Inflammation Promotes a Conversion of Astrocytes into Neural Progenitor Cells via NF-κB Activation.

Brain inflammation, a common feature in neurodegenerative diseases, is a complex series of events, which can be detrimental and even lead to neuronal death. Nonetheless, several studies suggest that inflammatory signals are also positively influencing neural cell proliferation, survival, migration, and differentiation. Recently, correlative studies suggested that astrocytes are able to dedifferentiate upon injury and may thereby re-acquire neural stem cell (NSC) potential.

An efficient method to limit microglia-dependent effects in astroglial cultures.

Microglia, the CNS resident macrophages, and astrocytes, the most abundant glial cell population, are both implicated in brain pathologies and can exhibit a pro-inflammatory phenotype. Microglial cells are known to rapidly and strongly react to brain insults. They will promote astrocyte activation and may lead to a vicious, self-perpetuating cycle of chronic inflammation.

Jagged1 regulates the activation of astrocytes via modulation of NFkappaB and JAK/STAT/SOCS pathways.

The Notch pathway is implicated in many aspects of the central nervous system (CNS) development and functions. Recently, we and others identified the Notch pathway to be involved in inflammatory events of the CNS. To understand the implication of this pathway on astrocytes, we have studied the Jagged-Notch-Hes pathway under inflammatory conditions.