Effects of Exogenous Glycine Betaine on Oxidation Metabolism in Cucumbers during Low-temperature Storage

[Objective] This study aimed to analyze the effects of different concentrations of glycine betaine（GB） on oxidation metabolism in cucumbers under low-temperature stress and to investigate the possible mechanism of low-temperature resistance in cucumber during low-temperature storage. [Method] Cucumber cultivar Zhongnong No.8 was treated with 0, 5, 10 and 15 mmol/L GB solutions for 15 min and stored at 4 ℃. Changes in oxidative metabolism-related parameters were observed. [Result] Increasing exogenous GB concentration could enhance GB content in cucumbers, decline lipoxygenase（LOX） activity, improve peroxidase（POD） and catalase（CAT） activities, remove effectively hydrogen peroxide（H2O2） and reduce the accumulation of malondialdehyde（MDA）. [Conclusion] Treating cucumbers with10 mmol/L GB exhibited the most remarkable effect.

Changes of oxidative metabolism in the roots of wheat(Triticum aestivum L.)seedlings in response to elevated ammonium concentrations

To elucidate the response of oxidative metabolism,triggered by elevated ammonium(NH_(4)^(+))concentrations,on root growth of wheat seedlings,Yumai 49(NH_(4)^(+)-tolerant)and Lumai 15(NH_(4)^(+)-sensitive)cultivars were supplied with either 5.0 mmol L^(–1)NH_(4)^(+)-N(EAC)or 5.0 mmol L–1 NO_(3)–-N(CON)under hydroponic conditions.Root growth in both cultivars was significantly reduced under EAC,and the negative effect was greater in Lumai 15.EAC enhanced the activities of monodehydroascorbate reductase and dehydroascorbate reductase in the roots of both cultivars,while it decreased ascorbic acid(ASA)content and GDP-mannose pyrophosphorylase(GMPase)activity at the 12 th day after treatment in Lumai 15 by 62.0 and 71.4%;and in Yumai 49 by 38.8 and 62.2%,respectively,indicating that the regeneration of ASA was increased,but the biosynthesis of ASA was reduced under EAC treatment.Moreover,EAC increased DHA/ASA,reactive oxygen species(ROS),and malondialdehyde contents,as well as antioxidant enzyme activities in the roots of both cultivars.Relatively greater increases in ROS and soluble sugar,and lower antioxidant enzyme activities in Lumai 15 indicate severe disruption of oxidative metabolism when compared to Yumai 49.Results reveal that the reduction of ASA biosynthesis via decreased GMPase activity under the EAC condition probably acts as a trigger for accumulated ROS and imbalanced redox status,resulting in root growth inhibition during wheat seedling growth stage.Yumai 49,being an NH_(4)^(+)-tolerant cultivar,had the stronger capacity to protect itself from oxidative stress,which allowed it to retain a lower DHA to ASA ratio by maintaining a better redox homeostasis than could be maintained in the NH_(4)^(+)-sensitive cultivar Lumai 15.

Oxidative Metabolism of Estrone Modified by Genistein and Bisphenol A in Rat Liver Microsomes

Genistein, the main isoflavone from soy, and bisphenol A （BPA）, a food contaminant, are considered ubiquitous xenoestrogens. Here we investigated the influence of genistein and BPA on estrone （El） metabolism in rat liver microsomes. Both substances inhibited the 2-hydroxylation and 16a-hydroxylation of E1, but in different degrees, thereby reducing the 2-OH-E1/16a-OH-E1 ratio,

Anti-hypertensive effects of rosiglitazone on renovascular hypertensive rats:role of oxidative stress and lipid metabolism

