The centrosomal protein 83 (CEP83) regulates human pluripotent stem cell differentiation toward the kidney lineage.
Fatma MansourChristian HinzeNarasimha Swamy TeluguJelena KresojaIman B ShaheedChristian MosimannSebastian DieckeKai M Schmidt-OttPublished in: eLife (2022)
During embryonic development, the mesoderm undergoes patterning into diverse lineages including axial, paraxial, and lateral plate mesoderm (LPM). Within the LPM, the so-called intermediate mesoderm (IM) forms kidney and urogenital tract progenitor cells, while the remaining LPM forms cardiovascular, hematopoietic, mesothelial, and additional progenitor cells. The signals that regulate these early lineage decisions are incompletely understood. Here, we found that the centrosomal protein 83 (CEP83), a centriolar component necessary for primary cilia formation and mutated in pediatric kidney disease, influences the differentiation of human-induced pluripotent stem cells (hiPSCs) toward IM. We induced inactivating deletions of <i>CEP83</i> in hiPSCs and applied a 7-day in vitro protocol of IM kidney progenitor differentiation, based on timed application of WNT and FGF agonists. We characterized induced mesodermal cell populations using single-cell and bulk transcriptomics and tested their ability to form kidney structures in subsequent organoid culture. While hiPSCs with homozygous <i>CEP83</i> inactivation were normal regarding morphology and transcriptome, their induced differentiation into IM progenitor cells was perturbed. Mesodermal cells induced after 7 days of monolayer culture of <i>CEP83</i>-deficient hiPCS exhibited absent or elongated primary cilia, displayed decreased expression of critical IM genes (<i>PAX8</i>, <i>EYA1</i>, <i>HOXB7</i>), and an aberrant induction of LPM markers (e.g. <i>FOXF1</i>, <i>FOXF2</i>, <i>FENDRR</i>, <i>HAND1</i>, <i>HAND2</i>). Upon subsequent organoid culture, wildtype cells differentiated to form kidney tubules and glomerular-like structures, whereas <i>CEP83</i>-deficient cells failed to generate kidney cell types, instead upregulating cardiomyocyte, vascular, and more general LPM progenitor markers. Our data suggest that <i>CEP83</i> regulates the balance of IM and LPM formation from human pluripotent stem cells, identifying a potential link between centriolar or ciliary function and mesodermal lineage induction.
Keyphrases
- pluripotent stem cells
- single cell
- high glucose
- endothelial cells
- induced pluripotent stem cells
- rna seq
- induced apoptosis
- diabetic rats
- cell cycle arrest
- high throughput
- oxidative stress
- gene expression
- drug induced
- stem cells
- poor prognosis
- transcription factor
- endoplasmic reticulum stress
- minimally invasive
- bone marrow
- signaling pathway
- high resolution
- risk assessment
- deep learning
- machine learning
- long non coding rna
- angiotensin ii
- human health
- genetic diversity