The mTOR pathway is activated in glial cells in mesial temporal sclerosis

Keyphrases

• Glial Cells 100%
• Mammalian Target of Rapamycin (mTOR) 100%
• Temporal Lobe 100%
• Mammalian Target of Rapamycin Pathway 100%
• Temporal Lobe Epilepsy 77%
• Sclerotic 55%
• Phospho-S6 55%
• Epilepsy 33%
• Hippocampus 33%
• Microglia 22%
• Tuberous Sclerosis Complex 22%
• Astrocytes 22%
• Astrogliosis 22%
• Astroglial Scar 22%
• Pilocarpine Model 22%
• Human Neocortex 22%
• Tuber 11%
• Protein Kinase 11%
• Magnetic Resonance Imaging 11%
• Scar 11%
• Pathologic 11%
• Neocortex 11%
• Neuronal Loss 11%
• Human Tissue 11%
• Cellular Changes 11%
• Cellular Processes 11%
• Normal Human 11%
• Medical Therapy 11%
• Cortical Astrocytes 11%
• Neocortical 11%
• Scar Tissue 11%
• Confocal Microscopy 11%
• Immunoreactivity 11%
• Immunostaining 11%
• Brain Malformation 11%
• Immunopositivity 11%
• Human Hippocampus 11%
• Developmental Brain 11%
• Astroglial Cells 11%
• Immunohistochemical Investigation 11%
• Pilocarpine-induced Epilepsy 11%
• Preserved Areas 11%
• Cortical Tuber 11%
• Epileptic Hippocampus 11%
• Cellular Alterations 11%

Neuroscience

• Mammalian Target of Rapamycin 100%
• Microglia 100%
• Hippocampal Sclerosis 100%
• Mesial Temporal Lobe Epilepsy 70%
• Hippocampus 50%
• Pilocarpine 30%
• Astrocyte 30%
• Astrogliosis 20%
• Tuberous Sclerosis 20%
• Protein Kinases 10%
• Magnetic Resonance Imaging 10%
• Confocal Microscopy 10%
• Cortical Malformation 10%
• Immunohistochemistry 10%