This study investigated the anti-hypertensive mechanismof rosiglitazone in renovascular hypertensive rats,and examined its relationship to oxidative stress and lipid metabolism. The renovascular hypertension was induced by stenosis of the left renal artery. Four groups of rats were selected： control,induced untreated,rosiglitazone（ 20 mg / kg） and captopril（ 10 mg / kg）. After 14 d of administration,compared with induced untreated group,rosiglitazone group reduced the renovascular hypertensive rats ＇ systolic blood pressure and diastolic blood pressure,and decreased total cholesterol（TCH）,triglyceride（TG）,angiotensin II（ Ang II） and angiotensin receptor（ AT1） levels（ P ＆lt; 0. 05）. Meanwhile,rosiglitazone remarkably decreased the levels of malondialdehyde（ MDA） and hydrogen peroxide（ H2O2） while improved the levels of supperoxide dismutase（ SOD） and reduced glutathione（ GSH）. These results suggested that rosiglitazone could effectively decreased the blood pressure in renovascular hypertensive rats,and this might be performed by regulating the activity of angiotensin and the lipid metabolismand improving the oxidative stress.

The tortuous path of lactate shuttle discovery:From cinders and boards to the lab and ICU

Once thought to be a waste product of oxygen limited(anaerobic)metabolism,lactate is now known to form continuously under fully oxygenated(aerobic)conditions.Lactate shuttling between producer(driver)and consumer cells fulfills at least 3 purposes;lactate is:(1)a major energy source,(2)the major gluconeogenic precursor,and(3)a signaling molecule.The Lactate Shuttle theory is applicable to diverse fields such as sports nutrition and hydration,resuscitation from acidosis and Dengue,treatment of traumatic brain injury,maintenance of glycemia,reduction of inflammation,cardiac support in heart failure and following a myocardial infarction,and to improve cognition.Yet,dysregulated lactate shuttling disrupts metabolic flexibility,and worse,supports oncogenesis.Lactate production in cancer(the Warburg effect)is involved in all main sequela for carcinogenesis:angiogenesis,immune escape,cell migration,metastasis,and self-sufficient metabolism.The history of the tortuous path of discovery in lactate metabolism and shuttling was discussed in the 2019 American College of Sports Medicine Joseph B.Wolffe Lecture in Orlando,FL.

Evaluating the quality of feed fats and oils and their effects on pig growth performance

Feed fats and oils provide significant amounts of energy to swine diets, but there is large variation in composition,quality, feeding value, and price among sources. Common measures of lipid quality include moisture, insolubles,and unsaponifiables（MIU）, titer, and free fatty acid content, but provide limited information regarding their feeding value. Lipid peroxidation is an important quality factor related to animal growth performance and health, but maximum tolerable limits in various lipids have not been established. Several indicative assays can be used to detect the presence of various peroxidation compounds, but due to the complexity and numerous compounds produced and degraded during peroxidation process, no single method can adequately determine the extent of peroxidation. Until further information is available, using a combination of peroxide value, thiobarbituric acid reactive substances（TBARS）, and anisidine value appear to provide a reasonable assessment of the extent of peroxidation in a lipid at a reasonable cost. However, fatty acid composition of the lipid being evaluated should be considered when selecting specific assays. Predictive tests can also be used to estimate the stability or susceptibility of lipids to peroxidation and include active oxygen method, oil stability index, and oxygen bomb method. A review of 16 published studies with pigs has shown an average decrease of 11.4% in growth rate, 8.8% feed intake fed isocaloric diets containing peroxidized lipids compared to diets containing unperoxidized lipids of the same source.Furthermore, serum vitamin E content was generally reduced and serum TBARS content was increased when peroxidized lipids were fed in these studies, suggesting that feeding peroxidized lipids negatively affects metabolic oxidative status of pigs. However, it is unclear if antioxidants are useful additions to lipids to maintain optimal nutritional value, or if their addition to swine diets is beneficial in overcoming a metabolic oxidative challenge.

