffrey M. Beekman, Lisa W. Rodenburg, Wan Namkung, and Karl Kunzelmann

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

3. Drug repurposing for Cystic Fibrosis: identification of drugs that induce CFTR-independent fluid secretion in nasal organoids

Author

Lisa W. Rodenburg, Livia Delpiano, Violeta Railean, Raquel Centeio, Madalena C. Pinto, Shannon M. A. Smits, Isabelle S. van der Windt, Casper F. J. van Hugten, Sam F. B. van Beuningen, Remco N. P. Rodenburg, Cornelis K. van der Ent, Margarida D. Amaral, Karl Kunzelmann, Michael A. Gray, Jeffrey M. Beekman, and Gimano D. Amatngalim

Subjects

Cystic Fibrosis, Organic Chemistry, Drug Repositioning, Cystic Fibrosis Transmembrane Conductance Regulator, Epithelial Cells, General Medicine, Adrenergic Agonists, cystic fibrosis, nasal organoids, TMEM16A, screening assay, drug repurposing, Catalysis, Computer Science Applications, Organoids, Inorganic Chemistry, Chlorides, Humans, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Individuals with Cystic Fibrosis (CF) suffer from severe respiratory disease due to a genetic defect in the Cystic Fibrosis Transmembrane conductance Regulator (CFTR) gene, which impairs airway epithelial ion and fluid secretion. New CFTR modulators that restore mutant CFTR function have been recently approved for a large group of people with CF (pwCF), but ∼19% of pwCF cannot benefit from CFTR modulators [1]. Restoration of epithelial fluid secretion through non-CFTR pathways might be an effective treatment for all pwCF. Here we developed a medium-throughput 384-wells screening assay using nasal CF airway epithelial organoids, with the aim to repurpose FDA-approved drugs as modulators of non-CFTR dependent epithelial fluid secretion. From a ∼1400 FDA-approved drug library, we identified and validated 12 FDA-approved drugs that induced CFTR-independent fluid secretion. Among the hits were several cAMP-mediating drugs, including β2-adrenergic agonists. The hits displayed no effects on chloride conductance measured in Ussing chamber, and fluid secretion was not affected by TMEM16A as demonstrated by knockout (KO) experiments in primary nasal epithelial cells. Altogether, our results demonstrate the use of primary nasal airway cells for mediumscale drug screening, target validation with a highly efficient protocol for generating CRISPR-Cas9 KO cells and identification of compounds which induce fluid secretion in a CFTR- and TMEM16A-indepent manner.

Published

2022

4. Synergy in Cystic Fibrosis Therapies: Targeting SLC26A9

Author

Madalena C. Pinto, Margarida C. Quaresma, Margarida D. Amaral, Iris A.L. Silva, Sofia Ramalho, and Violeta Railean

Subjects

SLC26A9, anion channels, CFTR, Cl− secretion, Cystic Fibrosis, Indoles, Pyridines, Mutant, Aminopyridines, Cystic Fibrosis Transmembrane Conductance Regulator, Aminophenols, Cystic fibrosis, Antiporters, Pathogenesis, Molecular Targeted Therapy, Biology (General), Spectroscopy, General Medicine, respiratory system, Computer Science Applications, Drug Combinations, Chemistry, Sulfate Transporters, Gene Knockdown Techniques, Quinolines, congenital, hereditary, and neonatal diseases and abnormalities, QH301-705.5, Bronchi, Article, Catalysis, Cell Line, Inorganic Chemistry, Organ Culture Techniques, medicine, Humans, Secretion, Benzodioxoles, Physical and Theoretical Chemistry, Molecular Biology, Gene, QD1-999, Bronchiectasis, business.industry, Cell Membrane, Organic Chemistry, Transporter, medicine.disease, Mucus, respiratory tract diseases, HEK293 Cells, Gene Expression Regulation, Mutation, Zonula Occludens-1 Protein, Cancer research, Pyrazoles, business

Abstract

SLC26A9, a constitutively active Cl− transporter, has gained interest over the past years as a relevant disease modifier in several respiratory disorders including Cystic Fibrosis (CF), asthma, and non-CF bronchiectasis. SLC26A9 contributes to epithelial Cl− secretion, thus preventing mucus obstruction under inflammatory conditions. Additionally, SLC26A9 was identified as a CF gene modifier, and its polymorphisms were shown to correlate with the response to drugs modulating CFTR, the defective protein in CF. Here, we aimed to investigate the relationship between SLC26A9 and CFTR, and its role in CF pathogenesis. Our data show that SLC26A9 expression contributes to enhanced CFTR expression and function. While knocking-down SLC26A9 in human bronchial cells leads to lower wt- and F508del-CFTR expression, function, and response to CFTR correctors, the opposite occurs upon its overexpression, highlighting SLC26A9 relevance for CF. Accordingly, F508del-CFTR rescue by the most efficient correctors available is further enhanced by increasing SLC26A9 expression. Interestingly, SLC26A9 overexpression does not increase the PM expression of non-F508del CFTR traffic mutants, namely those unresponsive to corrector drugs. Altogether, our data indicate that SLC26A9 stabilizes CFTR at the ER level and that the efficacy of CFTR modulator drugs may be further enhanced by increasing its expression.

Published

2021

5. Organoids as a personalized medicine tool for ultra-rare mutations in cystic fibrosis: The case of S955P and 1717-2A>G

Author

Sofia Ramalho, Karl Kunzelmann, Hugo M. Botelho, Tzyh Chang Hwang, Jiunn Tyng Yeh, Iveta Valášková, Tereza Doušová, Luka A. Clarke, A. Holubová, Carlos M. Farinha, Iris A.L. Silva, Margarida D. Amaral, R. Centeio, and Violeta Railean

Subjects

0301 basic medicine, Indoles, Cystic Fibrosis, Genotype, Blotting, Western, Aminopyridines, Cystic Fibrosis Transmembrane Conductance Regulator, Fluorescent Antibody Technique, Disease, Quinolones, Aminophenols, Cystic fibrosis, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Organoid, Humans, Benzodioxoles, Allele, Precision Medicine, Molecular Biology, Alleles, business.industry, Alternative splicing, medicine.disease, Precision medicine, 3. Good health, Electrophysiology, 030104 developmental biology, RNA splicing, Mutation, Cancer research, Molecular Medicine, Personalized medicine, business, 030217 neurology & neurosurgery

Abstract

BACKGROUND: For most of the >2,000 CFTR gene variants reported, neither the associated disease liability nor the underlying basic defect are known, and yet these are essential for disease prognosis and CFTR-based therapeutics. Here we aimed to characterize two ultra-rare mutations - 1717–2A>G (c.1585–2A>G) and S955P (p.Ser955Pro) - as case studies for personalized medicine. METHODS: Patient-derived rectal biopsies and intestinal organoids from two individuals with each of these mutations and F508del (p.Phe508del) in the other allele were used to assess CFTR function, response to modulators and RNA splicing pattern. In parallel, we used cellular models to further characterize S955P independently of F508del and to assess its response to CFTR modulators. RESULTS: Results in both rectal biopsies and intestinal organoids from both patients evidence residual CFTR function. Further characterization shows that 1717–2A>G leads to alternative splicing generating

Published

2020