Objective To explore the influence of isoflurane(Iso) on the synthesis of surfactant-related protein(SP-A) of alveolar type II cells(AT II cells) cultured in primary and injured by hydrogen peroxide(H2O2).Methods AT I...Objective To explore the influence of isoflurane(Iso) on the synthesis of surfactant-related protein(SP-A) of alveolar type II cells(AT II cells) cultured in primary and injured by hydrogen peroxide(H2O2).Methods AT II cells were isolated from adult SD rats and used for experiments after 32h in primary culture and randomized into six groups: control group,0.28 mM Iso group,2.8mM Iso group,75 μM H2O2 group,75 μM H2O2 +0.28 mM Iso group and 75 μM H2O2 +2.8 mM Iso group. Each group was continuously incubated for 3 h after administration of Iso or/and H2O2. The intracellular SP-A and the SP-A of cultured medium were measured with an enzyme-linked immunosorbent assay(ELISA).Results Iso significantly decreased SP-A content of cultured medium and the intracellular,and aggravated the decrease of SP-A content induced by H2O2 in a dose-dependent manner.Conclusion Iso itself may decrease SP-A synthesis of AT II cells in vitro,and aggravate the damage of AT II cells especially under peroxidation condition.展开更多
BACKGROUND: Animal experiments have demonstrated that isoflurane exposure alone induces learning and memory deficits for weeks or months. However, the molecular mechanisms of learning and memory remain poorly underst...BACKGROUND: Animal experiments have demonstrated that isoflurane exposure alone induces learning and memory deficits for weeks or months. However, the molecular mechanisms of learning and memory remain poorly understood. Hippocampal expression of calcium/phospholipid- dependent protein kinase (PKC) and cAMP-dependent protein kinase (PKA) in rats have been shown to be associated with memory processing. OBJECTIVE: To investigate changes in rat spatial memory and hippocampal CA1 neuronal kinase system following isoflurane anesthesia, and to explore the correlation between molecular changes in cerebral neurons and behavioral manifestations following anesthesia. DESIGN, TIME AND SE'rFING: A randomized, controlled, animal study. All experiments were performed at the Department of Anesthesia, Beijing Chaoyang Hospital, Capital Medical University from November 2007 to December 2008. MATERIALS: A total of 72 male, 3 month-old (young group), Sprague Dawley rats, and 36 male, 20 month-old (aged group), Sprague-Dawley rats were used in the study. Isoflurane was purchased from Baxter, USA. METHODS: Young and aged rats were randomly assigned to control, training (no anesthesia, Morris water maze training), and isoflurane (1.2% isoflurane, Morris water maze training) groups. The isoflurane group was further subdivided into four groups, which were exposed to anesthesia for 2 or 4 hours, and were subjected to Morris water maze training at 2 days or 2 weeks postanesthesia. Finally, each aged group comprised 6 rats, and the young group comprised 12 rats. MAIN OUTCOME MEASURES: Spatial learning and memory were observed during Morris water maze training. Hippocampal CA1 PKA and PKC expression and activity were detected by immunohistochemistry and enzyme-linked immunosorbent assay (ELISA). RESULTS: A 4-hour isoflurane exposure induced spatial memory deficits in all rats for 2 days to 2 weeks. In particular, aged rats exhibited more severe spatial memory deficits. Immunohistochemistry and ELISA results showed a significant increase in PKC and PKA expression and activity in the hippocampus CA1 subfield following Morris water maze training (P 〈 0.05). Moreover, isoflurane anesthesia inhibited PKC and PKA expression and activity, and this inhibition increased with increasing exposure duration and increasing age. CONCLUSION: Results suggested that increased isoflurane exposure and age could extensively inhibit the hippocampal CA1 kinase system. Inhibition of protein kinases could play an important role in the cognitive decline following anesthesia.展开更多
