• Title/Summary/Keyword: Amyloid beta 25-35

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Moutan Cortex Extract Inhibits Amyloid ${\beta}$ Protein (25-35)-induced Neurotoxicity in Cultured Rat Cortical Neurons (Amyloid ${\beta}$ 2 Protein (25-35) 유도 배양신경세포 독성에 대한 목단피의 억제효과)

  • Kim, Joo-Youn;Ju, Hyun-Soo;Ban, Ju-Yeon;Song, Kyung-Sik;Seong, Yeon-Hee
    • Korean Journal of Medicinal Crop Science
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    • v.16 no.6
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    • pp.409-415
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    • 2008
  • Moutan cortex, the root bark of Paeonia suffruticosa Andrews (Paeoniaceae), has pharmacological effects such as anti-inflammatory, antiallergic, analgesic and antioxidant activities. We investigated a methanol extract of Moutan cortex for neuroprotective effects on neurotoxicity induced by amyloid ${\beta}$ protein ($A{\beta}$) (25-35) in cultured rat cortical neurons. Exposure of cultured cortical neurons to $10\;{\mu}M\;A{\beta}$ (25-35) for 24 h induced neuronal apoptotic death. Moutan cortex inhibited $10\;{\mu}M\;A{\beta}$ (25-35)-induced neuronal cell death at 30 and $50\;{\mu}g/m{\ell}$, which was measured by a 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl-tetrazolium bromide (MTT) assay and Hoechst 33342 staining. Moutan cortex inhibited $10\;{\mu}M\;A{\beta}$ (25-35)-induced elevation of intracellular calcium concentration ($[Ca^{2+}]_i$), and generation of reactive oxygen species (ROS) which were measured by fluorescent dyes. Moutan cortex also inhibited glutamate release into medium induced by $10\;{\mu}M\;A{\beta}$ (25-35), which was measured by HPLC. These results suggest that Moutan cortex prevents $A{\beta}$ (25-35)-induced neuronal cell damage by interfering with the increase of $[Ca^{2+}]_i$, and then inhibiting glutamate release and ROS generation. Moutan cortex may have a therapeutic role in preventing the progression of Alzheimer's disease.

Korean Mistletoe (Viscum album var. coloratum) Inhibits Amyloid β Protein (25-35)-induced Cultured Neuronal Cell Damage and Memory Impairment

  • Jang, Ji Yeon;Kim, Se-Yong;Song, Kyung-Sik;Seong, Yeon Hee
    • Natural Product Sciences
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    • v.21 no.2
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    • pp.134-140
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    • 2015
  • The present study aims to investigate the effect of methanol extract of Korean mistletoe (KM; Viscum album var. coloratum), on amyloid $\beta$ protein ($A\beta$) (25-35), a synthetic 25-35 amyloid peptide, -induced neurotoxicity in cultured rat cerebral cortical neurons and memory impairment in mice. Exposure of cultured neurons to $10{\mu}M$ $A\beta$ (25-35) for 24 h induced a neuronal cell death, which was measured by a 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl-tetrazolium bromide (MTT) assay and Hoechst 33342 staining. KM (10, 30 and $50{\mu}g/ml$) significantly inhibited the $A\beta$ (25-35)-induced apoptotic neuronal death. KM ($50{\mu}g/ml$) inhibited 10 μM Aβ (25-35)-induced elevation of intracellular calcium concentration ([Ca2+]i), which was measured by a fluorescent dye, Fluo-4 AM. Glutamate release into medium and generation of reactive oxygen species (ROS) induced by $10{\mu}M$ $A\beta$ (25-35) were also inhibited by KM (10, 30 and $50{\mu}g/ml$). These results suggest that KM may mitigate the $A\beta$ (25-35)-induced neurotoxicity by interfering with the increase of [Ca2+]i and then inhibiting glutamate release and generation of ROS in cultured neurons. In addition, orally administered KM (25 and 50 mg/kg, 7 days) significantly prevented memory impairment induced by intracerebroventricular injection of $A\beta$ (25-35) (8 nmol). Taken together, it is suggested that anti-dementia effect of KM is due to its neuroprotective effect against $A\beta$ (25-35)-induced neurotoxicity and that KM may have therapeutic role in prevention of the progression of Alzheimer's disease.

