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. 2024 Mar 1:7:100122.
doi: 10.1016/j.crphys.2024.100122. eCollection 2024.

Investigating the role of CFTR in human and mouse myometrium

Clodagh Prendergast  1 Susan Wray  1 Daniella Dungate  1 Christine Martin  1 Andra Vaida  1 Elizabeth Brook  1 Cecilia Ani Chioma  1 Helen Wallace  1
Affiliations

Investigating the role of CFTR in human and mouse myometrium

Clodagh Prendergast et al. Curr Res Physiol. .

Abstract

Background: Abnormal cystic fibrosis transmembrane conductance regulator (CFTR) function in cystic fibrosis (CF) has been linked to airway smooth muscle abnormalities including bronchial hyperresponsiveness. However, a role for CFTR in other types of smooth muscle, including myometrium, remains largely unexplored. As CF life expectancy and the number of pregnancies increases, there is a need for an understanding of the potential role of CFTR in myometrial function.

Methods: We investigated the role of CFTR in human and mouse myometrium. We used immunofluorescence to identify CFTR expression, and carried out contractility studies on spontaneously contracting term pregnant and non-pregnant mouse myometrium and term pregnant human myometrial biopsies from caesarean sections.

Results: CFTR was found to be expressed in term pregnant mouse myometrium. Inhibition of CFTR, with the selective inhibitor CFTRinh-172, significantly reduced contractility in pregnant mouse and human myometrium in a concentration-dependent manner (44.89 ± 11.02 term pregnant mouse, 9.23 ± 4.75 term-pregnant human; maximal effect at 60 μM expressed as a percentage of the pre-treatment control period). However, there was no effect of CFTRinh-172 in non-pregnant myometrium.

Conclusion: These results demonstrate decreased myometrial function when CFTR is inhibited, which may have implications on pregnancy and labour outcome and therapeutic decisions for labour in CF patients.

Keywords: CFTR; Contractility; Cystic fibrosis; Human; Mouse; Myometrium; Pregnancy.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

Fig. 1
Fig. 1
The effect of different concentrations of CFTRinh-172 (1–100 μM) on contractility of term pregnant and non-pregnant mouse myometrium in vitro.
Fig. 2
Fig. 2
Effect of 10 μM CFTRinh172 in the absence and presence of 0.1 nM oxytocin. Scatter plot demonstrating the significant inhibitory effect of 10 μM CFTRinh-172 on AUC, in the absence and presence of 0.1 nM oxytocin (Mann Whitney Test; p < 0.05).
Fig. 3
Fig. 3
The effect of increasing concentrations of CFTRinh-172 (1–60 μM) on contractility of human myometrium in vitro. (A), shows control period of contraction, followed by increased concentrations of CFTRinh-172 (B–E). (F), shows the concentration-response curve of the AUC, with an pEC50 value of 5.35 ± 0.10 compared to pregnant mouse pEC50 value of 5.12 ± 0.14.
Fig. 4
Fig. 4
The effect of CFTRinh-172 on the response to high K+ solution in term pregnant mouse. Control high K+ responses are shown in (A) (protocol 1) and (E) (protocol 2); High K+ responses in the presence of CFTRinh-172 are shown in (B) (protocol 1) and (F) (protocol 2). Dotted lines in A and B indicate maximum High K+ amplitude. Significant decrease in peak amplitude in the presence of CFTRinh-172 (difference before and in presence of CFTR inhibitor; paired Student's t-test) and area under the curve (AUC) are shown as scatterplots in (C) and (D). Significant decrease of the steady-state plateau amplitude in the presence of CFTRinh-172 compared to control (Mann Whitney test) is shown in (G).
Fig. 5
Fig. 5
Immunofluorescence showing expression of CFTR in (A), actin in (B), CFTR and actin images (A and B) merged to show relative expression patterns shown in (C). DAPI (4,6-diamidino-2-phenylindole), staining of myometrial nuclei is shown in (D) and control no primary antibody shown in (E).
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