Objective To test the ability of isoflurane-induced preconditioning against oxygen and glucose dep- rivation (OGD) injury in vitro. Methods Rat hippocampal slices were exposed to 1 volume percentage (vol%), 2vo1%...Objective To test the ability of isoflurane-induced preconditioning against oxygen and glucose dep- rivation (OGD) injury in vitro. Methods Rat hippocampal slices were exposed to 1 volume percentage (vol%), 2vo1% or 3vo1% isoflurane respectively for 20 minutes under normoxic conditions (95% O2/5% CO2) once or twice (12 slices in each group) before OGD, with 15-minute washout after each exposure. During OGD experiments, hippocampus slices were bathed with artificial cerebrospinal fluid (ACSF) lacking glucose and perfused with 95% N2 and 5% CO2 for 14 minutes, followed by a 30-minute reperfusion in normal ACSF. The CA1 population spike (PS) was measured and used to quantify the degree of neuronal function recovery after OGD. To assess the role of mitogen-activated protein kinases (MAPKs) in isoflurane preconditioning, U0126, an inhibitor of extracellular signal-regulated protein kinase (ERK1/2), and SB203580, an inhibitor of p38 MAPK, were used before two periods of 3vol% isoflurane exposure. Results The degree of neuronal function recovery of hippocampal slices exposed to 1 vol%, 2vol%, or 3vol% isoflurane once was 41.88%±9.23%, 55.05%±11.02%, or 63.18%±10.82% respectively. Moreover, neuronal function recovery of hippocampal slices exposed to 1 vol%, 2vo1%, or 3vo1% isoflurane twice was 53.75%±12.04%, 63.50%±11.06%, or 76.25%±12.25%, respectively. Isoflurane preconditioning increased the neuronal function recovery in a dose-dependent manner. U0126 blocked the preconditioning induced by dual exposure to 3vo1% isoflurane (6.13%±1.56%, P〈0.01) and ERK1/2 activities. Conclusions Isoflurane is capable of inducing preconditioning in hippocampal slices in vitro in a dose-dependent manner, and dual exposure to isoflurane with a lower concentration is more effective in triggering preconditioning than a single exposure. Isoflurane-induced neuroprotection might be involved with ERK 1/2 activities.展开更多
Background : Information obtained from arterial pulse waveforms (APW) can be usefulfor characterizing the cardiovascular system. To achieve this, it is necessary to know thedetailed characteristics of APWs in differen...Background : Information obtained from arterial pulse waveforms (APW) can be usefulfor characterizing the cardiovascular system. To achieve this, it is necessary to know thedetailed characteristics of APWs in different states of an organism, which would allowAPW parameters (APW- Ps) to be assigned to particular (patho)physiological conditions.Therefore, our work aimed to characterize 35 APW- Ps in rats under the influence ofisoflurane (ISO) and Zoletil/xylazine (ZO/XY) anesthesia and to study the effect of rootextract from Acanthopanax senticosus (ASRE) in these anesthetic conditions.Methods : The right jugular vein of anesthetized rats was cannulated for the administrationof ASRE and the left carotid artery for the detection of APWs from which 35APW- Ps were evaluated.Results : We obtained data on 35 APW- Ps, which significantly depended on the anesthesia,and thus, they characterized the cardiovascular system under these two conditions.ASRE transiently modulated all 35 APW- Ps, including a transient decrease insystolic and diastolic blood pressure (BP) and heart rate or increases in pulse BP, d P /d t max , and systolic and diastolic areas. Whereas the transient effects of ASRE weresimilar, the extract had prolonged disturbing effects on the cardiovascular system inrats under ZO/XY but not under ISO anesthesia. This negative effect can result fromthe disturbance caused by ZO/XY anesthesia on the cardiovascular system.Conclusions : We characterized 35 APW- Ps of rats under ISO and ZO/XY anesthesiaand found that ASRE contains compounds that can modulate the properties of thecardiovascular system, which significantly depended on the status of the cardiovascularsystem. This should be considered when using ASRE as a nutritional supplementby individuals with cardiovascular problems.展开更多
