En cours de chargement...
- GLIAL CELL DEVELOPMENT: ORIGIN AND PHENOTYPE ACQUISITION
- Regulation of genes involved in Schwann cell development and differentiation
- Regulation of radial glia phenotype
- Astrocytic intermediate filaments: lessons from GFAP and vimentin knock-out mice
- Glial cells: a target for steroid hormones
- Thyroid hormone role in nervous system morphogenesis
- Early origin and colonization of the developing central nervous system by microglial precursors
- Microglia: its development and role as a neuropathology sensor
- Colonisation of the human central nervous system by microglia: the roles of chemokines and vascular adhesion molecules
- MYELINATION, DEMYELINATION AND REMYELINATION
- Astrocyte influences on oligodendrocyte progenitor migration
- Tenascin-R as a regulator of CNS glial cell function
- Process extension and myelin sheet formation in maturing oligodendrocytes
- Recent advances in human perinatal white matter injury
- Models for demyelination
- The response of adult oligodendrocyte progenitors to demyelination in EAE
- Neural precursors and demyelinating diseases
- What roles do growth factors play in CNS remyelination?
- GLIAL-NEURONAL INTERACTIONS
- Molecular mechanisms of interactions between radial glia and neurons
- Connexins and gap junctional communication in astrocytes are targets for neuroglial interaction
- Glial signaling in response to neuronal activity in the leech central nervous system
- Glial cells as active partners in synaptic functions
- Calcium signaling in retinal glial cells and its effect on neuronal activity
- Neuron-astrocyte cross-talk during synaptic transmission: physiological and neuropathological implications
- Regulation of glutamate transporters in health and disease
- Ionotropic glutamate receptors in astrocytes
- Metabotropic glutamate receptors in freshly isolated astrocytes from rat hippocampus
- The pleiotropin/midkine family of cytokines: role in glial-neuronal signaling
- The nitric oxide/cyclic GMP system in astroglial cells
- Glial diffusion barriers during aging and pathological states
- GLIAL RESPONSE TO INJURY AND MOLECULAR MECHANISMS OF NEUROPROTECTION
- Glial cell responses to lipids bound to albumin in serum and plasma
- Glial activation in the immature rat brain: implication of inflammatory transcription factors and cytokine expression
- Role of nuclear factor kappa B in neuropathological mechanisms
- Ischemia: astrocytes show their sensitive side
- Adaptative responses of spinal astrocytes to oxidative stress
- Glial expression of heat shock proteins (HSPs) and oxygen-regulated proteins (ORPs)
- Nitric oxide-mediated mitochondrial impairment in neural cells: a role for glucose metabolism in neuroprotection
- Keeping TNF-induced apoptosis under control in astrocytes: PEA-15 as a 'double key' on caspase-dependent and MAP-kinase-dependent pathways
- Astroglia play a key role in the neuroprotectioe actions of estrogen
- INFLAMMATION AND CYTOKINE SIGNALLING
- Cytokine-mediated inflammation and signaling in the intact central nervous system
- Inhibition of nitric oxide production for down-regulation of CNS inflammation and demyelination
- Chemokine targets in acute brain injury and disease
- Microglial chemokines and chemokine receptors
- The role of chemokines and chemokine receptors in CNS inflammation
- Signals regulating neurotrophin expression in glial cells
- Microglial signaling cascades in neurodegenerative disease
- REPAIR AND REGENERATION
- Transcription factors in nerve regeneration
- The role of astrocytes in axonal regeneration in the mammalian CNS
- Chondroitin sulphate proteoglycans: inhibitory components of the glial scar
- Axon regeneration across the dorsal root entry zone
- Transplants of olfactory bulb ensheathing cells promote functional repair of multiple dorsal rhizotomy
- Regulatable and cell-type specific transgene expression in glial cells: prospects for gene therapy for neurological disorders
- THERAPEUTICAL APPROACHES TO TUMOURS, VIRAL AND PRION INFECTIONS
- Immune escape of gliomas
- Clinical trials of adenoviral-mediated suicide gene therapy of malignant gliomas
- Gene therapy of glioblastomas: from suicide to homicide
- Glial cells as targets of viral infection in the human central nervous system
- Pathogenesis of prion diseases: possible implications of microglial cells