Cyanidin-3-glucoside inhibits amyloid β25-35-induced neuronal cell death in cultured rat hippocampal neurons

  • Yang, Ji Seon;Jeon, Sujeong;Yoon, Kee Dong;Yoon, Shin Hee
    • The Korean Journal of Physiology and Pharmacology
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    • v.22 no.6
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    • pp.689-696
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    • 2018
  • Increasing evidence implicates changes in $[Ca^{2+}]_i$ and oxidative stress as causative factors in amyloid beta ($A{\beta}$)-induced neuronal cell death. Cyanidin-3-glucoside (C3G), a component of anthocyanin, has been reported to protect against glutamate-induced neuronal cell death by inhibiting $Ca^{2+}$ and $Zn^{2+}$ signaling. The present study aimed to determine whether C3G exerts a protective effect against $A{\beta}_{25-35}$-induced neuronal cell death in cultured rat hippocampal neurons from embryonic day 17 fetal Sprague-Dawley rats using MTT assay for cell survival, and caspase-3 assay and digital imaging methods for $Ca^{2+}$, $Zn^{2+}$, MMP and ROS. Treatment with $A{\beta}_{25-35}$ ($20{\mu}M$) for 48 h induced neuronal cell death in cultured rat pure hippocampal neurons. Treatment with C3G for 48 h significantly increased cell survival. Pretreatment with C3G for 30 min significantly inhibited $A{\beta}_{25-35}$-induced $[Zn^{2+}]_i$ increases as well as $[Ca^{2+}]_i$ increases in the cultured rat hippocampal neurons. C3G also significantly inhibited $A{\beta}_{25-35}$-induced mitochondrial depolarization. C3G also blocked the $A{\beta}_{25-35}$-induced formation of ROS. In addition, C3G significantly inhibited the $A{\beta}_{25-35}$-induced activation of caspase-3. These results suggest that cyanidin-3-glucoside protects against amyloid ${\beta}$-induced neuronal cell death by reducing multiple apoptotic signals.

Protective Effect of Sanguisorba officinalis L. Root on Amyloid ${\beta}$ Protein (25-35)-induced Neuronal Cell Damage in Cultured Rat Cortical Neuron

  • Ban, Ju-Yeon;Cho, Soon-Ock;Jeon, So-Young;Song, Kyung-Sik;Bae, Ki-Hwan;Seong, Yeon-Hee
    • Korean Journal of Medicinal Crop Science
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    • v.13 no.5
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    • pp.219-226
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    • 2005
  • Sanguisorbae radix (SR) from Sanguisorba officinalis L. (Losaceae) is widely used in Korea and China due to its various pharmacological activity. The present study aims to investigate the effect of the methanol extract of SR on amyloid ${\beta}$ Protein(25-35) $(A{\beta}\;(25-35))$, a synthetic 25-35 amyloid peptide, -induced neurotoxicity using cultured rat cortical neurons. SR, over a concentration range of $10-50\;{\mu}g/ml$, inhibited the $A{\beta}$ (25-35) $(10\;{\mu}M)-induced$ neuronal cell death, as assessed by a 3-[4,5-dimethylthiazole-2-yl]-2,5-diphenyl-tetrazolium bromide (MTT) assay and the number of apoptotic nuclei, evidenced by Hoechst 33342 staining. Pretreatment of SR $(50\;{\mu}g/ml)$ inhibited $10\;{\mu}M\;A{\beta}$ (25-35)-induced} elevation of cytosolic calcium concentration $([Ca^{2+}]c)$, which was measured by a fluorescent dye, fluo-4 AM. SR $(10\;and\;50\;{\mu}g/ml)$ inhibited glutamate release into medium induced by $10\;{\mu}M\;A{\beta}(25-35)$, which was measured by HPLC, and generation of reactive oxygen species. These results suggest that SR prevents $A{\beta}$ (25-35)-induced neuronal cell damage in vitro.

