Budesonide Analogues Preserve Stem Cell Pluripotency and Delay 3D Gastruloid Development.

Small molecules that can modulate or stabilize cell-cell interactions are valuable tools for investigating the impact of collective cell behavior on various biological processes such as development/morphogenesis, tissue regeneration and cancer progression. Recently, we showed that budesonide, a glucocorticoid widely used as an anti-asthmatic drug, is a potent regulator of stem cell pluripotency. Here we tested the effect of different budesonide derivatives and identified CHD-030498 as a more effective analogue of budesonide.

Stabilization of cell-cell adhesions prevents symmetry breaking and locks in pluripotency in 3D gastruloids.

3D embryonic stem cell (ESC) aggregates self-organize into embryo-like structures named gastruloids that recapitulate the axial organization of post-implantation embryos. Crucial in this process is the symmetry-breaking event that leads to the emergence of asymmetry and spatially ordered structures from homogeneous cell aggregates. Here, we show that budesonide, a glucocorticoid drug widely used to treat asthma, prevents ESC aggregates to break symmetry.

Generation of Gastruloids from Epiblast-Like Cells.

The different states of mouse pluripotency described so far rely on a combination of molecular, phenotypic, and functional analysis. Embryonic Stem cells (ESCs) aggregated in suspension culture are able to form 3D embryo-like structures called gastruloids that mimic features of the gastrulation process. Recent findings indicate that gastruloid formation efficiency decreases as pluripotency progresses from naïve to primed state, and suggest that gastruloids formation may represent a functional assay to discriminate different states of mouse pluripotency.

Generation of Epiblast-Like Cells.

Different states of pluripotency can be captured in vitro depending on the embryo stage from which they are derived and the culture conditions. Pluripotency is a continuum of different states between the two extremes of naïve embryonic stem cells (ESCs) and primed Epiblast Stem Cells (EpiSCs), which resemble the pre/peri- and post- implantation embryo, respectively. The transition from naïve to primed pluripotency can be induced by growing naïve ESCs in EpiSCs medium, containing bFGF and Activin.

The Multifaceted Roles of Proline in Cell Behavior.

Herein, we review the multifaceted roles of proline in cell biology. This peculiar cyclic imino acid is: A main precursor of extracellular collagens (the most abundant human proteins), antimicrobial peptides (involved in innate immunity), salivary proteins (astringency, teeth health) and cornifins (skin permeability); an energy source for pathogenic bacteria, protozoan parasites, and metastatic cancer cells, which engage in extracellular-protein degradation to invade their host; an antistress molecule (an osmolyte and chemical chaperone) helpful against various potential harms (UV radiation, drought/salinity, heavy metals, reactive oxygen species); a neural metabotoxin associated with schizophrenia; a modulator of cell signaling pathways such as the amino acid stress response and extracellular signal-related kinase pathway; an epigenetic modifier able to promote DNA and histone hypermethylation; an inducer of proliferation of stem and tumor cells; and a modulator of cell morphology and migration/invasiveness. We highlight how proline metabolism impacts beneficial tissue regeneration, but also contributes to the progression of devastating pathologies such as fibrosis and metastatic cancer.