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SUMMARY: The present study was aimed to investigate the hepatoprotective effects of date palm hydroalcoholic extract (DP)in diabetic rats using biochemical and histopathological approaches. Diabetes was induced by administration of 60 mg/kg of streptozotocin intraperitoneally. In this analysis 32 adult rats were randomly divided into four groups; group 1: non-diabetic control whic received 0.1 mL normal saline, group 2:served as non-diabetic control which treated with 270 mg/kg of DP, group 3: served as untreated diabetic, and group 4: diabetic rats treated with 270 mg/kg of DP. Diabetic rats treated with the DP extracts exhibited lower hepatic oxidative stress and lower hepatic enzymes level. Extract treatment decreased the level of malondealdehyde (MDA) as a marker of lipid peroxidation. Stereological estimations revealed a significant increase in the liver volume in diabetic rats which was reduced in DP-treated rats. Immunofluorescence staining showed high synthesis of acrolein as a byproduct of lipid proxidation. While, optical density measurement revealed significant decrease in acrolein after DP administration. Histopathological examination showed severe changes in untreated diabetic liver tissue manifested by dilated portal vein, leukocytic infiltration, fatty degeneration and necrotic nuclei, whereas, DP treatment attenuated the adverse effects of diabetes on the liver represented by relatively healthy hepatocytes and sinusoids. The obtained results indicated that date pam extract was beneficial in the prevention of diabetes-induced hepatotoxicity due to its natural antioxidant constituents. Further preclinical and clinical studies are needed for considering this plant in management of prediabetes and diabetes hepatic complications.
RESUMEN: El presente estudio tuvo como objetivo investigar los efectos hepatoprotectores del extracto hidroalcohólico (DP) de la palmera datilera en ratas diabéticas utilizando enfoques bioquímicos e histopatológicos. La diabetes fue inducida mediante la administración de 60 mg / kg de estreptozotocina por vía intraperitoneal. Se dividieron al azar 32 ratas adultas en cuatro grupos; grupo 1: control no diabético que recibió 0,1 mL de solución salina normal, grupo 2: control no diabético tratado con 270 mg / kg de DP, grupo 3: fue separado como diabético no tratado, y grupo 4: ratas diabéticas tratadas con 270 mg / kg de DP mg / kg de DP. Las ratas diabéticas tratadas con los extractos de DP mostraron menor estrés oxidativo hepático y menor nivel de enzimas hepáticas. El tratamiento con extracto disminuyó el nivel de malondealdehído (MDA) como marcador de la proxidación de lípidos. Las estimaciones estereológicas revelaron un aumento significativo en el volumen del hígado en ratas diabéticas que se redujo en las ratas tratadas con DP. La tinción por inmunofluorescencia mostró una alta síntesis de acroleína como subproducto de la proxidación de lípidos. Mientras que, la medición de la densidad óptica reveló una disminución significativa de la acroleína después de la administración de DP. El examen histopatológico mostró cambios significativos en el tejido hepático diabético no tratado manifestados por vena porta dilatada, infiltración leucocítica, degeneración grasa y núcleos necróticos, mientras que el tratamiento con DP atenuó los efectos adversos de la diabetes en el hígado representados por hepatocitos y sinusoides relativamente sanos. Los resultados obtenidos indicaron que el extracto de palmera datilera fue beneficioso en la prevención de la hepatotoxicidad inducida por diabetes debido a sus constituyentes antioxidantes naturales. Se necesitan más estudios clínicos para considerar esta planta en el manejo de la prediabetes y las complicaciones hepáticas de la diabetes.
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Animals , Male , Rats , Plant Extracts/therapeutic use , Diabetes Complications , Phoeniceae , Liver Diseases/etiology , Liver Diseases/drug therapy , Acrolein , Immunohistochemistry , Plant Extracts/pharmacology , Protective Agents/therapeutic use , Disease Models, Animal , Liver/drug effects , Antioxidants/therapeutic useABSTRACT
Traumatic brain injury (TBI)-induced coagulopathy has increasingly been recognized as a significant risk factor for poor outcomes, but the pathogenesis remains poorly understood. In this study, we aimed to investigate the causal role of acrolein, a typical lipid peroxidation product, in TBI-induced coagulopathy, and further explore the underlying molecular mechanisms. We found that the level of plasma acrolein in TBI patients suffering from coagulopathy was higher than that in those without coagulopathy. Using a controlled cortical impact mouse model, we demonstrated that the acrolein scavenger phenelzine prevented TBI-induced coagulopathy and recombinant ADAMTS-13 prevented acrolein-induced coagulopathy by cleaving von Willebrand factor (VWF). Our results showed that acrolein may contribute to an early hypercoagulable state after TBI by regulating VWF secretion. mRNA sequencing (mRNA-seq) and transcriptome analysis indicated that acrolein over-activated autophagy, and subsequent experiments revealed that acrolein activated autophagy partly by regulating the Akt/mTOR pathway. In addition, we demonstrated that acrolein was produced in the perilesional cortex, affected endothelial cell integrity, and disrupted the blood-brain barrier. In conclusion, in this study we uncovered a novel pro-coagulant effect of acrolein that may contribute to TBI-induced coagulopathy and vascular leakage, providing an alternative therapeutic target.
