1. Bone Morphogenetic Protein Promotes Lewis X Stage-Specific Embryonic Antigen 1 Expression Thereby Interfering with Neural Precursor and Stem Cell Proliferation
- Author
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Udo Schmidt-Edelkraut, Ina K. Simeonova, Gabriele Hölzl-Wenig, Claudi Mandl, Francesca Ciccolini, Priti Khatri, and Inma Luque-Molina
- Subjects
0301 basic medicine ,Cell ,Lewis X Antigen ,Bone Morphogenetic Protein 4 ,Biology ,Bone morphogenetic protein ,Mice ,03 medical and health sciences ,Neural Stem Cells ,Membrane region ,medicine ,Subependymal zone ,Animals ,AC133 Antigen ,Cell Proliferation ,Cluster of differentiation ,Cell Biology ,Cell cycle ,Neural stem cell ,Cell biology ,ErbB Receptors ,030104 developmental biology ,medicine.anatomical_structure ,Molecular Medicine ,Stem cell ,Signal Transduction ,Developmental Biology - Abstract
The glycoprotein Prominin-1 and the carbohydrate Lewis X stage-specific embryonic antigen 1 (LeX-SSEA1) both have been extensively used as cell surface markers to purify neural stem cells (NSCs). While Prominin-1 labels a specialized membrane region in NSCs and ependymal cells, the specificity of LeX-SSEA1 expression and its biological significance are still unknown. To address these issues, we have here monitored the expression of the carbohydrate in neonatal and adult NSCs and in their progeny. Our results show that the percentage of immunopositive cells and the levels of LeX-SSEA1 immunoreactivity both increase with postnatal age across all stages of the neural lineage. This is associated with decreased proliferation in precursors including NSCs, which accumulate the carbohydrate at the cell surface while remaining quiescent. Exposure of precursors to bone morphogenetic protein (BMP) increases LEX-SSEA1 expression, which promotes cell cycle withdrawal by a mechanism involving LeX-SSEA1-mediated interaction at the cell surface. Conversely, interference with either BMP signaling or with LeX-SSEA1 promotes proliferation to a similar degree. Thus, in the postnatal germinal niche, the expression of LeX-SSEA1 increases with age and exposure to BMP signaling, thereby downregulating the proliferation of subependymal zone precursors including NSCs.
- Published
- 2017
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