ININFA   02677
INSTITUTO DE INVESTIGACIONES FARMACOLOGICAS
Unidad Ejecutora - UE
artículos
Título:
S100B alters neuronal survival and dendrite extension via RAGE-mediated NF-êB signaling.
Autor/es:
VILLARREAL A, AVILES REYES RX, ANGELO MF, REINES A, RAMOS AJ.
Revista:
JOURNAL OF NEUROCHEMISTRY
Editorial:
WILEY-BLACKWELL PUBLISHING, INC
Referencias:
Año: 2010
ISSN:
0022-3042
Resumen:
S100B is a soluble protein secreted by astrocytes that exerts pro-survival or pro-apoptotic
effects depending on the concentration reached in the extracellular millieu. The S100B
receptor termed RAGE (for Receptor for Advanced End Glycation Products) is highly
expressed in the developing brain but is undetectable in normal adult brain. Here, we
show that RAGE expression is induced in cortical neurons of the ischemic penumbra.
Increased RAGE expression was also observed in primary cortical neurons exposed to
excitotoxic glutamate (EG). S100B exerts effects on survival pathways and neurite
extension when the cortical neurons have been previously exposed to EG and these
S100B effects were prevented by anti-RAGE blocking antibodies. Further, NF-êB is
activated by S100B in a dose- and RAGE-dependent manner and neuronal death induced
by NF-êB inhibition was prevented by S100B that restored NF-êB activation levels.
Together, these findings suggest that excitotoxic damage can induce RAGE expression in
neurons from ischemic penumbra and demonstrate that cortical neurons respond to
S100B through engagement of RAGE followed by activation of NF-êB signaling. In
addition, basal NF-êB activity in neurons is crucial to modulate the extent of pro-survival
or pro-death S100B effects.êB is
activated by S100B in a dose- and RAGE-dependent manner and neuronal death induced
by NF-êB inhibition was prevented by S100B that restored NF-êB activation levels.
Together, these findings suggest that excitotoxic damage can induce RAGE expression in
neurons from ischemic penumbra and demonstrate that cortical neurons respond to
S100B through engagement of RAGE followed by activation of NF-êB signaling. In
addition, basal NF-êB activity in neurons is crucial to modulate the extent of pro-survival
or pro-death S100B effects.êB inhibition was prevented by S100B that restored NF-êB activation levels.
Together, these findings suggest that excitotoxic damage can induce RAGE expression in
neurons from ischemic penumbra and demonstrate that cortical neurons respond to
S100B through engagement of RAGE followed by activation of NF-êB signaling. In
addition, basal NF-êB activity in neurons is crucial to modulate the extent of pro-survival
or pro-death S100B effects.êB signaling. In
addition, basal NF-êB activity in neurons is crucial to modulate the extent of pro-survival
or pro-death S100B effects.êB activity in neurons is crucial to modulate the extent of pro-survival
or pro-death S100B effects.