Micropeptin EI-964 is a cyclic peptide compound isolated from a marine cyanobacterium with potent inhibitory activity against serine proteases, particularly chymotrypsin and trypsin. It has shown promising activity ag...Micropeptin EI-964 is a cyclic peptide compound isolated from a marine cyanobacterium with potent inhibitory activity against serine proteases, particularly chymotrypsin and trypsin. It has shown promising activity against various cancer cell lines, making it a candidate for drug development. The unique structure and activity of Micropeptin EI-964 make it a promising lead compound for the development of novel serine protease inhibitors and anti-cancer drugs. Computational Chemistry and Molecular Modeling techniques can provide valuable insights into the chemical reactivity and pharmaceutical properties of Micropeptin EI-964, guiding the design and development of new compounds with enhanced bioactivity and improved drug-like properties.展开更多
文摘Objective To explore the influence of isoflurane(Iso) on the synthesis of surfactant-related protein(SP-A) of alveolar type II cells(AT II cells) cultured in primary and injured by hydrogen peroxide(H2O2).Methods AT II cells were isolated from adult SD rats and used for experiments after 32h in primary culture and randomized into six groups: control group,0.28 mM Iso group,2.8mM Iso group,75 μM H2O2 group,75 μM H2O2 +0.28 mM Iso group and 75 μM H2O2 +2.8 mM Iso group. Each group was continuously incubated for 3 h after administration of Iso or/and H2O2. The intracellular SP-A and the SP-A of cultured medium were measured with an enzyme-linked immunosorbent assay(ELISA).Results Iso significantly decreased SP-A content of cultured medium and the intracellular,and aggravated the decrease of SP-A content induced by H2O2 in a dose-dependent manner.Conclusion Iso itself may decrease SP-A synthesis of AT II cells in vitro,and aggravate the damage of AT II cells especially under peroxidation condition.
基金the National Natural Science Foundation of China, No. 30471665
文摘BACKGROUND: Animal experiments have demonstrated that isoflurane exposure alone induces learning and memory deficits for weeks or months. However, the molecular mechanisms of learning and memory remain poorly understood. Hippocampal expression of calcium/phospholipid- dependent protein kinase (PKC) and cAMP-dependent protein kinase (PKA) in rats have been shown to be associated with memory processing. OBJECTIVE: To investigate changes in rat spatial memory and hippocampal CA1 neuronal kinase system following isoflurane anesthesia, and to explore the correlation between molecular changes in cerebral neurons and behavioral manifestations following anesthesia. DESIGN, TIME AND SE'rFING: A randomized, controlled, animal study. All experiments were performed at the Department of Anesthesia, Beijing Chaoyang Hospital, Capital Medical University from November 2007 to December 2008. MATERIALS: A total of 72 male, 3 month-old (young group), Sprague Dawley rats, and 36 male, 20 month-old (aged group), Sprague-Dawley rats were used in the study. Isoflurane was purchased from Baxter, USA. METHODS: Young and aged rats were randomly assigned to control, training (no anesthesia, Morris water maze training), and isoflurane (1.2% isoflurane, Morris water maze training) groups. The isoflurane group was further subdivided into four groups, which were exposed to anesthesia for 2 or 4 hours, and were subjected to Morris water maze training at 2 days or 2 weeks postanesthesia. Finally, each aged group comprised 6 rats, and the young group comprised 12 rats. MAIN OUTCOME MEASURES: Spatial learning and memory were observed during Morris water maze training. Hippocampal CA1 PKA and PKC expression and activity were detected by immunohistochemistry and enzyme-linked immunosorbent assay (ELISA). RESULTS: A 4-hour isoflurane exposure induced spatial memory deficits in all rats for 2 days to 2 weeks. In particular, aged rats exhibited more severe spatial memory deficits. Immunohistochemistry and ELISA results showed a significant increase in PKC and PKA expression and activity in the hippocampus CA1 subfield following Morris water maze training (P 〈 0.05). Moreover, isoflurane anesthesia inhibited PKC and PKA expression and activity, and this inhibition increased with increasing exposure duration and increasing age. CONCLUSION: Results suggested that increased isoflurane exposure and age could extensively inhibit the hippocampal CA1 kinase system. Inhibition of protein kinases could play an important role in the cognitive decline following anesthesia.
