Abstract
Rationale: Asthma displays temporally variable symptoms which worsen overnight, corresponding with a nocturnal increase in airway eosinophils. The molecular clock within the club cell of the bronchial epithelium is a key driver of lung rhythmic processes, however, it’s role in chronic allergic airways disease (AAD) is not known. Elucidating the role of the club cell clock in regulating rhythmic inflammation in AAD could lead to new therapeutic advances.
Objectives: To investigate the club cell molecular clock regulation of leukocyte trafficking in chronic AAD.
Methods: ccsp-bmal1 KO mice (which lack a functional clock in club cells) and littermate control mice underwent a 5-week chronic house dust mite (HDM) model of AAD, following which leukocyte populations and cytokines from blood, lung and airway compartments were quantified in a 24-hour time-course.
Airway epithelial cells were cultured and transepithelial electrical resistance measured to explore circadian variability in barrier permeability and impact of pharmacological modulation of the clock.
Main Results: Leukocyte populations accumulate in the blood, lung and airways of HDM exposed mice in a time-of-day dependent manner, with time of peak accumulation dependent on cell type. This temporal gating of leukocyte accumulation is controlled and coordinated by the club cell circadian clock, which also regulates airway barrier integrity. Targeting REVERBa (a component of the molecular circadian clock), was effective at modifying airway barrier permeability achieving reduced transepithelial leukocyte migration.
Conclusions: The club cell clock gates leukocyte trafficking signals and airway barrier integrity by time of day in chronic allergic airway inflammation.
Objectives: To investigate the club cell molecular clock regulation of leukocyte trafficking in chronic AAD.
Methods: ccsp-bmal1 KO mice (which lack a functional clock in club cells) and littermate control mice underwent a 5-week chronic house dust mite (HDM) model of AAD, following which leukocyte populations and cytokines from blood, lung and airway compartments were quantified in a 24-hour time-course.
Airway epithelial cells were cultured and transepithelial electrical resistance measured to explore circadian variability in barrier permeability and impact of pharmacological modulation of the clock.
Main Results: Leukocyte populations accumulate in the blood, lung and airways of HDM exposed mice in a time-of-day dependent manner, with time of peak accumulation dependent on cell type. This temporal gating of leukocyte accumulation is controlled and coordinated by the club cell circadian clock, which also regulates airway barrier integrity. Targeting REVERBa (a component of the molecular circadian clock), was effective at modifying airway barrier permeability achieving reduced transepithelial leukocyte migration.
Conclusions: The club cell clock gates leukocyte trafficking signals and airway barrier integrity by time of day in chronic allergic airway inflammation.
| Original language | English |
|---|---|
| Publisher | bioRxiv |
| Number of pages | 41 |
| DOIs | |
| Publication status | Published - 9 Aug 2025 |