The FAM13A Long Isoform Regulates Cilia Movement and Coordination in Airway Mucociliary Transport

Overview

Journal Am J Respir Cell Mol Biol

Specialties Cell Biology
Molecular Biology

Date 2024 May 1

PMID 38691660

Authors

Ashleigh Howes

Clare Rogerson

Nikolai Belyaev

Tina Karagyozova

Radu Rapiteanu

Ricardo Fradique

Nicola Pellicciotta

David Mayhew

Catherine Hurd

Stefania Crotta

Tanya Singh

Kevin Dingwell

Anniek Myatt

Navot Arad

Hikmatyar Hasan

Hielke Bijlsma

Aliza Panjwani

Vinaya Vijayan

George Young

Angela Bridges

Sebastien Petit-Frere

Joanna Betts

Chris Larminie

James C Smith

Edith M Hessel

David Michalovich

Louise Walport

Pietro Cicuta

Andrew J Powell

Soren Beinke

Andreas Wack

Affiliations

Soon will be listed here.

Abstract

Single nucelotide polymorphisms (SNPs) at the locus are among the most commonly reported risk alleles associated with chronic obstructive pulmonary disease (COPD) and other respiratory diseases; however, the physiological role of FAM13A is unclear. In humans, two major protein isoforms are expressed at the locus: "long" and "short," but their functions remain unknown, partly because of a lack of isoform conservation in mice. We performed in-depth characterization of organotypic primary human airway epithelial cell subsets and show that multiciliated cells predominantly express the FAM13A long isoform containing a putative N-terminal Rho GTPase-activating protein (RhoGAP) domain. Using purified proteins, we directly demonstrate the RhoGAP activity of this domain. In , which conserve the long-isoform, Fam13a deficiency impaired cilia-dependent embryo motility. In human primary epithelial cells, long-isoform deficiency did not affect multiciliogenesis but reduced cilia coordination in mucociliary transport assays. This is the first demonstration that FAM13A isoforms are differentially expressed within the airway epithelium, with implications for the assessment and interpretation of SNP effects on expression levels. We also show that the long FAM13A isoform coordinates cilia-driven movement, suggesting that risk alleles may affect susceptibility to respiratory diseases through deficiencies in mucociliary clearance.

Citing Articles

Long Story Short: Understanding Isoform-Specific Expression of .

McDonald C, Langlois R Am J Respir Cell Mol Biol. 2024; 71(3):257-258.

PMID: 38696272 PMC: 11376243. DOI: 10.1165/rcmb.2024-0166ED.

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