Circadian Regulation of Lung Repair and Regeneration

Overview

Journal JCI Insight

Specialties Biomedical Engineering
General Medicine

Date 2023 Jul 18

PMID 37463053

Authors

Amruta Naik

Kaitlyn M Forrest

Oindrila Paul

Yasmine Issah

Utham K Valekunja

Soon Y Tang

Akhilesh B Reddy

Elizabeth J Hennessy

Thomas G Brooks

Fatima Chaudhry

Apoorva Babu

Michael Morley

Jarod A Zepp

Gregory R Grant

Garret A FitzGerald

Amita Sehgal

G Scott Worthen

David B Frank

Edward E Morrisey

Shaon Sengupta

Affiliations

Soon will be listed here.

Abstract

Optimal lung repair and regeneration are essential for recovery from viral infections, including influenza A virus (IAV). We have previously demonstrated that acute inflammation and mortality induced by IAV is under circadian control. However, it is not known whether the influence of the circadian clock persists beyond the acute outcomes. Here, we utilize the UK Biobank to demonstrate an association between poor circadian rhythms and morbidity from lower respiratory tract infections, including the need for hospitalization and mortality after discharge; this persists even after adjusting for common confounding factors. Furthermore, we use a combination of lung organoid assays, single-cell RNA sequencing, and IAV infection in different models of clock disruption to investigate the role of the circadian clock in lung repair and regeneration. We show that lung organoids have a functional circadian clock and the disruption of this clock impairs regenerative capacity. Finally, we find that the circadian clock acts through distinct pathways in mediating lung regeneration - in tracheal cells via the Wnt/β-catenin pathway and through IL-1β in alveolar epithelial cells. We speculate that adding a circadian dimension to the critical process of lung repair and regeneration will lead to novel therapies and improve outcomes.

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