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Organoid models of breathing disorders reveal patterning defect of hindbrain neurons caused by PHOX2B-PARMs

Kathy Nga-Chu Lui, Zhixin Li, Frank Pui-Ling Lai, Sin-Ting Lau, Esw Ngan

2023Stem Cell Reports15 citationsDOIOpen Access PDF

Abstract

Retrotrapezoid nucleus (RTN) neurons in the brainstem regulate the ventilatory response to hypercarbia. It is unclear how PHOX2B-polyalanine repeat mutations (PHOX2B-PARMs) alter the function of PHOX2B and perturb the formation of RTN neurons. Here, we generated human brainstem organoids (HBSOs) with RTN-like neurons from human pluripotent stem cells. Single-cell transcriptomics revealed that expression of PHOX2B+7Ala PARM alters the differentiation trajectories of the hindbrain neurons and hampers the formation of the RTN-like neurons in HBSOs. With the unguided cerebral organoids (HCOs), PHOX2B+7Ala PARM interrupted the patterning of PHOX2B+ neurons with dysregulation of Hedgehog pathway and HOX genes. With complementary use of HBSOs and HCOs with a patient and two mutant induced pluripotent stem cell lines carrying different polyalanine repetition in PHOX2B, we further defined the association between the length of polyalanine repetition and malformation of RTN-respiratory center and demonstrated the potential toxic gain of function of PHOX2B-PARMs, highlighting the uniqueness of these organoid models for disease modeling.

Topics & Concepts

BiologyHindbrainInduced pluripotent stem cellOrganoidBrainstemNeuroscienceCell biologyTranscriptomeGeneticsGeneEmbryonic stem cellCentral nervous systemGene expressionNeonatal Respiratory Health ResearchNeuroscience of respiration and sleepPluripotent Stem Cells Research
Organoid models of breathing disorders reveal patterning defect of hindbrain neurons caused by PHOX2B-PARMs | Litcius