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Validation of nasospheroids to assay CFTR functionality and modulator responses in cystic fibrosis.

Scientific reports (2021-08-01)
Maite Calucho, Silvia Gartner, Paula Barranco, Paula Fernández-Álvarez, Raquel García Pérez, Eduardo F Tizzano
RESUMEN

The availability of a simple, robust and non-invasive in vitro airway model would be useful to study the functionality of the cystic fibrosis transmembrane regulator (CFTR) protein and to personalize modulator therapy for cystic fibrosis (CF) patients. Our aim was to validate a CFTR functional study using nasospheroids, a patient-derived nasal cell 3D-culture. We performed live-cell experiments in nasospheroids obtained from wild-type individuals and CF patients with different genotypes and phenotypes. We extended the existing method and expanded the analysis to upgrade measurements of CFTR activity using forskolin-induced shrinking. We also tested modulator drugs in CF samples. Immobilizing suspended-nasospheroids provided a high number of samples for live-cell imaging. The diversity observed in basal sizes of nasospheroids did not affect the functional analysis of CFTR. Statistical analysis with our method was simple, making this protocol easy to reproduce. Moreover, we implemented the measurement of inner fluid reservoir areas to further differentiate CFTR functionality. In summary, this rapid methodology is helpful to analyse response to modulators in CF samples to allow individualized treatment for CF patients.

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Sigma-Aldrich
Forskolina, For use in molecular biology applications
Sigma-Aldrich
CFTR Inhibitor-172, CFTR Inhibitor-172, CAS 307510-92-5, is a cell-permeable, potent, reversible, rapid, and voltage-independent inhibitor of CFTR-mediated Cl- transport in human airway cells (Ki ~ 300 nM).