Cerebral organoids in primary progressive multiple sclerosis reveal stem cell and oligodendrocyte differentiation defect.
Nicolas DaviaudEric ChenTara EdwardsSaud A SadiqPublished in: Biology open (2023)
Multiple sclerosis (MS) is an auto-immune inflammatory disorder affecting the central nervous system. The cause of the disease is unknown but both genetic and environmental factors are implicated in the pathogenesis. We derived cerebral organoids from induced pluripotent stem cells (iPSC) of healthy control subjects as well as from primary progressive MS (PPMS), secondary progressive MS (SPMS) and relapsing remitting MS (RRMS) patients to better understand the pathologic basis of the varied clinical phenotypic expressions of MS. In MS organoids, most notably in PPMS, we observed a decrease of proliferation marker Ki67 and a reduction of the SOX2+ stem cell pool associated with an increased expression of neuronal markers CTIP2 and TBR1 as well as a strong decrease of oligodendrocyte differentiation. This dysregulation of the stem cell pool is associated with a decreased expression of the cell cycle inhibitor p21. Our findings show that the genetic background of a patient can directly alter stem cell function, provides new insights on the innate cellular dysregulation in MS and identifies p21 pathway as a new potential target for therapeutic strategies in MS.
Keyphrases
- multiple sclerosis
- stem cells
- white matter
- induced pluripotent stem cells
- mass spectrometry
- cell cycle
- genome wide
- ms ms
- end stage renal disease
- cell proliferation
- neoadjuvant chemotherapy
- chronic kidney disease
- gene expression
- ejection fraction
- transcription factor
- dna methylation
- oxidative stress
- cerebral ischemia
- signaling pathway
- radiation therapy
- mesenchymal stem cells
- copy number
- binding protein
- blood brain barrier
- peritoneal dialysis
- bone marrow
- human health