BACKGROUND: Studies have shown that scorpion venom heat-resistant protein (SVHRP) exhibits protective effects on primary cultured hippocampal neurons. OBJECTIVE: To determine the effects of SVHRP on astrocyte acti...BACKGROUND: Studies have shown that scorpion venom heat-resistant protein (SVHRP) exhibits protective effects on primary cultured hippocampal neurons. OBJECTIVE: To determine the effects of SVHRP on astrocyte activity and synaptic density in the hippocampus induced by amyloid β peptide 1-40 (Aβ1-40) neurotoxicity. DESIGN, TIME AND SETTING: The randomized, controlled, animal experiment was performed at the Central Laboratory, the Laboratory of Human Anatomy, and the Laboratory of Physiology, in Dalian Medical University between March 2006 and June 2008. MATERIALS: Aβ1-40 was provided by Biosource, USA; SVHRP was a patented biological product of Dalian Medical University (No. ZL01 1 06166.9). METHODS: A total of 27 healthy, 2-month-old, male SD rats were randomly assigned to 3 groups: control, Aβ, and SVHRP, with 9 rats in each group. Alzheimer's disease was simulated with 10 μg Aβ1-40 bilaterally injected into the hippocampus of the Aβ and SVHRP groups. The control group was injected with 2 μL 0.05% trifluoroacetic acid. One day following model establishment, the SVHRP group received an intraperitoneal injection of 2 μg/100 g SVHRP, while the control group and Aβ group received 0.5 mL/100 g tri-distilled water, once per day, for 10 consecutive days. MAIN OUTCOME MEASURES: At 16 days following model establishment, synaptophysin (p38) expression in CA1-CA4 regions of the rat hippocampus was determined by immunohistochemistry. Glial fibrillary acidic protein (GFAP) expression surrounding the hippocampal Aβ1-40 injected area was also detected. At 11 days following model establishment, escape latency, swimming time, and distance to target quadrant were measured using the Morris water maze. RESULTS: Compared with the control group, the Aβ group exhibited notably reduced p38 expression (P 〈 0.05) and notably increased GFAP expression in the rat hippocampus (P 〈 0.05). Water maze results demonstrated that escape latency was prolonged (P 〈 0.05), and swimming time and distance to the target quadrant were shortened in the Aβ group. Compared with the Aβ group, the SVHRP group exhibited notably increased p38 expression (P 〈 0.05) and notably decreased GFAP expression in the rat hippocampus (P 〈 0.05). Water maze results demonstrated that escape latency was significantly reduced (P 〈 0.05), and swimming time and distance to the target quadrant were significantly prolonged. CONCLUSION: SVHRP inhibited exogenous Aβ1-40-induced astrocyte activation and synaptic density decline in the rat hippocampus. Place navigation and spatial searching results showed that SVHRP blocked Aβ1-40-induced impaired learning and memory.展开更多
BACKGROUND: The pharmacological actions of Panax notoginseng saponins (PNS) lie in removing free radicals, anti-inflammation and anti-oxygenation. It can also improve memory and behavior in rat models of Alzheime...BACKGROUND: The pharmacological actions of Panax notoginseng saponins (PNS) lie in removing free radicals, anti-inflammation and anti-oxygenation. It can also improve memory and behavior in rat models of Alzheimer's disease. OBJECTIVE: Using the Morris water maze, immunohistochemistry, real-time PCR and RT-PCR, this study aimed to measure improvement in spatial learning, memory, expression of amyloid precursor protein (App) and β -amyloid (A β ), to investigate the mechanism of action of PNS in the treatment of AD in the senescence accelerated mouse-prone 8 (SAMP8) and compare the effects with huperzine A. DESIGN, TIME AND SETTING: A completely randomized grouping design, controlled animal experiment was performed in the Center for Research & Development of New Drugs, Guangxi Traditional Chinese Medical University from July 2005 to April 2007. MATERIALS: Sixty male SAMP8 mice, aged 3 months, purchased from Tianjin Chinese Traditional Medical University of China, were divided into four groups: PNS high-dosage group, PNS low-dosage group, huperzine A group and control group. PNS was provided by Weihe Pharmaceutical Co., Ltd. (batch No.: Z53021485, Yuxi, Yunan Province, China). Huperzine A was provided by Zhenyuan Pharmaceutical Co., Ltd. (batch No.: 20040801, Zhejiang, China). METHODS: The high-dosage group and low-dosage group were treated with 93.50 and 23.38 mg/kg PNS respectively per day and the huperzine A group was treated with 0.038 6 mg/kg huperzine A per day, all by intragastric administration, for 8 consecutive weeks. The same volume of double distilled water was given to the control group. MAIN OUTCOME MEASURES: After drug administration, learning and memory abilities were assessed by place navigation and spatial probe tests. The recording indices consisted of escape latency (time-to-platform), and the percentage of swimming time spent in each quadrant. The number of A β 1-40, A β 1-42 and App immunopositive neurons in the brains of SAMP8 mice was analyzed by