Protection of Amyloid ${\beta}$ Protein (25-35)-induced Neuronal Cell Damage by Methanol Extract of New Stem of Phyllostachys nigra Munro var. henonis Stapf in Cultured Rat Cortical Neuron

  • Ban, Ju-Yeon;Cho, Soon-Ock;Kwon, Soon-Ho;Kim, Jin-Bae;Song, Nak-Sul;Bae, Ki-Whan;Song, Kyung-Sik;Seng, Yeon-Hee
    • Korean Journal of Medicinal Crop Science
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    • v.13 no.2
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    • pp.95-102
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    • 2005
  • Caulis Bambusae in Taenia is widely used in Korea and China due to its various pharmacological activity. The present study aims to investigate the effect of the methanol extract of Caulis Bambusae in Taenia (CB) from Phyllostachys nigra Munro var. henonis Stapf (Gramineae) on amyloid ${\beta}$ protein (25-35) $(A{\beta}\;(25-35))$, a synthetic 25-35 amyloid peptide, -induced neurotoxicity using cultured rat cortical neurons. CB, over a concentration range of $10-50{\mu}g/{\mu}l$, inhibited the $A{\beta}\;(25-35)\;(10\;{\mu}M)$-induced neuronal cell death, as assessed by a 3-[4,5-dimethyIthiazole-2-yl]-2,5-diphenyl-tetrazolium bromide (MTT) assay and the number of apoptotic nuclei, evidenced by Hoechst 33342 staining. CB $(50\;{\mu}g/{\mu}l)$ inhibited glutamate release into medium induced by $10\;{\mu}M\;A{\beta}$, (25-35) which was measured by HPLC. Pretreatment of CB $(50\;{\mu}g/{\mu}l)$ inhibited $10{\mu}M\;A{\beta}$ (25-35)-induced elevation of cytosolic calcium concentration $([Ca^{2+}]_c)$, which was measured by a fluorescent dye, fluo-4 AM, and generation of reactive oxygen species. These results suggest that CB prevents $A{\beta}$ (25-35)-induced neuronal ell damage in vitro.

Inhibitory Effect of Chaenomeles sinensis Fruit on Amyloid β Protein (25-35)-Induced Neurotoxicity in Cultured Neurons and Memory Impairment in Mice (Amyloid β protein (25-35)-유도 배양신경 세포독성 및 마우스기억손상에 대한 목과의 억제효과)

  • Jung, Myung-Hwan;Song, Kyung-Sik;Seong, Yeon-Hee
    • Korean Journal of Medicinal Crop Science
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    • v.20 no.1
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    • pp.8-15
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    • 2012
  • The present study investigated an ethanol extract of Chaenomeles sinensis fruit (CSF) for possible neuroprotective effects on neurotoxicity induced by amyloid ${\beta}$ protein ($A{\beta}$) (25-35) in cultured rat cortical neurons and also for antidementia activity in mice. Exposure of cultured cortical neurons to $10{\mu}M\;A{\beta}$ (25-35) for 36 h induced neuronal apoptotic death. At $0.1-10{\mu}g/m{\ell}$, CSF inhibited neuronal death, elevation of intracellular calcium concentration ($[Ca^{2+}]_i$), and generation of reactive oxygen species (ROS) induced by $A{\beta}$ (25-35) in primary cultures of rat cortical neurons. Memory loss induced by intracerebroventricular injection of mice with 15 nmol $A{\beta}$ (25-35) was inhibited by chronic treatment with CSF (10, 25 and 50 mg/kg, p.o. for 7 days) as measured by a passive avoidance test. CSF (50 mg/kg) inhibited the increase of cholinesterase activity in $A{\beta}$ (25-35)-injected mice brain. From these results, we suggest that the antidementia effect of CSF is due to its neuroprotective effect against $A{\beta}$ (25-35)-induced neurotoxicity and that CSF may have a therapeutic role for preventing the progression of Alzheimer's disease.

