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Neuroprotective Effect of Sanguisorbae Radix against Oxidative Stress-Induced Brain Damage
Sanguisorbae radix (SR), the root of Sanguisorba officinalis L. (Rosaceae), has been traditionally used for its anti-inflammatory, anti-infectious and analgesic activities in Korea. Previous work has shown that SR prevents neuronal cell damage induced by Aβ (25--35) in cultured rat cortical neurons....
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| Published in: | Biological & pharmaceutical bulletin 2008-11, Vol.31 (11), p.2028 |
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| container_issue | 11 |
| container_start_page | 2028 |
| container_title | Biological & pharmaceutical bulletin |
| container_volume | 31 |
| creator | Thuy Ha Nguyen, Thi Ock Cho, Soon Yeon Ban, Ju Yeon Kim, Ju Soo Ju, Hyun Bum Koh, Sang Song, Kyung-Sik Hee Seong, Yeon |
| description | Sanguisorbae radix (SR), the root of Sanguisorba officinalis L. (Rosaceae), has been traditionally used for its anti-inflammatory, anti-infectious and analgesic activities in Korea. Previous work has shown that SR prevents neuronal cell damage induced by Aβ (25--35) in cultured rat cortical neurons. The present study was carried out to further investigate the neuroprotective effect of SR on oxidative stress-induced toxicity in primary culture of rat cortical neurons, and on ischemia-induced brain damage in rats. SR, over a concentration range of 10--50 μg/ml, inhibited H2O2 (100 μM)-induced neuronal death, which was significantly inhibited by MK-801 (5 μM), an N-methyl-D-aspartate (NMDA) receptor antagonist, and verapamil (20 μM), an L-type Ca2+ channel blocker. Pretreatment of SR (10--50 μg/ml), MK-801 (5 μM), and verapamil (20 μM) inhibited H2O2-induced elevation of intracellular Ca2+ concentration ([Ca2+]i) measured by a fluorescent dye, Fluo-4 AM. SR (10--50 μg/ml) inhibited H2O2-induced glutamate release into medium measured by HPLC, and generation of reactive oxygen species (ROS) measured by 2',7'-dichlorodihydrofluorescein diacetate (H2DCFDA). In vivo, SR prevented cerebral ischemic injury induced by 2-h middle cerebral artery occlusion (MCAO) and 24-h reperfusion. The ischemic infarct and edema were significantly reduced in rats that received SR (10, 30 mg/kg, orally), with a corresponding improvement in neurological function. Catechin isolated from SR inhibited H2O2-induced neuronal death in cultures. Taken together, these results suggest that SR inhibits H2O2-induced neuronal death by interfering with the increase of [Ca2+]i, and inhibiting glutamate release and generation of ROS, and that the neuroprotective effect of SR against focal cerebral ischemic injury is due to its anti-oxidative effects. Thus SR might have therapeutic roles in neurodegenerative diseases such as stroke. |
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(Rosaceae), has been traditionally used for its anti-inflammatory, anti-infectious and analgesic activities in Korea. Previous work has shown that SR prevents neuronal cell damage induced by Aβ (25--35) in cultured rat cortical neurons. The present study was carried out to further investigate the neuroprotective effect of SR on oxidative stress-induced toxicity in primary culture of rat cortical neurons, and on ischemia-induced brain damage in rats. SR, over a concentration range of 10--50 μg/ml, inhibited H2O2 (100 μM)-induced neuronal death, which was significantly inhibited by MK-801 (5 μM), an N-methyl-D-aspartate (NMDA) receptor antagonist, and verapamil (20 μM), an L-type Ca2+ channel blocker. Pretreatment of SR (10--50 μg/ml), MK-801 (5 μM), and verapamil (20 μM) inhibited H2O2-induced elevation of intracellular Ca2+ concentration ([Ca2+]i) measured by a fluorescent dye, Fluo-4 AM. SR (10--50 μg/ml) inhibited H2O2-induced glutamate release into medium measured by HPLC, and generation of reactive oxygen species (ROS) measured by 2',7'-dichlorodihydrofluorescein diacetate (H2DCFDA). In vivo, SR prevented cerebral ischemic injury induced by 2-h middle cerebral artery occlusion (MCAO) and 24-h reperfusion. The ischemic infarct and edema were significantly reduced in rats that received SR (10, 30 mg/kg, orally), with a corresponding improvement in neurological function. Catechin isolated from SR inhibited H2O2-induced neuronal death in cultures. Taken together, these results suggest that SR inhibits H2O2-induced neuronal death by interfering with the increase of [Ca2+]i, and inhibiting glutamate release and generation of ROS, and that the neuroprotective effect of SR against focal cerebral ischemic injury is due to its anti-oxidative effects. Thus SR might have therapeutic roles in neurodegenerative diseases such as stroke.