Green Tea Polyphenols Attenuate High-Fat Diet-Induced Renal Oxidative Stress through SIRT3-Dependent Deacetylation

Fifty male Wistar rats were fed a standard chow diet or a high-fat （HF） diet, and different concentrations of green tea polyphenols （GTPs） （0.8, 1.6, and 3.2 g/L） were administered in the drinking water. We found that the malondialdehyde （MDA） level in the HF diet group was significantly higher than that in the control （CON） group （P〈0.05）. Decreased peroxisome proliferato r-activated receptor （PPAR）-α and sirtuin 3 （SlRT3） expression, and increased manganese superoxide dismutase （MnSOD） acetylation levels were also detected in the HF diet group （P〈0.05）. GTP treatment upregulated SlRT3 and PPARa expression, increased the ppora mRNA level, reduced the MnSOD acetylation level, and decreased MDA production in rats fed a HF diet （P〈0.05）. No significant differences in total renal MnSOD and PPAR-y coactivator-1α （PGCI-α） expression were detected. The reduced oxidative stress detected in kidney tissues after GTP treatment was partly due to the higher SIRT3 expression, which was likely mediated by PPARα.

Simulation of the oxidative metabolization pattern of netupitant,an NK1 receptor antagonist,by electrochemistry coupled to mass spectrometry

Considering the frequent use of netupitant in polytherapy,the elucidation of its oxidative metabolization pattern is of major importance.However,there is a lack of published research on the redox behavior of this novel neurokinin-1 receptor antagonist.Therefore,this study was performed to simulate the intensive hepatic biotransformation of netupitant using an electrochemically driven method.Most of the known enzyme-mediated reactions occurring in the liver(i.e.,N-dealkylation,hydroxylation,and Noxidation)were successfully mimicked by the electrolytic cell using a boron-doped diamond working electrode.The products were separated by reversed-phase high-performance liquid chromatography and identified by high-resolution mass spectrometry.Aside from its ability to pinpoint formerly unknown metabolites that could be responsible for the known side effects of netupitant or connected with any new perspective concerning future therapeutic indications,this electrochemical process also represents a facile alternative for the synthesis of oxidation products for further in vitro and in vivo studies.

Tibetan patients with essential hypertension caused by underlying oxi dative metabolism dysfunction and depressed nitric oxide synthesis

To assess the role of oxidative metabolism and nitric oxide synthesis for elucid a ting their pathophysiological mechanisms in a Tibetan patient with essential hyp ertension Methods The serum levels of total superoxide dismutase (T SOD), malondialdehyde (MDA), total antioxidant capacity (T AOC), nitric oxide (NO) and nitric oxide synthase (NOS) were assayed in sixty native Tibetans (thirty hypertensive patients and t hirty healthy volunteers as control) Results The levels of T SOD, T AOC, NO and NOS were significantly lower in the patien t group than in the control group ( P <0 01); MDA was significantly higher in the patient group than in the control group ( P <0 01) The level of MDA ha d a strong negative correlation with T SOD, T AOC, NO and NOS ( r =-0 82, -0 76, -0 79, -0 73, respectively, P <0 001 for all) Conclusion Tibetan patients with essential hypertension (EH) may have underlying oxidative metabolism dysfunction and depressed NO synthesis, both responsible for the hype rtensive process

Effects of hyperbaric oxygen therapy on human psychomotor performance:A review

Psychomotor performance is the coordination of a sensory or ideational(cognitive)process and a motor activity.All sensorimotor processes involved in planning and execution of voluntary movements need oxygen supply and seem to be significantly disrupted in states of hypoxia.Hyperbaric oxygen therapy has become a widely used treatment in routine medicine and sport medicine due to its beneficial effects on different aspects of human physiology and performance.This paper presents state-of-the-art data on the effects of hyperbaric oxygen therapy on different aspects of human psychomotor function.The therapy’s influence on musculoskeletal properties and motor abilities as well as the effects of hyperbaric oxygenation on cognitive,myocardial and pulmonary functions are presented.In this review the molecular and physiological processes related to human psychomotor performance in response to hyperbaric oxygen are discussed to contribute to this fast-growing field of research in integrative medicine.