Airway Ciliary Beating Affected by the Pcp4 Dose-Dependent [Ca2+]i Increase in Down Syndrome Mice, Ts1Rhr

Haruka Kogiso,Toshio Inui,Matthieu Raveau,Yoshinori Marunaka,Takashi Nakahari,Daichi Saito,Tomonori Okazaki,Shinji Asano,Kazuhiro Yamakawa,Yukiko Ikeuchi

doi:10.3390/ijms21061947

Abstract

In Ts1Rhr, a Down syndrome model mouse, the airway ciliary beatings are impaired; that is, decreases in ciliary beat frequency (CBF) and ciliary bend angle (CBA, an index of ciliary beat amplitude)). A resumption to two copies of the Pcp4 gene on the Ts1Rhr trisomic segment (Ts1Rhr:Pcp4+/+/-) rescues the decreases in CBF and CBA that occur in Ts1Rhr. In airway cilia, upon stimulation with procaterol (a β2-agonist), the CBF increase is slower over the time course than the CBA increase because of cAMP degradation by Ca2+/calmodulin-dependent phosphodiesterase 1 (PDE1) existing in the metabolon regulating CBF. In Ts1Rhr, procaterol-stimulated CBF increase was much slower over the time course than in the wild-type mouse (Wt) or Ts1Rhr:Pcp4+/+/-. However, in the presence of 8MmIBMX (8-methoxymethyl isobutylmethyl xanthine, an inhibitor of PDE1) or calmidazolium (an inhibitor of calmodulin), in both Wt and Ts1Rhr, procaterol stimulates CBF and CBA increases over a similar time course. Measurements of cAMP revealed that the cAMP contents were lower in Ts1Rhr than in Wt or in Ts1Rhr:Pcp4+/+/-, suggesting the activation of PDE1A that is present in Ts1Rhr airway cilia. Measurements of the intracellular Ca2+ concentration ([Ca2+]i) in airway ciliary cells revealed that temperature (increasing from 25 to 37 °C) or 4αPDD (a selective transient receptor potential vanilloid 4 (TRPV4) agonist) stimulates a larger [Ca2+]i increase in Ts1Rhr than in Wt or Ts1Rhr:Pcp4+/+/-. In airway ciliary cells of Ts1Rhr, Pcp4-dose dependent activation of TRPV4 appears to induce an increase in the basal [Ca2+]i. In early embryonic day mice, a basal [Ca2+]i increased by PCP4 expressed may affect axonemal regulatory complexes regulated by the Ca2+-signal in Ts1Rhr, leading to a decrease in the basal CBF and CBA of airway cilia.

Highlights

Down syndrome (DS) caused by trisomy of human chromosome 21 (HSA21) occurred in 14.5/10,000 live births in the USA between 2004 and 2006 [1,2]
ciliary beat frequency (CBF) (160–320 cells/animal) and ciliary bend angle (CBA) (30–70 cell/animal) of airway cilia were measured in Wt, Ts1Rhr, and Ts1Rhr:Pcp4+/+/- [18,19,20,21]
The present study clearly shows that the time course of the CBF increase stimulated by 1 nM procaterol in airway cilia is slower in Ts1Rhr than in Wt, and that the slower CBF increase in Ts1Rhr is caused by the activation of PDE1A [19,20,21]

Summary

Introduction

Down syndrome (DS) caused by trisomy of human chromosome 21 (HSA21) occurred in 14.5/10,000 live births in the USA between 2004 and 2006 [1,2]. DS patients have airway abnormalities, such as laryngomalacia, tracheomalacia, complete tracheal ring, and lingual tonsils [3,4], which cause recurrent and sustained infections in airways and lungs. Respiratory infections, such as bronchopneumonia, are frequent causes of death in DS children [4,5,6]. The reduced ciliary beat frequency (CBF) and abnormal waveform, such as a decrease in ciliary bend angle (CBA), decrease the rate of mucociliary clearance leading to recurrent and sustained airway infections [8,9]

Objectives

Methods

Results

Conclusion