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Nasospheroids permit measurements of CFTR-dependent fluid transport
Jennifer S. Guimbellot, Justin M. Leach, Imron G. Chaudhry, Nancy L. Quinney, Susan E. Boyles, Michael Chua, Inmaculada Aban, Ilona Jaspers, Martina Gentzsch
Jennifer S. Guimbellot, Justin M. Leach, Imron G. Chaudhry, Nancy L. Quinney, Susan E. Boyles, Michael Chua, Inmaculada Aban, Ilona Jaspers, Martina Gentzsch
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Research Article Cell biology Pulmonology

Nasospheroids permit measurements of CFTR-dependent fluid transport

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Abstract

Expansion of novel therapeutics to all patients with cystic fibrosis (CF) requires personalized CFTR modulator therapy. We have developed nasospheroids, a primary cell culture–based model derived from individual CF patients and healthy subjects by a minimally invasive nasal biopsy. Confocal microscopy was utilized to measure CFTR activity by analyzing changes in cross-sectional area over time that resulted from CFTR-mediated ion and fluid movement. Both the rate of change over time and AUC were calculated. Non-CF nasospheroids with active CFTR-mediated ion and fluid movement showed a reduction in cross-sectional area, whereas no changes were observed in CF spheroids. Non-CF spheroids treated with CFTR inhibitor lost responsiveness for CFTR activation. However, nasospheroids from F508del CF homozygotes that were treated with lumacaftor and ivacaftor showed a significant reduction in cross-sectional area, indicating pharmacologic rescue of CFTR function. This model employs a simple measurement of size corresponding to changes in CFTR activity and is applicable for detection of small changes in CFTR activity from individual patients in vitro. Advancements of this technique will provide a robust model for individualized prediction of CFTR modulator efficacy.

Authors

Jennifer S. Guimbellot, Justin M. Leach, Imron G. Chaudhry, Nancy L. Quinney, Susan E. Boyles, Michael Chua, Inmaculada Aban, Ilona Jaspers, Martina Gentzsch

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Figure 3

CF nasospheroids show no reduction in cross-sectional area over time when CFTR is stimulated, unless treated with modulators.

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CF nasospheroids show no reduction in cross-sectional area over time whe...
(A) Baseline area at start of testing is not significantly different in CF compared with non-CF nasospheroids. (B) The starting size of each nasospheroid was set at 1, and the fractional reduction of each was calculated at all time points. The average fractional reduction was calculated and plotted at each time point. Stimulated nasospheroids were treated with 10 μM forskolin, amiloride, and 3-isobutyl-1-methylxanthine (IBMX). Additional nasospheroids were treated with 5 μM lumacaftor (24 hours) and 1 μM ivacaftor, acute treatment. One-way ANOVA was calculated for the groups, P = 0.047. Paired t test between time 0 and time 75 minutes, *P < 0.0001. (C) Summary data of slopes for all CF nasospheroids represented as a box and dot plot. Each dot is a single nasospheroid. The black box is the mean; the central line is the median; the box borders are the 25th and 75th percentiles. *P <0.0001. (D) Summary data of time-averaged AUC unadjusted for starting size for all CF nasospheroids represented as a box plot.*P = 0.0113. n = 3 subjects. Between 3 and 5 nasospheroids were analyzed per subject.

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