Activité, Système Moteur & Coordination
Douleur - Allodynie/Hyperalgésie Thermique
Douleur - Spontanée - Déficit de Posture
Douleur - Allodynie/Hyperalgésie Mécanique
Anxiété & Dépression
Apprentissage/Mémoire - Attention - Addiction
Physiologie & Recherche Respiratoire
Métabolisme & Prise Alimentaire
Douleur
Métabolisme
Système moteur
Neurodégénérescence
Thématiques transversales
Système musculaire
Functions de motricité générale
Troubles de l'humeur
Other disorders
Joints
Système Nerveux Central (SNC)
Système sensoriel
Authors
Z Pu, S Xia, P Shao et al
Lab
Nanjing University, Nanjing, P.R. China
Journal
Brain Sciences
Abstract
Inflammatory reaction after ischemia-reperfusion contributes significantly to prognosis, and microglia activation is the main resource of inflammation in nervous system. STAT5 is proving to be a highly effective anti-inflammatory therapy with great potential, and inhibition of STAT5 has demonstrated significant anti-inflammation and therapeutic effects, but rarely focus on mechanism of neuroinflammation and brain injury from ischemia-reperfusion. It is the first time to found that the anti-inflammation of dauricine is mainly through STAT5-NF-kappa B pathway, might act as a STAT5 inhibitor. Dauricine suppressed the inflammation cytokines Eotaxin, KC, TNF-alpha, IL-1alpha, IL-1beta, IL-6, IL-12beta, IL-17alpha, and also inhibited the microglia activation. STAT5b mutant at Tyr-699 reversed the protective effect of dauricine on oxygen-glucose deprivation-reperfusion injury of neurons, and re activated the suppression of dauricine on P-NF-kappa B of microglia. These results suggest that dauricine might suppress the neuroinflammation and protect the neuron from the injury of post-ischemia reperfusion via mediating the microglia activation through STAT5-NF-kapp B pathway, and as a potential therapeutic target for neuroinflammation, STAT5 needs to be raised concern in ischemic stroke
BIOSEB Instruments Used:
Grip strength test (BIO-GS3)
