TY - JOUR
T1 - Altered neuronal and microglial responses to excitotoxic and ischemic brain injury in mice lacking TNF receptors
AU - Bruce, Annadora J.
AU - Boling, Warren
AU - Kindy, Mark S.
AU - Peschon, Jacques
AU - Kraemer, Philipp J.
AU - Carpenter, Melissa K.
AU - Holtsberg, Frederick W.
AU - Mattson, Mark P.
PY - 1996/7
Y1 - 1996/7
N2 - Brain injury, as occurs in stroke or head trauma, induces a dramatic increase in levels of tumor necrosis factor-α (TNF), but its role in brain injury response is unknown. We generated mice genetically deficient in TNF receptors (TNFR-KO) to determine the role of TNF in brain cell injury responses. Damage to neurons caused by focal cerebral ischemia and epileptic seizures was exacerbated in TNFR-KO mice, indicating that TNF serves a neuroprotective function. Oxidative stress was increased and levels of an antioxidant enzyme reduced in brain cells of TNFR-KO mice, indicating that TNF protects neurons by stimulating antioxidant pathways. Injury-induced microglial activation was suppressed in TNFR-KO mice, demonstrating a key role for TNF in injury-induced immune response. Drugs that target TNF signaling pathways may prove beneficial in treating stroke and traumatic brain injury.
AB - Brain injury, as occurs in stroke or head trauma, induces a dramatic increase in levels of tumor necrosis factor-α (TNF), but its role in brain injury response is unknown. We generated mice genetically deficient in TNF receptors (TNFR-KO) to determine the role of TNF in brain cell injury responses. Damage to neurons caused by focal cerebral ischemia and epileptic seizures was exacerbated in TNFR-KO mice, indicating that TNF serves a neuroprotective function. Oxidative stress was increased and levels of an antioxidant enzyme reduced in brain cells of TNFR-KO mice, indicating that TNF protects neurons by stimulating antioxidant pathways. Injury-induced microglial activation was suppressed in TNFR-KO mice, demonstrating a key role for TNF in injury-induced immune response. Drugs that target TNF signaling pathways may prove beneficial in treating stroke and traumatic brain injury.
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U2 - 10.1038/nm0796-788
DO - 10.1038/nm0796-788
M3 - Article
C2 - 8673925
AN - SCOPUS:0029899586
SN - 1078-8956
VL - 2
SP - 788
EP - 794
JO - Nature Medicine
JF - Nature Medicine
IS - 7
ER -