TrkB Signaling Is Required for Postnatal Survival of CNS Neurons and Protects Hippocampal and Motor Neurons from Axotomy-Induced Cell Death

Newborn mice carrying targeted mutations in genes encoding neurotrophins or their signaling Trk receptors display severe neuronal deficits in the peripheral nervous system but not in the CNS. In this study, we show that trkB (-/-) mice have a significant increase in apoptotic cell death in different...

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Bibliographic Details
Published in:The Journal of neuroscience 1997-05, Vol.17 (10), p.3623-3633
Main Authors: Alcantara, Soledad, Frisen, Jonas, del Rio, Jose Antonio, Soriano, Eduardo, Barbacid, Mariano, Silos-Santiago, Inmaculada
Format: Article
Language:English
Subjects:
Animals
Apoptosis - physiology
Axons - physiology
Cell Survival - physiology
Cellular signal transduction
Denervation
Hipocamp (Cervell)
Hippocampus (Brain)
Hippocampus - cytology
Homozygote
Mice
Mice, Mutant Strains
Microscopy, Electron
Motor neurons
Motor Neurons - cytology
Motor Neurons - physiology
Motor Neurons - ultrastructure
Neurones motores
Organ Culture Techniques
Receptor, Ciliary Neurotrophic Factor
Receptors, Nerve Growth Factor - physiology
Signal Transduction - physiology
Transducció de senyal cel·lular
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Summary:Newborn mice carrying targeted mutations in genes encoding neurotrophins or their signaling Trk receptors display severe neuronal deficits in the peripheral nervous system but not in the CNS. In this study, we show that trkB (-/-) mice have a significant increase in apoptotic cell death in different regions of the brain during early postnatal life. The most affected region in the brain is the dentate gyrus of the hippocampus, although elevated levels of pyknotic nuclei were also detected in cortical layers II and III and V and VI, the striatum, and the thalamus. Furthermore, axotomized hippocampal and motor neurons of trkB (-/-) mice have significantly lower survival rates than those of wild-type littermates. These results suggest that neurotrophin signaling through TrkB receptors plays a role in the survival of CNS neurons during postnatal development. Moreover, they indicate that TrkB receptor signaling protects subpopulations of CNS neurons from injury- and axotomy-induced cell death.
ISSN:0270-6474
1529-2401
DOI:10.1523/jneurosci.17-10-03623.1997