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Clinical advances in the treatment of intracranial hemorrhage (ICH) are restricted by the incomplete understanding of the molecular mechanisms contributing to secondary brain injury. Acrolein is a highly active unsaturated aldehyde which has been implicated in many nervous system diseases. Our results indicated a significant increase in the level of acrolein after ICH in mouse brain. In primary neurons, acrolein induced an increase in mitochondrial fragmentation, loss of mitochondrial membrane potential, generation of reactive oxidative species, and release of mitochondrial cytochrome c. Mechanistically, acrolein facilitated the translocation of dynamin-related protein1 (Drp1) from the cytoplasm onto the mitochondrial membrane and led to excessive mitochondrial fission. Further studies found that treatment with hydralazine (an acrolein scavenger) significantly reversed Drp1 translocation and the morphological damage of mitochondria after ICH. In parallel, the neural apoptosis, brain edema, and neurological functional deficits induced by ICH were also remarkably alleviated. In conclusion, our results identify acrolein as an important contributor to the secondary brain injury following ICH. Meanwhile, we uncovered a novel mechanism by which Drp1-mediated mitochondrial oxidative damage is involved in acrolein-induced brain injury.
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Clinical advances in the treatment of intracranial hemorrhage (ICH) are restricted by the incomplete understanding of the molecular mechanisms contributing to secondary brain injury. Acrolein is a highly active unsaturated aldehyde which has been implicated in many nervous system diseases. Our results indicated a significant increase in the level of acrolein after ICH in mouse brain. In primary neurons, acrolein induced an increase in mitochondrial fragmentation, loss of mitochondrial membrane potential, generation of reactive oxidative species, and release of mitochondrial cytochrome c. Mechanistically, acrolein facilitated the translocation of dynamin-related protein1 (Drp1) from the cytoplasm onto the mitochondrial membrane and led to excessive mitochondrial fission. Further studies found that treatment with hydralazine (an acrolein scavenger) significantly reversed Drp1 translocation and the morphological damage of mitochondria after ICH. In parallel, the neural apoptosis, brain edema, and neurological functional deficits induced by ICH were also remarkably alleviated. In conclusion, our results identify acrolein as an important contributor to the secondary brain injury following ICH. Meanwhile, we uncovered a novel mechanism by which Drp1-mediated mitochondrial oxidative damage is involved in acrolein-induced brain injury.
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OBJECTIVE: Inflammation is crucial to limiting vascular disease. Previously we reported that acrolein, a known toxin in tobacco smoke, might play an important role in the progression of atherosclerosis via an inflammatory response involving cyclooxygenase-2 (COX-2) and prostaglandin production in human umbilical vein endothelial cells (HUVECs). Curcumin has been known to improve vascular function and have anti-inflammatory properties. In this study, we investigated whether curcumin prevents the induction of inflammatory response caused by acrolein.METHODS: Anti-inflammatory effects of curcumin were examined in acrolein-stimulated HUVECs. Induction of proteins, mRNA, prostaglandin and reactive oxygen species (ROS) were measured using immunoblot analysis, real-time reverse-transcription polymerase chain reaction, enzyme-linked immunosorbent assay and flow cytometry, respectively.RESULTS: Curcumin attenuates inflammatory response via inhibition of COX-2 expression and prostaglandin production in acrolein-induced human endothelial cells. This inhibition by curcumin results in the abolition of phosphorylation of protein kinase C, p38 mitogen-activated protein kinase, and cAMP response element-binding protein. Furthermore, curcumin suppresses the production of ROS and endoplasmic reticulum stress via phosphorylation of eukaryotic initiation factor-2α caused by acrolein.CONCLUSION: These results suggest that curcumin might be a useful agent against endothelial dysfunction caused by acrolein-induced inflammatory response.