immunohistochemistry. The mRNA content ofApp, tau, acetylcholinesterase, and synaptophysin (Syp) was tested by real time PCR and RT-PCR. RESULTS: The PCR results show that PNS can downregulate the expression of the App gene and upregulate the expression of the Syp gene in the parietal cortex and hippocampus of SAMP8 mice. The therapeutic effects of the PNS high-dosage group were greater than those of the PNS low-dosage group and the huperzine A group (P 〈 0.05). The results of the Morris water maze and immunohistochemistry indicated that PNS can improve the capacity for spatial learning and memory in SAMP8 mice, and reduce the content of A β 1-40, A β 1-42 and expression of App in the brains of SAMP8 mice. The therapeutic effects of the PNS high-dosage group were greater than that of the PNS low-dosage group and the huperzine A group (P 〈 0.05). CONCLUSION: These results support the hypothesis that PNS plays a therapeutic and protective role on the pathological lesions and learning dysfunction of Alzheimer's disease. The therapeutic effects of PNS for Alzheimer's disease are possibly achieved through downregulating the expression of the App gene and upregulating the expression of the Syp gene. The therapeutic effects of PNS are dose-dependent and are greater than the effect of huperzine A.展开更多
Alzheimer’s disease(AD)increasingly affects society due to aging populations.Even at pre-clinical stages,earlier and accurate diagnoses are essential for optimal AD management and improved clinical outcomes.Biomarker...Alzheimer’s disease(AD)increasingly affects society due to aging populations.Even at pre-clinical stages,earlier and accurate diagnoses are essential for optimal AD management and improved clinical outcomes.Biomarkers such as beta-amyloid(Aβ)or tau protein in cerebrospinal fluid(CSF)have been used as reliable markers to distinguish AD from non-AD,and predicting clinical outcomes,to attain these goals.However,given CSF access methods’invasiveness,these biomarkers are not used extensively in clinical settings.Blood Aβhas been proposed as an alternative biomarker since it is less invasive than CSF;however,sampling heterogeneity has limited its clinical applicability.In this review,we investigated blood Aβas a biomarker in AD and explored how Aβcan be facilitated as a viable biomarker for successful AD management.展开更多
基金Supported by: the National Natural Science Foundation of China, No. 30770737
文摘BACKGROUND: Studies have shown that scorpion venom heat-resistant protein (SVHRP) exhibits protective effects on primary cultured hippocampal neurons. OBJECTIVE: To determine the effects of SVHRP on astrocyte activity and synaptic density in the hippocampus induced by amyloid β peptide 1-40 (Aβ1-40) neurotoxicity. DESIGN, TIME AND SETTING: The randomized, controlled, animal experiment was performed at the Central Laboratory, the Laboratory of Human Anatomy, and the Laboratory of Physiology, in Dalian Medical University between March 2006 and June 2008. MATERIALS: Aβ1-40 was provided by Biosource, USA; SVHRP was a patented biological product of Dalian Medical University (No. ZL01 1 06166.9). METHODS: A total of 27 healthy, 2-month-old, male SD rats were randomly assigned to 3 groups: control, Aβ, and SVHRP, with 9 rats in each group. Alzheimer's disease was simulated with 10 μg Aβ1-40 bilaterally injected into the hippocampus of the Aβ and SVHRP groups. The control group was injected with 2 μL 0.05% trifluoroacetic acid. One day following model establishment, the SVHRP group received an intraperitoneal injection of 2 μg/100 g SVHRP, while the control group and Aβ group received 0.5 mL/100 g tri-distilled water, once per day, for 10 consecutive days. MAIN OUTCOME MEASURES: At 16 days following model establishment, synaptophysin (p38) expression in CA1-CA4 regions of the rat hippocampus was determined by immunohistochemistry. Glial fibrillary acidic protein (GFAP) expression surrounding the hippocampal Aβ1-40 injected area was also detected. At 11 days following model establishment, escape latency, swimming time, and distance to target quadrant were measured using the Morris water maze. RESULTS: Compared with the control group, the Aβ group exhibited notably reduced p38 expression (P 〈 0.05) and notably increased GFAP expression in the rat hippocampus (P 〈 0.05). Water maze results demonstrated that escape latency was prolonged (P 〈 0.05), and swimming time and distance to the target quadrant were shortened in the Aβ group. Compared with the Aβ group, the SVHRP group exhibited notably increased p38 expression (P 〈 0.05) and notably decreased GFAP expression in the rat hippocampus (P 〈 0.05). Water maze results demonstrated that escape latency was significantly reduced (P 〈 0.05), and swimming time and distance to the target quadrant were significantly prolonged. CONCLUSION: SVHRP inhibited exogenous Aβ1-40-induced astrocyte activation and synaptic density decline in the rat hippocampus. Place navigation and spatial searching results showed that SVHRP blocked Aβ1-40-induced impaired learning and memory.
