A range of 30%-62% of functioning multiciliated airway cells is sufficient to maintain ciliary airway clearance

Niki T Loges, June Kehlet Marthin, Johanna Raidt, Heike Olbrich, Inga M Höben, Sandra Cindric, Diana Bracht, Julia König, Cynthia Rieck, Sebastian George, Tim Luis Kloth, Kai Wohlgemuth, Petra Pennekamp, Bernd Dworniczak, Mathias G Holgersen, Jobst Römel, Christian Schmalstieg, Isabella Aprea, Jann Mortensen, Kim G NielsenHeymut Omran*

*Corresponding author for this work

Abstract

BACKGROUND: Primary ciliary dyskinesia (PCD) is a genetic disorder caused by aberrant motile cilia function that results in defective ciliary airway clearance and subsequently to recurrent airway infections and bronchiectasis.

QUESTION: How many functional multiciliated airway cells are sufficient to maintain ciliary airway clearance?

METHODS: To answer this question we exploited the molecular defects of the X-linked recessive PCD variant caused by pathogenic variants in DNAAF6 (PIH1D3), characterized by immotile cilia in the affected males. We carefully analyzed the clinical phenotype, molecular defect (immunofluorescence and transmission-electron microscopy) and performed in vitro (particle tracking in air-liquid interface cultures) and in vivo (radiolabeled tracer studies) studies to assess ciliary clearance of respiratory cells from females with heterozygous and males with hemizygous pathogenic DNAAF6 variants.

RESULTS: PCD males with hemizygous pathogenic DNAAF6 variants displayed exclusively immotile cilia, absence of ciliary clearance and severe PCD symptoms. Due to random or skewed X-chromosome inactivation in six females with heterozygous pathogenic DNAAF6 variants, 54.3%±10 (range 38%-70%) of multiciliated cells were defective. Nevertheless, in vitro and in vivo assessment of the ciliary airway clearance was normal or slightly abnormal. Consistently, heterozygous female individuals showed no or only mild respiratory symptoms.

CONCLUSIONS: Our findings indicate that 30%-62% of functioning multiciliated respiratory cells are able to generate either normal or slightly reduced ciliary clearance. Because heterozygous females displayed either no or subtle respiratory symptoms, complete correction of 30% of cells by precision medicine might be able to improve ciliary airway clearance in PCD individuals as well as clinical symptoms.

Original languageEnglish
Book seriesEuropean Respiratory Journal. Supplement
ISSN0904-1850
DOIs
Publication statusE-pub ahead of print - 11 Jul 2024

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