# Gαi2 Signaling Regulates Neonatal Respiratory Adaptation

**Authors:** Veronika Leiss, Katja Pexa, Andreas Nowacki, James P. Bridges, Benedikt Duckworth-Mothes, Susanne Ammon-Treiber, Ana Novakovic, Franziska Zeyer, Hartwig Wolburg, Petra Fallier-Becker, Roland P. Piekorz, Matthias Schwab, Letizia Quintanilla-Martínez, Sandra Beer-Hammer, Bernd Nürnberg

PMC · DOI: 10.3390/ijms262110655 · 2025-11-01

## TL;DR

This study shows that Gαi2 signaling is important for neonatal breathing adaptation and that its absence can lead to respiratory distress and death in newborn mice.

## Contribution

The study identifies neonatal respiratory adaptation as a novel physiological process regulated by Gαi2 signaling.

## Key findings

- Gnai2-deficient neonates die shortly after birth due to impaired respiratory adaptation.
- Deficiency in Gαi2 leads to structural and functional defects in alveolar surfactant organization.
- Some neonates survive, indicating a regulatory rather than essential role for Gαi2 in this process.

## Abstract

Heterotrimeric Gi proteins are crucial modulators of G protein-coupled receptor signaling, with Gαi2 ubiquitously expressed and implicated in diverse physiological processes. Previous reports described partial lethality in Gnai2-deficient mice, but the timing and mechanism of death remained unclear. Here, we demonstrate that impaired neonatal respiratory adaptation contributes to mortality in Gnai2-deficient neonates. Despite normal Mendelian distribution at birth and no overt malformations, at least 20% of the expected Gnai2-deficient neonates died within minutes after birth, displaying abnormal breathing, cyanosis, and features resembling neonatal respiratory distress syndrome (RDS). Histological and ultrastructural analyses revealed reduced alveolar surface area, thickened septa, increased mesenchymal tissue, and impaired surfactant ultrastructure, despite unaltered alveolar surfactant phospholipid levels. These findings suggest that Gαi2 modulates the structural deployment and functional organization of surfactant within alveoli, although the incomplete phenotype and survival of some neonates indicate a regulatory rather than indispensable role of Gαi2. Our data underscore the complexity of neonatal respiratory adaptation and highlight potential systemic and intercellular mechanisms underlying alveolar stabilization.

## Linked entities

- **Genes:** GNAI2 (G protein subunit alpha i2) [NCBI Gene 2771]
- **Proteins:** GAI2 (DELLA protein GAI 2)
- **Diseases:** neonatal respiratory distress syndrome (MONDO:0700081), RDS (MONDO:0009971)
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** Gnai2 (G protein subunit alpha i2) [NCBI Gene 14678] {aka Galphai2, Gia, Gnai-2, Hg1c}
- **Diseases:** deficient (MESH:D007153), RDS (MESH:D012128), neonatal respiratory distress syndrome (MESH:D012127), abnormal breathing (MESH:D004417), cyanosis (MESH:D003490), malformations (MESH:C564254)
- **Species:** Mus musculus (house mouse, species) [taxon 10090]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12610543/full.md

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Source: https://tomesphere.com/paper/PMC12610543