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Humans , Acrolein , Atherosclerosis , Curcumin , Cyclic AMP Response Element-Binding Protein , Cyclooxygenase 2 , Endoplasmic Reticulum Stress , Endothelial Cells , Enzyme-Linked Immunosorbent Assay , Flow Cytometry , Human Umbilical Vein Endothelial Cells , Inflammation , Phosphorylation , Polymerase Chain Reaction , Protein Kinase C , Protein Kinases , Reactive Oxygen Species , RNA, Messenger , Smoke , Tobacco , Vascular DiseasesABSTRACT
Acrolein, known as one of the most common reactive carbonyl species, is a toxic small molecule affecting human health in daily life. This study is focused on the scavenging abilities and mechanism of ferulic acid and some other phenolic acids against acrolein. Among the 13 phenolic compounds investigated, ferulic acid was found to have the highest efficiency in scavenging acrolein under physiological conditions. Ferulic acid remained at (3.04±1.89)% and acrolein remained at (29.51±4.44)% after being incubated with each other for 24 h. The molecular mechanism of the detoxifying process was also studied. Detoxifying products, namely 2-methoxy-4-vinylphenol (product 21) and 5-(4-hydroxy-3-methoxyphenyl)pent-4-enal (product 22), were identified though nuclear magnetic resonance (NMR) and gas chromatography-mass spectrometry (GC-MS), after the scavenging process. Ferulic acid showed significant activity in scavenging acrolein under physiological conditions. This study indicates a new method for inhibiting damage from acrolein.
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ABSTRACT: The objective of this study was to review technological and toxicological factors related to presence of carbonyl compounds found in wines, including acetaldehyde, formaldehyde, acrolein, ethyl carbamate (EC) and furfural. Acetaldehyde and formaldehyde may be formed through the ethanol and methanol oxidation, respectively. Acrolein may arise as a thermal degradation product of glycerol, amino acids, carbohydrates and triglycerides or by metabolic activity of microorganisms. In addition, acrolein and furfural are formed during wood combustion; therefore, these aldehydes may be present in raw materials due to the environmental contamination. Furfural is also a product of the Maillard reaction formed from sugars and amino acids, while ethyl carbamate occurs through the reaction between urea and ethanol. These compounds may react with SO2 and phenolic compounds to form non-volatile adducts, which positively modulates color stability, astringency and aroma in wine. However, when ingested through wine, electrophilic carbonyl compounds may form adducts with nucleophilic targets, such as DNA, resulting in genotoxicity along the gastrointestinal tract. Furthermore, carbonyl compounds induce the increase of reactive oxygen species and can trigger apoptosis, in addition to hepatocellular adenoma and carcinoma as a consequence of chronic hepatotoxicity. Neurodegenerative diseases may be related to the exposure to carbonyl compounds. Therefore, strategies to reduce the levels of these compounds should be studied in order to get the most out of the beneficial functional properties of wine consumption.
RESUMO: O objetivo deste estudo foi revisar os fatores tecnológicos e toxicológicos relacionados à presença de compostos carbonílicos encontrados em vinhos, incluindo acetaldeído, formaldeído, acroleína, carbamato de etila (CE) e furfural. O acetaldeído e o formaldeído podem ser formados através da oxidação do etanol e do metanol, respectivamente. A acroleína pode surgir como um produto de degradação térmica de glicerol, aminoácidos, carboidratos e triglicerídeos ou pela atividade metabólica de microorganismos. Além disso, a acroleína e o furfural são formados durante a combustão da madeira. Portanto, esses aldeídos podem estar presentes nas matérias-primas devido à contaminação ambiental. O furfural é também um produto da reação de Maillard formado a partir de açúcares e aminoácidos, enquanto o carbamato de etila ocorre através da reação entre uréia e etanol. Estes compostos podem reagir com SO2 e compostos fenólicos para formar adutos não voláteis, que modulam positivamente a estabilidade da cor, adstringência e aroma no vinho. No entanto, quando ingeridos através do vinho, os compostos carbonílicos que são eletrofílicos podem formar adutos com alvos nucleofílicos, como o DNA, resultando em genotoxicidade ao longo do trato gastrintestinal. Além disso, os compostos carbonílicos também induzem o aumento de espécies reativas de oxigênio e podem desencadear a apoptose, além de adenoma e carcinoma hepatocelular como consequência da hepatotoxicidade crônica. Doenças neurodegenerativas podem estar relacionadas à exposição aos compostos carbonílicos. Com isso, estratégias para reduzir os níveis desses compostos devem ser estudadas para obter o máximo das propriedades funcionais benéficas do consumo de vinho.
