Phox2b mutation mediated by Atoh1 expression impaired respiratory rhythm and ventilatory responses to hypoxia and hypercapnia

Mutations in the transcription factor Phox2b cause congenital central hypoventilation syndrome (CCHS). The syndrome is characterized by hypoventilation and inability to regulate breathing to maintain adequate O 2 and CO 2 levels. The mechanism by which CCHS impact respiratory control is incompletely...

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Published in:eLife 2022-11, Vol.11
Main Authors: Ferreira, Caroline B, Silva, Talita M, Silva, Phelipe E, Castro, Claudio L, Czeisler, Catherine, Otero, José J, Takakura, Ana C, Moreira, Thiago S
Format: Article
Language:English
Subjects:
Carbon dioxide
Chemoreception (internal)
Hypercapnia
Hypoventilation
Hypoxia
Math1 protein
Metabolism
Mutation
Neonates
Neurons
Neuroscience
phox2b
Phox2b protein
Polyalanine
Respiration
Respiratory function
Retrotrapezoid nucleus
Rodents
Transgenic mice
ventilation
Ventilators
Ventilatory behavior
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Summary:Mutations in the transcription factor Phox2b cause congenital central hypoventilation syndrome (CCHS). The syndrome is characterized by hypoventilation and inability to regulate breathing to maintain adequate O 2 and CO 2 levels. The mechanism by which CCHS impact respiratory control is incompletely understood, and even less is known about the impact of the non-polyalanine repeat expansion mutations (NPARM) form. Our goal was to investigate the extent by which NPARM Phox2b mutation affect (a) respiratory rhythm; (b) ventilatory responses to hypercapnia (HCVR) and hypoxia (HVR); and (c) number of chemosensitive neurons in mice. We used a transgenic mouse line carrying a conditional Phox2b Δ8 mutation (same found in humans with NPARM CCHS). We crossed them with Atoh1 cre mice to introduce mutation in regions involved with respiratory function and central chemoreflex control. Ventilation was measured by plethysmograph during neonatal and adult life. In room air, mutation in neonates and adult did not greatly impact basal ventilation. However, Phox2b Δ8 , Atoh1 cre increased breath irregularity in adults. The HVR and HCVR were impaired in neonates. The HVR, but not HCVR, was still partially compromised in adults. The mutation reduced the number of Phox2b + /TH - -expressing neurons as well as the number of fos-activated cells within the ventral parafacial region (also named retrotrapezoid nucleus [RTN] region) induced by hypercapnia. Our data indicates that Phox2b Δ8 mutation in Atoh1 -expressing cells impaired RTN neurons, as well as chemoreflex under hypoxia and hypercapnia specially early in life. This study provided new evidence for mechanisms related to NPARM form of CCHS neuropathology.
ISSN:2050-084X
2050-084X
DOI:10.7554/eLife.73130