Complement emerges as a masterful regulator of CNS homeostasis, neural synaptic plasticity and cognitive function

Experimental Neurology

Volumn 261, Issue , 2014, Pages 469-474

  Mastellos, Dimitrios C ^a  

^a INSTITUTE OF NANOSCIENCE AND NANOTECHNOLOGY   (Greece)

Author keywords

Complement; Hippocampal activity; Microglia; Neural plasticity; Neurogenesis; Synaptic remodeling

Indexed keywords

COMPLEMENT; COMPLEMENT COMPONENT C1Q; COMPLEMENT COMPONENT C3; COMPLEMENT COMPONENT C3B; COMPLEMENT COMPONENT C5A; COMPLEMENT COMPONENT C5A RECEPTOR; COMPLEMENT COMPONENT C3A;

ANIMAL BEHAVIOR; COGNITION; CONNECTOME; HIPPOCAMPUS; HOMEOSTASIS; HUMAN; MICROGLIA; MOLECULAR MECHANICS; NERVE CELL PLASTICITY; NERVOUS SYSTEM DEVELOPMENT; NONHUMAN; NOTE; PRIORITY JOURNAL; PROTEIN EXPRESSION; REGULATORY MECHANISM; SPATIAL LEARNING; SYNAPTIC POTENTIAL; ANIMAL; CENTRAL NERVOUS SYSTEM; CYTOLOGY; METABOLISM; MOUSE; PHYSIOLOGY; BRAIN CORTEX; BRAIN DISEASE; BRAIN FUNCTION; CELL ACTIVATION; DOWN REGULATION; GENICULATE BODY; IMMUNE RESPONSE; IMMUNOREGULATION; POSTNATAL DEVELOPMENT; PROTEIN INTERACTION; RETINOGENICULATE SYSTEM; SIGNAL TRANSDUCTION; SYNAPTIC TRANSMISSION; SYNAPTOGENESIS;

ANIMALS; CENTRAL NERVOUS SYSTEM; COGNITION; COMPLEMENT SYSTEM PROTEINS; HOMEOSTASIS; MICE; NEURONAL PLASTICITY;

EID: 84905975167     PISSN: 00144886     EISSN: 10902430     Source Type: Journal    
DOI: 10.1016/j.expneurol.2014.06.019     Document Type: Note

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