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Objective To study the effect of cyclophosphamide(CP) and its metabolites acrolein(ACR) on PTEN gene deleted on chromosome 10 after acting on ovarian cancer cellsSKOV3.Methods Different concentrations of CP and ACR were selected to act on recombinant PTEN protein.The phosphorylation activity of PTEN was detected by PNPP.The expression of PTEN protein was detected by Western blot.The binding mode of drug with protein was detected by the biotin combined with protein;meanwhile the expression change of P53/TP53 in PTEN gene pathway was analyzed.The target protein was obtained by immunoprecipitation(IP) after different drug concentrations acting on the cells.The phosphorylation activity of the target protein was detected by high performance liquid chromatography(HPLC).Results After the drug metabolites acting on recombinant PTEN protein,the phosphorylation activity was decreased with the increase of drug concentration,while the expression of ACR antibody action was increased with the drug concentration elevation.The expression of protein and biotin in different experimental groups was increased with the increase of drug concentration.The PTEN phosphorylation activity was decreased with the drug concentration increased in cells,and so did the expression of TP53 protein.Conclusion CP metabolite ACR induces the cytotoxicity by inhibiting PTEN protein phosphorylation activity.
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[Objective]The oxidative injury of retinal pigment epithelium(RPE)plays a key role in the pathogenesis of age-related macular degeneration(ARMD). This study is to investigate the effects of endoplasmic reticulum stress and the vital transcriptional factor X-box binding protein 1(XBP1)in acrolein-induced oxidative damage of RPE.[Methods]RPE cells were treated with acrolein (75μmol/L)for 2~24 h,expression of glucose regulated protein 78(GRP78)and XBP1 was determined by Western blot analysis. After being transfected with XBP1 siRNA with 24 h,the expression of XBP1 was knocked-down in RPE cells. Protein level of Nrf2 and SOD2 was then determined by Western blot analysis and intracellular Reactive Oxygen Species(ROS)generation was determined by DCF staining. Acrolein was added for 8 h after being transfected with XBP1 siRNA or control siRNA for 24 h. Apoptosis was detected by TUNEL assay before and after the treatment. Subretinal injection of Cre or GFP adenovirus was performed in XBP 1flox mice. After 1 week the mice were sacrificed. Total RNA was extracted from mice eyecups using TRIzol and real-time RT-PCR was performed to determine the two XBP1 down-stream genes,ERdj4 and p58IPK. Cryosectioning and immunofluorescent staining were performed to look at the expression of XBP1,Nrf2 and SOD2 in mice RPE.[Results]Protein level of GRP78 was significantly un-regulated after exposure to acrolein for 2 and 4 h. XBP1 was activated after acrolein treatment for 6 h. Knock-down of XBP1 by siRNA down-regu?lates anti-oxidant genes expression and increased ROS generation in RPE cells. Loss of XBP1 exacerbates acrolein-induced cell apoptosis. XBP1 was knocked-down in the RPE of XBP1flox mice after subretinal injection of Cre adenovirus. Decreased mRNA level of ERdj4 and p58IPK,and decreased Nrf2 and SOD2 expression were seen in the Cre-injected group.[Conclusions]Acrolein induces ER stress and activates XBP1 in RPE cells. Knock-down of XBP1 down-regulates anti-oxidant genes expression ,increases ROS generation,and exacerbates acrolein-induced cell apoptosis. XBP1 plays a role in the anti-oxidant defense in the RPE cells.
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?AlM: To explore the effects of the prescription of reinforcing kidney, nourishing blood, improving eyesight on the oxidative stress model of ARPE-19 cells induced by acrolein. ?METHODS:SD rats serum containing the prescription of reinforcing kidney, nourishing blood, improving eyesight and the content of distilled water in serum were prepared. The effects of the prescription and distilled water in serum at different concentration ( 2. 5%, 5%, 10%, 20% and 40%) on cell vitality was observed by cell counting kit ( CCK-8 ) assay. the logarithmic phase of ARPE-19 cells were pretreated by different concentrations (1. 25%, 2. 5%and 5%) of the prescription serum and distilled water in serum for 24h. Then it was treated with 75μmol/L acrolein for 24h. Cell vitality was observed by CCK-8 assay. The change of cell nucleus was detected by DAPl staining . ?RESULTS: 2. 5% and 5% serum had no effect on cell viability (P>0. 05), while 10%, 20%, 40% serum could inhibit cell viability (P ?CONCLUSlON: The prescription of reinforcing kidney, nourishing blood, improving eyesight has the protective effect on ARPE-19 cell damage induced by acrolein.
