Hydrogen Sulfide Protects HUVECs against Hydrogen Peroxide Induced Mitochondrial Dysfunction and Oxidative Stress

Background

Hydrogen sulfide (H₂S) has been shown to have cytoprotective effects in models of hypertension, ischemia/reperfusion and Alzheimer''s disease. However, little is known about its effects or mechanisms of action in atherosclerosis. Therefore, in the current study we evaluated the pharmacological effects of H₂S on antioxidant defenses and mitochondria protection against hydrogen peroxide (H₂O₂) induced endothelial cells damage.

Methodology and Principal Findings

H₂S, at non-cytotoxic levels, exerts a concentration dependent protective effect in human umbilical vein endothelial cells (HUVECs) exposed to H₂O₂. Analysis of ATP synthesis, mitochondrial membrane potential (ΔΨm) and cytochrome c release from mitochondria indicated that mitochondrial function was preserved by pretreatment with H₂S. In contrast, in H₂O₂ exposed endothelial cells mitochondria appeared swollen or ruptured. In additional experiments, H₂S was also found to preserve the activities and protein expressions levels of the antioxidants enzymes, superoxide dismutase, catalase, glutathione peroxidase and glutathione-S-transferase in H₂O₂ exposed cells. ROS and lipid peroxidation, as assessed by measuring H₂DCFDA, dihydroethidium (DHE), diphenyl-l-pyrenylphosphine (DPPP) and malonaldehyde (MDA) levels, were also inhibited by H₂S treatment. Interestingly, in the current model, D, L-propargylglycine (PAG), a selective inhibitor of cystathionine γ-lyase (CSE), abolished the protective effects of H₂S donors.

Innovation

This study is the first to show that H₂S can inhibit H₂O₂ mediated mitochondrial dysfunction in human endothelial cells by preserving antioxidant defences.

Significance

H₂S may protect against atherosclerosis by preventing H₂O₂ induced injury to endothelial cells. These effects appear to be mediated via the preservation of mitochondrial function and by reducing the deleterious effects of oxidative stress.     

Dual Effects of Hydrogen Sulfide Donor on Meiosis and Cumulus Expansion of Porcine Cumulus-Oocyte Complexes

Hydrogen sulfide (H₂S) has been revealed to be a signal molecule with second messenger action in the somatic cells of many tissues, including the reproductive tract. The aim of this study was to address how exogenous H₂S acts on the meiotic maturation of porcine oocytes, including key maturation factors such as MPF and MAPK, and cumulus expansion intensity of cumulus-oocyte complexes. We observed that the H₂S donor, Na₂S, accelerated oocyte in vitro maturation in a dose-dependent manner, following an increase of MPF activity around germinal vesicle breakdown. Concurrently, the H₂S donor affected cumulus expansion, monitored by hyaluronic acid production. Our results suggest that the H₂S donor influences oocyte maturation and thus also participates in the regulation of cumulus expansion. The exogenous H₂S donor apparently affects key signal pathways of oocyte maturation and cumulus expansion, resulting in faster oocyte maturation with little need of cumulus expansion.     

Hydrogen Sulfide Donor NaHS Protects Mesenchymal Stem and Melanoma Cells from the Negative Effects of Infrared Laser Irradiation

Molecular Biology - We have established earlier that 835-nm infrared laser irradiation results in a dose-dependent growth inhibition of human mesenchymal stem and melanoma cells and is able to...     

灵长类卵母细胞体外发育潜能的调控

灵长类卵母细胞细胞质成熟调控研究较为滞后,使得体外成熟的灵长类卵母细胞的胚胎发育潜能十发低下。提高其潜能对治疗人类不育症有重要的应用价值,并可推动灵长类胚胎发育的研究。基于猕猴卵母细胞质成熟调控研究,讨论了无血清成熟培养基中雌激素和孕激素、能量物质、氨基酸对卵母细胞质成熟的影响,以及动物年龄和生殖周期与发育潜能的关系。从分子水平进一步解释这些因素的作用,阐明卵母细胞质成熟的机理将是今后工作的方向。     

Hydrogen Sulfide Improves the Vase Life and Quality of Cut Roses and Chrysanthemums

