Glial cells contribute more to iron and aluminum accumulation but are more resistant to oxidative stress than neuronal cells

Biochimica et Biophysica Acta - Molecular Basis of Disease

Volumn 1502, Issue 3, 2000, Pages 405-414

  Oshiro, Satoru ^a   Kawahara, Masahiro ^b   Kuroda, Yoichiro ^b   Zhang, Chun ^a   Cai, Yong ^a   Kitajima, Shigetaka ^a   Shirao, Mika ^c  

^a TOKYO MEDICAL AND DENTAL UNIVERSITY   (Japan)

^b TOKYO METROPOLITAN INSTITUTE OF MEDICAL SCIENCE   (Japan)

^c NATIONAL INSTITUTE OF PUBLIC HEALTH   (Japan)

Author keywords

Aluminum; Alzheimer's disease; Glial cell; Neuronal cell; Oxidative stress; Transferrin independent iron uptake system

Indexed keywords

ALUMINUM; IRON; REACTIVE OXYGEN METABOLITE;

ALZHEIMER DISEASE; ANIMAL CELL; ARTICLE; BIOACCUMULATION; CHEMOLUMINESCENCE; CONTROLLED STUDY; EMBRYO; GLIA CELL; IRON TRANSPORT; NERVE CELL; NERVE DEGENERATION; NONHUMAN; OXIDATIVE STRESS; PRIORITY JOURNAL; RAT;

ALUMINUM; ALZHEIMER DISEASE; ANIMAL; CALCIUM; CELLS, CULTURED; CEREBRAL CORTEX; COMPARATIVE STUDY; DOSE-RESPONSE RELATIONSHIP, DRUG; GENE EXPRESSION REGULATION; IRON; NEUROGLIA; NEURONS; OXIDATIVE STRESS; RATS; RATS, WISTAR; REACTIVE OXYGEN SPECIES; RECEPTORS, TRANSFERRIN; RNA, MESSENGER; TEMPERATURE; TRANSFERRIN;

EID: 0034670065     PISSN: 09254439     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0925-4439(00)00065-X     Document Type: Article

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