基金Supported by Foundation of Shihezi University of Xinjiang Province (RCZX200688)
文摘Objective To test the ability of isoflurane-induced preconditioning against oxygen and glucose dep- rivation (OGD) injury in vitro. Methods Rat hippocampal slices were exposed to 1 volume percentage (vol%), 2vo1% or 3vo1% isoflurane respectively for 20 minutes under normoxic conditions (95% O2/5% CO2) once or twice (12 slices in each group) before OGD, with 15-minute washout after each exposure. During OGD experiments, hippocampus slices were bathed with artificial cerebrospinal fluid (ACSF) lacking glucose and perfused with 95% N2 and 5% CO2 for 14 minutes, followed by a 30-minute reperfusion in normal ACSF. The CA1 population spike (PS) was measured and used to quantify the degree of neuronal function recovery after OGD. To assess the role of mitogen-activated protein kinases (MAPKs) in isoflurane preconditioning, U0126, an inhibitor of extracellular signal-regulated protein kinase (ERK1/2), and SB203580, an inhibitor of p38 MAPK, were used before two periods of 3vol% isoflurane exposure. Results The degree of neuronal function recovery of hippocampal slices exposed to 1 vol%, 2vol%, or 3vol% isoflurane once was 41.88%±9.23%, 55.05%±11.02%, or 63.18%±10.82% respectively. Moreover, neuronal function recovery of hippocampal slices exposed to 1 vol%, 2vo1%, or 3vo1% isoflurane twice was 53.75%±12.04%, 63.50%±11.06%, or 76.25%±12.25%, respectively. Isoflurane preconditioning increased the neuronal function recovery in a dose-dependent manner. U0126 blocked the preconditioning induced by dual exposure to 3vo1% isoflurane (6.13%±1.56%, P〈0.01) and ERK1/2 activities. Conclusions Isoflurane is capable of inducing preconditioning in hippocampal slices in vitro in a dose-dependent manner, and dual exposure to isoflurane with a lower concentration is more effective in triggering preconditioning than a single exposure. Isoflurane-induced neuroprotection might be involved with ERK 1/2 activities.
基金Agency of the Slovak Republic,Grant/Award Number:2/0023/22,2/0066/23 and 2/0091/21Slovak Research&Development Agency,Grant/Award Number:APVV-19-0154 and APVV-22-0154。
文摘Background : Information obtained from arterial pulse waveforms (APW) can be usefulfor characterizing the cardiovascular system. To achieve this, it is necessary to know thedetailed characteristics of APWs in different states of an organism, which would allowAPW parameters (APW- Ps) to be assigned to particular (patho)physiological conditions.Therefore, our work aimed to characterize 35 APW- Ps in rats under the influence ofisoflurane (ISO) and Zoletil/xylazine (ZO/XY) anesthesia and to study the effect of rootextract from Acanthopanax senticosus (ASRE) in these anesthetic conditions.Methods : The right jugular vein of anesthetized rats was cannulated for the administrationof ASRE and the left carotid artery for the detection of APWs from which 35APW- Ps were evaluated.Results : We obtained data on 35 APW- Ps, which significantly depended on the anesthesia,and thus, they characterized the cardiovascular system under these two conditions.ASRE transiently modulated all 35 APW- Ps, including a transient decrease insystolic and diastolic blood pressure (BP) and heart rate or increases in pulse BP, d P /d t max , and systolic and diastolic areas. Whereas the transient effects of ASRE weresimilar, the extract had prolonged disturbing effects on the cardiovascular system inrats under ZO/XY but not under ISO anesthesia. This negative effect can result fromthe disturbance caused by ZO/XY anesthesia on the cardiovascular system.Conclusions : We characterized 35 APW- Ps of rats under ISO and ZO/XY anesthesiaand found that ASRE contains compounds that can modulate the properties of thecardiovascular system, which significantly depended on the status of the cardiovascularsystem. This should be considered when using ASRE as a nutritional supplementby individuals with cardiovascular problems.
文摘Micropeptin EI-964 is a cyclic peptide compound isolated from a marine cyanobacterium with potent inhibitory activity against serine proteases, particularly chymotrypsin and trypsin. It has shown promising activity against various cancer cell lines, making it a candidate for drug development. The unique structure and activity of Micropeptin EI-964 make it a promising lead compound for the development of novel serine protease inhibitors and anti-cancer drugs. Computational Chemistry and Molecular Modeling techniques can provide valuable insights into the chemical reactivity and pharmaceutical properties of Micropeptin EI-964, guiding the design and development of new compounds with enhanced bioactivity and improved drug-like properties.