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Objective To investigate the regulations of Bax , Bcl-2 in the protection of lipoic acid-niacin diad in acrolein-induced apoptosis in ARPE-19 cells. Methods The ARPE-19 cells were cultured in medium containing 10% fetal bovine serum , at 37 ℃ with 5% CO2. The ARPE-19 was transferred to 6-well plate after reaching to 70% confluence. After starvation for 24 h , the cells in 6-well plates were divided into three groups , including the blank control group , the acrolein treatment group with 50 μmol/L acrolein for 24 h , and the protection group with 100 μmol/L lipoic acid-niacin diad for 24 h and with the acrolein for another 24 h. The apoptotic cells were detected by flow cytometry assay , and expressions of Bcl-2 , Bax protein were detected by Western Blot assay. Results The percentages of normal healthy cells were 94.8%, 60.98%, and 91.34% in the blank control group , 50 μmol/L acrolein group and 100 μmol/L diad contained of lipoic acid and niacin group , respectively. The ratios of Bax/Bcl-2 protein expression were 0.293 9, 1.389 2, and 0.555 8 in the blank control group, 50 μmol/L acrolein group and 100 μmol/L diad contained of lipoic acid and niacin group, respectively. Conclusion The protective effect of lipoic acid-niacin diad on acrolein-induced apoptosis in ARPE-19 cell through promoting Bcl-2 expression and inhibiting Bax expression.
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Polyamines, putrescine, spermidine and spermine, are ubiquitous in living cells and are essential for eukaryotic cell growth. These polycations interact with negatively charged molecules such as DNA, RNA, acidic proteins and phospholipids and modulate various cellular functions including macromolecular synthesis. Dysregulation of the polyamine pathway leads to pathological conditions including cancer, inflammation, stroke, renal failure and diabetes. Increase in polyamines and polyamine synthesis enzymes is often associated with tumor growth, and urinary and plasma contents of polyamines and their metabolites have been investigated as diagnostic markers for cancers. Of these, diacetylated derivatives of spermidine and spermine are elevated in the urine of cancer patients and present potential markers for early detection. Enhanced catabolism of cellular polyamines by polyamine oxidases (PAO), spermine oxidase (SMO) or acetylpolyamine oxidase (AcPAO), increases cellular oxidative stress and generates hydrogen peroxide and a reactive toxic metabolite, acrolein, which covalently incorporates into lysine residues of cellular proteins. Levels of protein-conjuagated acrolein (PC-Acro) and polyamine oxidizing enzymes were increased in the locus of brain infarction and in plasma in a mouse model of stroke and also in the plasma of stroke patients. When the combined measurements of PC-Acro, interleukin 6 (IL-6), and C-reactive protein (CRP) were evaluated, even silent brain infarction (SBI) was detected with high sensitivity and specificity. Considering that there are no reliable biochemical markers for early stage of stroke, PC-Acro and PAOs present promising markers. Thus the polyamine metabolites in plasma or urine provide useful tools in early diagnosis of cancer and stroke.