Molecular Dynamics Simulations on β Amyloid Peptide (25-35) in Aqueous Trifluoroethanol Solution

  • Lee, Sang-Won;Kim, Yang-Mee
    • Bulletin of the Korean Chemical Society
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    • v.25 no.6
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    • pp.838-842
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    • 2004
  • Amyloid peptide (A${\beta}$) is the major component of senile plaques found in the brain of patient of Alzheimer's disease. ${\beta}$-amyloid peptide (25-35) (A${\beta}$25-35) is biologically active fragment of A${\beta}$. The three-dimensional structure of A${\beta}$25-35 in aqueous solution with 50% (vol/vol) TFE determined by NMR spectroscopy previously adopts an ${\alpha}$-helical conformation from $Ala^{30}$ to $Met^{35}$. It has been proposed that A${\beta}$(25-35) exhibits pH- and concentration-dependent ${\alpha}-helix{\leftrightarrow}{\beta}$sheet transition. This conformational transition with concomitant peptide aggregation is a possible mechanism of plaque formation. Here, in order to gain more insight into the mechanism of ${\alpha}$-helix formation of A${\beta}$25-35 peptide by TFE, which particularly stabilizes ${\alpha}$-helical conformation, we studied the secondary-structural elements of A${\beta}$25-35 peptide by molecular dynamics simulations. Secondary structural elements determined from NMR spectroscopy in aqueous TFE solution are preserved during the MD simulation. TFE/water mixed solvent has reduced capacity for forming hydrogen bond to the peptide compared to pure water solvent. TFE allows A${\beta}$25-35 to form bifurcated hydrogen bonds to TFE as well as to residues in peptide itself. MD simulation in this study supports the notion that TFE can act as an ${\alpha}$-helical structure forming solvent.

Inhibitory Effect of an Ethanol Extract Mixture of Vitis amurensis, Aralia cordata, and Glycyrrhizae radix on Amyloid β Protein (25-35)-Induced Neurotoxicity (머루전초, 독활전초, 감초 혼합추출물의 Amyloid β Protein (25-35) 유발 신경 독성에 대한 억제효과)

  • Jang, Ji Yeon;Seong, Yeon Hee
    • Korean Journal of Medicinal Crop Science
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    • v.22 no.2
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    • pp.105-112
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    • 2014
  • The present study investigated an ethanol extract (SSB) of a mixture of three medicinal plants of Vitis amurensis, Aralia cordata, and Glycyrrhizae radix for possible neuroprotective effects on neurotoxicity induced by Amyloid ${\beta}$ protein ($A{\beta}$) (25-35) in cultured rat cortical neurons and antidementia activity in mice. Exposure of cultured cortical neurons to $15{\mu}M$ $A{\beta}$ (25-35) for 36 h induced neuronal apoptotic death. At $1-30{\mu}g/m{\ell}$, SSB inhibited neuronal death, elevation of intracellular calcium concentration ($[Ca^{2+}]_i$), and generation of reactive oxygen species (ROS) induced by $A{\beta}$ (25-35) in cultured cortical neurons. Memory impairment and increase of acetylcholinesterase activity induced by intracerebroventricular injection of mice with 16 nmol $A{\beta}$ (25-35) was inhibited by chronic treatment with SSB (25, 50 and 100 mg/kg, p.o., for 8 days). From these results, it is suggested that antidementia effect of SSB is due to its neuroprotective effect against $A{\beta}$ (25-35)-induced neurotoxicity and that SSB may have a therapeutic role in preventing the progression of Alzheimer's disease.

