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The potassium channel KCa3.1 constitutes a pharmacological target for astrogliosis associated with ischemia stroke
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نویسنده
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yi m. ,wei t. ,wang y. ,lu q. ,chen g. ,gao x. ,geller h.m. ,chen h. ,yu z.
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منبع
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journal of neuroinflammation - 2017 - دوره : 14 - شماره : 1
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چکیده
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Background: reactive astrogliosis is one of the significantly pathological features in ischemic stroke accompanied with changes in gene expression,morphology,and proliferation. kca3.1 was involved in tgf-β-induced astrogliosis in vitro and also contributed to astrogliosis-mediated neuroinflammation in neurodegeneration disease. methods: wild type mice and kca3.1-/- mice were subjected to permanent middle cerebral artery occlusion (pmcao) to evaluate the infarct areas by 2,3,5-triphenyltetrazolium hydrochloride staining and neurological deficit. kca3.1 channels expression and cell localization in the brain of pmcao mice model were measured by immunoblotting and immunostaining. glia activation and neuron loss was measured by immunostaining. dibac4 (3) and fluo-4am were used to measure membrane potential and cytosolic ca2+ level in oxygen-glucose deprivation induced reactive astrocytes in vitro. results: immunohistochemistry on pmcao mice infarcts showed strong upregulation of kca3.1 immunoreactivity in reactive astrogliosis. kca3.1-/- mice exhibited significantly smaller infarct areas on pmcao and improved neurological deficit. both activated gliosis and neuronal loss were attenuated in kca3.1-/- pmcao mice. in the primary cultured astrocytes,the expressions of kca3.1 and trpv4 were increased associated with upregulation of astrogliosis marker gfap induced by oxygen-glucose deprivation. the activation of kca3.1 hyperpolarized membrane potential and,by promoting the driving force for calcium,induced calcium entry through trpv4,a cation channel of the transient receptor potential family. double-labeled staining showed that kca3.1 and trpv4 channels co-localized in astrocytes. blockade of kca3.1 or trpv4 inhibited the phenotype switch of reactive astrogliosis. conclusions: our data suggested that kca3.1 inhibition might represent a promising therapeutic strategy for ischemia stroke. © 2017 the author(s).
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کلیدواژه
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Astrocytes; Calcium; GFAP; Ischemia; Mouse
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آدرس
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shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, shanghai jiao tong university,experimental teaching center of basic medicine,school of medicine,shanghai,200025, China, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, national institutes of health,developmental neurobiology section,division of intramural research,national heart,lung,and blood institute,bethesda,md 20892, United States, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China, shanghai jiao tong university school of medicine,department of pharmacology,institute of medical sciences,shanghai,200025, China
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Authors
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