基金the National Natural Science Foundation of China, No: 30560189
文摘BACKGROUND: The pharmacological actions of Panax notoginseng saponins (PNS) lie in removing free radicals, anti-inflammation and anti-oxygenation. It can also improve memory and behavior in rat models of Alzheimer's disease. OBJECTIVE: Using the Morris water maze, immunohistochemistry, real-time PCR and RT-PCR, this study aimed to measure improvement in spatial learning, memory, expression of amyloid precursor protein (App) and β -amyloid (A β ), to investigate the mechanism of action of PNS in the treatment of AD in the senescence accelerated mouse-prone 8 (SAMP8) and compare the effects with huperzine A. DESIGN, TIME AND SETTING: A completely randomized grouping design, controlled animal experiment was performed in the Center for Research & Development of New Drugs, Guangxi Traditional Chinese Medical University from July 2005 to April 2007. MATERIALS: Sixty male SAMP8 mice, aged 3 months, purchased from Tianjin Chinese Traditional Medical University of China, were divided into four groups: PNS high-dosage group, PNS low-dosage group, huperzine A group and control group. PNS was provided by Weihe Pharmaceutical Co., Ltd. (batch No.: Z53021485, Yuxi, Yunan Province, China). Huperzine A was provided by Zhenyuan Pharmaceutical Co., Ltd. (batch No.: 20040801, Zhejiang, China). METHODS: The high-dosage group and low-dosage group were treated with 93.50 and 23.38 mg/kg PNS respectively per day and the huperzine A group was treated with 0.038 6 mg/kg huperzine A per day, all by intragastric administration, for 8 consecutive weeks. The same volume of double distilled water was given to the control group. MAIN OUTCOME MEASURES: After drug administration, learning and memory abilities were assessed by place navigation and spatial probe tests. The recording indices consisted of escape latency (time-to-platform), and the percentage of swimming time spent in each quadrant. The number of A β 1-40, A β 1-42 and App immunopositive neurons in the brains of SAMP8 mice was analyzed by immunohistochemistry. The mRNA content ofApp, tau, acetylcholinesterase, and synaptophysin (Syp) was tested by real time PCR and RT-PCR. RESULTS: The PCR results show that PNS can downregulate the expression of the App gene and upregulate the expression of the Syp gene in the parietal cortex and hippocampus of SAMP8 mice. The therapeutic effects of the PNS high-dosage group were greater than those of the PNS low-dosage group and the huperzine A group (P 〈 0.05). The results of the Morris water maze and immunohistochemistry indicated that PNS can improve the capacity for spatial learning and memory in SAMP8 mice, and reduce the content of A β 1-40, A β 1-42 and expression of App in the brains of SAMP8 mice. The therapeutic effects of the PNS high-dosage group were greater than that of the PNS low-dosage group and the huperzine A group (P 〈 0.05). CONCLUSION: These results support the hypothesis that PNS plays a therapeutic and protective role on the pathological lesions and learning dysfunction of Alzheimer's disease. The therapeutic effects of PNS for Alzheimer's disease are possibly achieved through downregulating the expression of the App gene and upregulating the expression of the Syp gene. The therapeutic effects of PNS are dose-dependent and are greater than the effect of huperzine A.
文摘Alzheimer’s disease(AD)increasingly affects society due to aging populations.Even at pre-clinical stages,earlier and accurate diagnoses are essential for optimal AD management and improved clinical outcomes.Biomarkers such as beta-amyloid(Aβ)or tau protein in cerebrospinal fluid(CSF)have been used as reliable markers to distinguish AD from non-AD,and predicting clinical outcomes,to attain these goals.However,given CSF access methods’invasiveness,these biomarkers are not used extensively in clinical settings.Blood Aβhas been proposed as an alternative biomarker since it is less invasive than CSF;however,sampling heterogeneity has limited its clinical applicability.In this review,we investigated blood Aβas a biomarker in AD and explored how Aβcan be facilitated as a viable biomarker for successful AD management.
