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Energy metabolism in hypoxic astrocytes: Protective mechanism of fructose-1,6-bisphosphate
ArticleAbstract: The protective effects of fructose-1,6-biphosphate (FBP) during hypoxia/ischemia are thought to resuPalabras claves:citric acid, pentose phosphate pathway, Primary cultures, respirationAutores:Chan P.H., Chan T.Y.Y., George A. Gregory, Kelleher J.A.Fuentes:scopusModification of hypoxia-induced injury in cultured rat astrocytes by high levels of glucose
ArticleAbstract: Background and Purpose: Preexisting hyperglycemia exacerbates central nervous system injury after trPalabras claves:astrocytes, glucose, HypoxiaAutores:Chan P., Chan T.Y.Y., George A. Gregory, Kelleher J.A.Fuentes:scopusResponse of cerebral endothelial cells to hypoxia: modification by fructose-1,6-bisphosphate but not glutamate receptor antagonists
ArticleAbstract: Damage to the cerebral endothelium from ischemia could exacerbate brain injury by altering vascularPalabras claves:endothelial cell, fructose-1,6-bisphosphate, glutamate, Hypoxia, ischemia, MK-801Autores:Chan P.H., Chan T.Y.Y., George A. Gregory, Gobbel G.Fuentes:scopusProtection of astrocytes by fructose 1,6-bisphosphate and citrate ameliorates neuronal injury under hypoxic conditions
ArticleAbstract: Fructose 1,6-bisphosphate (FBP) protects astrocytes from hypoxic injury in vitro. To determine whethPalabras claves:citric acid, Co-culture, Fluorocitrate, Fructose 1,6- bisphosphate, Mixed culture, pentose phosphate pathwayAutores:Chan P.H., Chan T.Y.Y., George A. Gregory, Kelleher J.A.Fuentes:scopus