Subject(s)
Animals , Humans , Mice , Acrolein , Biomarkers , Brain Infarction , C-Reactive Protein , Diacetyl , DNA , Early Detection of Cancer , Eukaryotic Cells , Hydrogen Peroxide , Inflammation , Interleukin-6 , Lysine , Metabolism , Oxidative Stress , Oxidoreductases , Phospholipids , Plasma , Polyamines , Putrescine , Renal Insufficiency , RNA , Sensitivity and Specificity , Spermidine , Spermine , StrokeABSTRACT
Acrolein, one of the most common environmental and industrial pollutants is mainly formed during the combustion of organic matter. Due to the widespread presence of acrolein (1%-13%) among the total atmospheric aldehydes, and its potential health hazards, the present study was carried out to evaluate the biochemical mechanism of acrolein on oxidative stress-mediated nephrotoxicity. The purpose of this study was to investigate the protective effect of a-tocopherol (a form of Vitamin E), against acrolein-induced nephrotoxicity. Male Wistar rats weighing 90–100 g were used in the study. The rats were divided into three groups: Group I was given distilled water; group II was given acrolein at a concentration of 2.5 mg/kg body weight/day through oral intubation, for a period of 45 days; group III was given an oral dose of acrolein (2.5 mg/kg body weight/day) supplemented with α-tocopherol in the diet at a concentration of 65 mg/kg diet/day. The levels of reduced glutathione, ascorbic acid, α-tocopherol and the activity of catalase were decreased significantly (P<0.001), whereas the activities of superoxide dismutase, glutathione peroxidase (P<0.001) and glutathione-S-transferase (P<0.01) were increased in acrolein-treated rat kidney. The levels of blood urea nitrogen and serum creatinine were increased significantly (P<0.001) in experimental animals, whereas the level of blood glucose was decreased significantly (P<0.001). These results suggest that supplementation of vitamin E effectively scavenges free radicals in tissues, regenerating the antioxidants and the antioxidant enzymes which prevent renal deterioration in acrolein-induced toxicity in rats. It appears that in the case of renal impairment, α-toco-pherol therapy could emerge as an additional therapeutic modality in reducing the damage that often results from certain anti-cancer drugs like cyclophosphamide, where acrolein is one of the toxic metabolites, forming acroleinprotein adducts.
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Purpose To investigate the responsiveness of intracellular oxygen free radical and calcium on acrolein exposure and acrolein-induced cardiomyocytes apoptosis. Methods The viable adult mice cardiac myocytes were isolated by modified langendorff methods. We have examined the intracellular oxygen free radical and calcium concentration using DCF and Fura-2 AM, and the cardiomyocytes viability with WST assay. Are evaluated the DNA ladder pattern and cell apoptotic morphology on the adult mice cardiomyocytes that are exposed to acrolein. Results Our results show that acrolein can increase markedly the intracellular oxygen free radical and calcium concentration, that reach 12 fold and twofold respectively compared to the resting value when the cells were exposed to 1 μmol/L of acrolein. Moreover, the injury induced by acrolein in cardiac myocytes is concentration-dependent. The cardiomyocytes viability treated with 25, 50, 100 μmol/L of acrolein respectively were significantly lower compared to controls (P < 0.01 ). DNA ladder pattern and apoptotic morphological changes were found after being exposed to acrolein in the adult mice cardiomyocytes. Conclusion It is concluded that acrolein induces adult mice cardiomyocytes apoptosis, and it may be due to the increased intracellular oxygen free radicals and calcium concentration.
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Objective:To investigate the protective effect of ginkgetin from oxidative stress on immature testis induced by cyclophosphamide(CP) metabolite acrolein(ACR) in vitro.Methods:The sertoli cells were isolated from 7-days old SD rats' testes,culture and passage to F2 generations.Experiment groups were divided into: 1)Ginkgetin incubated for 12 hours and then treat with ACR 2) Ginkgetin and ACR add to cells at the same time 3) Ginkgetin and ACR were incubated for 12 hours,then add to cells.Control group include: 1) Vitamin E were incubated cells for 12 hours,then add ACR respectively 2) Added ACR only as the negative control group 3) Not add any factors as the positive control group.3 h later the viability of sertoli cell were determined by MTT.Protein concentration was determinate by Coomassie Brilliant Blue.Malondialdehyde(MDA),hydroxyl radical(OH ?),total antioxidant capacity(T-ACO),Superoxide dismutase(SOD) and glutathione reductase(GR) activity were tested.Results:1) Ginkgetin(add before ACR) can significantly raise the viability of the cells(P
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Objective To establish the method of acetaldehyde and acraldehyde in water with headspace gas chromatography. Methods Acetaldehyde and acraldehyde in the water samples were extracted by headspace technology,then analyzed with DB-624 capillary column. In the same time,they were determined with GC by controlling the temperature. Retention time of the peaks was used for qualitative analysis,while external standard method was used for quantitative analysis. Results In 3.0-250 ?g/L, the regression equation for acetaldehyde was y=406.83 x+0.847,r=0.999 9,the lowest detection limit was 1.0 ?g/L. In 6.2-500 ?g/L, the regression equation for acraldehyde was y=207.53 x-0.450,r=0.999 8,the lowest detection limit was 3.3 ?g/L. The rates of recovery were 90.0%-95.5%,and RSDs were 2.1%-3.7%. Conclusion This method is simple,rapid,sensitive and is applicable to the determination of acetaldehyde and acraldehyde in water.