</description><identifier>ISSN: 0918-6158</identifier><identifier>EISSN: 1347-5215</identifier><language>eng</language><publisher>Tokyo: Japan Science and Technology Agency</publisher><ispartof>Biological & pharmaceutical bulletin, 2008-11, Vol.31 (11), p.2028</ispartof><rights>Copyright Japan Science and Technology Agency 2008</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784</link.rule.ids></links><search><creatorcontrib>Thuy Ha Nguyen, Thi</creatorcontrib><creatorcontrib>Ock Cho, Soon</creatorcontrib><creatorcontrib>Yeon Ban, Ju</creatorcontrib><creatorcontrib>Yeon Kim, Ju</creatorcontrib><creatorcontrib>Soo Ju, Hyun</creatorcontrib><creatorcontrib>Bum Koh, Sang</creatorcontrib><creatorcontrib>Song, Kyung-Sik</creatorcontrib><creatorcontrib>Hee Seong, Yeon</creatorcontrib><title>Neuroprotective Effect of Sanguisorbae Radix against Oxidative Stress-Induced Brain Damage</title><title>Biological & pharmaceutical bulletin</title><description>Sanguisorbae radix (SR), the root of Sanguisorba officinalis L. (Rosaceae), has been traditionally used for its anti-inflammatory, anti-infectious and analgesic activities in Korea. Previous work has shown that SR prevents neuronal cell damage induced by Aβ (25--35) in cultured rat cortical neurons. The present study was carried out to further investigate the neuroprotective effect of SR on oxidative stress-induced toxicity in primary culture of rat cortical neurons, and on ischemia-induced brain damage in rats. SR, over a concentration range of 10--50 μg/ml, inhibited H2O2 (100 μM)-induced neuronal death, which was significantly inhibited by MK-801 (5 μM), an N-methyl-D-aspartate (NMDA) receptor antagonist, and verapamil (20 μM), an L-type Ca2+ channel blocker. Pretreatment of SR (10--50 μg/ml), MK-801 (5 μM), and verapamil (20 μM) inhibited H2O2-induced elevation of intracellular Ca2+ concentration ([Ca2+]i) measured by a fluorescent dye, Fluo-4 AM. SR (10--50 μg/ml) inhibited H2O2-induced glutamate release into medium measured by HPLC, and generation of reactive oxygen species (ROS) measured by 2',7'-dichlorodihydrofluorescein diacetate (H2DCFDA). In vivo, SR prevented cerebral ischemic injury induced by 2-h middle cerebral artery occlusion (MCAO) and 24-h reperfusion. The ischemic infarct and edema were significantly reduced in rats that received SR (10, 30 mg/kg, orally), with a corresponding improvement in neurological function. Catechin isolated from SR inhibited H2O2-induced neuronal death in cultures. Taken together, these results suggest that SR inhibits H2O2-induced neuronal death by interfering with the increase of [Ca2+]i, and inhibiting glutamate release and generation of ROS, and that the neuroprotective effect of SR against focal cerebral ischemic injury is due to its anti-oxidative effects. 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(Rosaceae), has been traditionally used for its anti-inflammatory, anti-infectious and analgesic activities in Korea. Previous work has shown that SR prevents neuronal cell damage induced by Aβ (25--35) in cultured rat cortical neurons. The present study was carried out to further investigate the neuroprotective effect of SR on oxidative stress-induced toxicity in primary culture of rat cortical neurons, and on ischemia-induced brain damage in rats. SR, over a concentration range of 10--50 μg/ml, inhibited H2O2 (100 μM)-induced neuronal death, which was significantly inhibited by MK-801 (5 μM), an N-methyl-D-aspartate (NMDA) receptor antagonist, and verapamil (20 μM), an L-type Ca2+ channel blocker. Pretreatment of SR (10--50 μg/ml), MK-801 (5 μM), and verapamil (20 μM) inhibited H2O2-induced elevation of intracellular Ca2+ concentration ([Ca2+]i) measured by a fluorescent dye, Fluo-4 AM. SR (10--50 μg/ml) inhibited H2O2-induced glutamate release into medium measured by HPLC, and generation of reactive oxygen species (ROS) measured by 2',7'-dichlorodihydrofluorescein diacetate (H2DCFDA). In vivo, SR prevented cerebral ischemic injury induced by 2-h middle cerebral artery occlusion (MCAO) and 24-h reperfusion. The ischemic infarct and edema were significantly reduced in rats that received SR (10, 30 mg/kg, orally), with a corresponding improvement in neurological function. Catechin isolated from SR inhibited H2O2-induced neuronal death in cultures. Taken together, these results suggest that SR inhibits H2O2-induced neuronal death by interfering with the increase of [Ca2+]i, and inhibiting glutamate release and generation of ROS, and that the neuroprotective effect of SR against focal cerebral ischemic injury is due to its anti-oxidative effects. Thus SR might have therapeutic roles in neurodegenerative diseases such as stroke.</abstract><cop>Tokyo</cop><pub>Japan Science and Technology Agency</pub></addata></record> |
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| title | Neuroprotective Effect of Sanguisorbae Radix against Oxidative Stress-Induced Brain Damage |
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