AI Article Synopsis
- In the adult mammalian brain, neural stem cells (NSC) can persist and are crucial for neurogenesis, especially when responding to injuries like gliomas.
- The study examines how Reelin, a protein important for brain development, impacts NSCs from both normal mice and a mutant strain lacking Reelin.
- Findings reveal that without Reelin, NSCs show reduced growth and differentiation abilities, and they struggle to migrate effectively to injury sites, but these issues can be partially fixed with added Reelin.
Article Abstract
In the adult mammalian brain, multipotential neural stem cells (NSC) persist throughout life in areas where neurogenesis is maintained. A distinctive trait of NSCs growing in vitro as neurospheres (NS), is their ability to self-renew, differentiate and migrate to sites of injury, such as gliomas. We have studied the role of Reelin, an extracellular matrix protein involved in brain development, in NSCs derived from normal newborn mice or from reeler, a natural mutant in which Reelin is not expressed. We show that the absence of Reelin negatively affects proliferation, NS-forming ability, and neuronal differentiation. Reeler NSCs are unable to migrate in chains, a migration mode typical of neural precursors homing to injury sites in adult CNS. All these effects are partially rescued by ectopic Reelin supplementation. Finally, we show that reeler NSCs fail to migrate in vivo towards gliomas. Overall, our results indicate that Reelin affects all major features of postnatal NSCs, and that it is required for the proper homing of NSCs to tumor sites in adult brain.
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| http://dx.doi.org/10.1016/j.mcn.2009.08.006 | DOI Listing |
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Reelin affects chain-migration and differentiation of neural precursor cells.
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Article Synopsis
- In the adult mammalian brain, neural stem cells (NSC) can persist and are crucial for neurogenesis, especially when responding to injuries like gliomas.
- The study examines how Reelin, a protein important for brain development, impacts NSCs from both normal mice and a mutant strain lacking Reelin.
- Findings reveal that without Reelin, NSCs show reduced growth and differentiation abilities, and they struggle to migrate effectively to injury sites, but these issues can be partially fixed with added Reelin.
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In the adult brain, neural stem cells (NSC) must migrate to express their neuroplastic potential. The addition of recombinant reelin to human NSC (HNSC) cultures facilitates neuronal retraction in the neurospheroid. Because we detected reelin, alpha3-integrin receptor subunits, and disabled-1 immunoreactivity in HNSC cultures, it is possible that integrin-mediated reelin signal transduction is operative in these cultures.
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