Perilla frutescens var. japonica and rosmarinic acid improve amyloid-β25-35 induced impairment of cognition and memory function

  • Lee, Ah Young;Hwang, Bo Ra;Lee, Myoung Hee;Lee, Sanghyun;Cho, Eun Ju
    • Nutrition Research and Practice
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    • v.10 no.3
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    • pp.274-281
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    • 2016
  • BACKGROUND/OBJECTIVES: The accumulation of amyloid-${\beta}$ ($A{\beta}$) in the brain is a hallmark of Alzheimer's disease (AD) and plays a key role in cognitive dysfunction. Perilla frutescens var. japonica extract (PFE) and its major compound, rosmarinic acid (RA), have shown antioxidant and anti-inflammatory activities. We investigated whether administration of PFE and RA contributes to cognitive improvement in an $A{\beta}_{25-35}$-injected mouse model. MATERIALS/METHODS: Male ICR mice were intracerebroventricularly injected with aggregated $A{\beta}_{25-35}$ to induce AD. $A{\beta}_{25-35}$-injected mice were fed PFE (50 mg/kg/day) or RA (0.25 mg/kg/day) for 14 days and examined for learning and memory ability through the T-maze, object recognition, and Morris water maze test. RESULTS: Our present study demonstrated that PFE and RA administration significantly enhanced cognition function and object discrimination, which were impaired by $A{\beta}_{25-35}$, in the T-maze and object recognition tests, respectively. In addition, oral administration of PFE and RA decreased the time to reach the platform and increased the number of crossings over the removed platform when compared with the $A{\beta}_{25-35}$-induced control group in the Morris water maze test. Furthermore, PFE and RA significantly decreased the levels of nitric oxide (NO) and malondialdehyde (MDA) in the brain, kidney, and liver. In particular, PFE markedly attenuated oxidative stress by inhibiting production of NO and MDA in the $A{\beta}_{25-35}$-injected mouse brain. CONCLUSIONS: These results suggest that PFE and its active compound RA have beneficial effects on cognitive improvement and may help prevent AD induced by $A{\beta}$.

Effects of Bombusae concretio Salicea on $Amyloid-{\beta}$-induced Neuronal Cell Toxicity and Lipid Peroxidation in Cultured Rat Astrocytes (흰쥐 astrocyte에 있어서 $amyloid-{\beta}$에 의한 독성과 지질과산화에 미치는 천축황(天竺黃)의 영향)

  • Lee Woo-Heon;Jeong Ji-Cheon
    • The Journal of Internal Korean Medicine
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    • v.19 no.2
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    • pp.381-391
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    • 1998
  • The present study was done to investigate the effects of Bombusae concretio Salicea (BCS) on cultured astrocyte cell system and lipid peroxidation in $A{\beta}25-35$ treatment conditions. Cell killing was significantly enhanced by addition of increasing concentrations of $A{\beta}25-35$. Pretreatment of BCS attenuated in cell killing enhanced by increasing concentrations of $A{\beta}25-35$. MDA level induced by $A{\beta}25-35$ treatment was significantly increased and the level was slightly reduced by pretreatment of BCS. The present study showed that $A{\beta}25-35$ strongly increased MDA level and the level was enhanced by addition of increasing concentrations of In conclusion, it was shown that $A{\beta}25-35$ is not only potent lipid peroxide inducer, but also cause protection of neurodegeneration induced by $A{\beta}25-35$. It can be concluded that the activation of antioxidative enzymes may be related to the inhibition of lipid peroxidative reactions. We cannot fully explain to effects of BCS at present; however, the ability of BCS to reduce cell killing and MDA level induced by $A{\beta}25-35$ suggest that BCS may be a protective agent for free radical generating compounds such as $A{\beta}25-35$.

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