Recent studies indicate that hydrogen sulfide (H₂S) plays various physiological roles in plants. However, whether H₂S participates in the postharvest senescence in cut flowers remains unknown. In this study, the regulatory roles of H₂S during the senescence of cut roses (Rosa hybrida L.) and chrysanthemums (Dendranthema morifolium Ramat.) were investigated. The results showed that compared with the control (distilled water), the 50 μM sodium hydrosulfide (NaHS) treatment, a H₂S donor, extended the vase life of cut roses to 9.3 days and their flower diameter also showed an increment of 22.7% after 4 days treatment. Treatments with 30 μM NaHS significantly prolonged the vase life of cut chrysanthemums to 8.87 days and the flower diameter was 13.21% longer than the control on day 6. Additionally, results also indicated that a 30 or 50 μM NaHS treatment effectively decreased the rate of fresh weight changes and O²⁻ production and H₂O₂ content, increased the levels of soluble sugar, soluble protein, anthocyanin and carotenoid, and enhanced the activities of antioxidant enzymes (superoxide dismutase, peroxidase, catalase and ascorbate peroxidase) of cut roses and chrysanthemums in comparison with the control, implying that H₂S might be involved in regulating the osmotic balance, antioxidant system and the degradation of nutrient and pigments. Altogether, H₂S at proper doses might play an important role in improving the longevity and quality of cut roses and chrysanthemums by maintaining water balance, reducing the degradation of pigments and nutrient and enhancing antioxidant capacity.

     

Effect of Different Parthenogenetic Activation Methods on the Developmental Competence of in vitro Matured Porcine Oocytes

The aim of this study was to investigate the effect of electrical pulse, ethanol, and ionomycin combined with cycloheximide (CHX), cytochalasin B (CB), and 6-dimethylaminopurine (6-DMAP) on parthenogenetic developmental competence of in vitro matured porcine oocytes. In experiment 1, oocytes were treated with direct current electrical pulse (DC pulse) and then incubated in the NCSU-23 medium supplemented with CHX, 6-DMAP, CB + CHX, and CB + 6-DMAP for 6 h, respectively. The rate of blastocyst development in DC pulse + CB + 6-DMAP group was significantly higher than those in other groups (42.4% vs 23.9% ～ 35.8%; P < 0.05); however, there were no differences in both of the cleavage rate and the cell number of blastocysts among four groups. In experiment 2, oocytes were treated with NCSU-23 medium containing 20 μM ionomycin for 40 min and then incubated in the NCSU-23 medium supplemented with CHX, 6-DMAP, CB + CHX and CB + 6-DMAP for 6 h, respectively. The rates of cleavage and blastocyst development in ionomycin + 6-DMAP group were higher than those obtained in other groups (66.2% vs 46.3% ～ 57.3%; 22.3% vs 7.4% ～ 16.1%; P < 0.05). In experiment 3, the activation effects of ethanol combined with 6-DMAP, CHX, CB + 6-DMAP and CB + CHX were investigated. The rates of cleavage and blastocyst development in ethanol + CB + 6-DMAP group were significantly higher than those in other groups (55.5% vs 42% ～ 46.2%; 18.0% vs 7.1% ～ 11.9%; P < 0.05). In experiment 4, the optimal activation protocols in each group plus DC pulse + ionomycin + 6-DMAP were compared. The results showed the rates of cleavage in DC pulse + CB + 6-DMAP group and ionomycin + 6-DMAP were higher than those in ethanol + CB + 6-DMAP and DC pulse + ionomycin + 6-DMAP (73.8–74.4% vs 56.5–57.5%; P < 0.05), but the blastocyst development only in DC pulse + CB + 6-DMAP group was significantly higher than that in other groups (34.1% vs 13.4% ～ 22.3%; P < 0.05). Total cell number of blastocysts in the group of DC pulse + ionomycin + 6-DMAP was higher than that in other groups (34.1 vs 25.3–27.2; P < 0.05). In conclusion, DC pulse, ethanol, CB, and 6-DMAP all affected the parthenogenesis of porcine oocytes matured in vitro, but their combination of DC pulse + CB + 6-DMAP showed the best result in both of cleavage and blastocyst development.     

Hydrogen Sulfide,the Next Potent Preventive and Therapeutic Agent in Aging and Age-Associated Diseases

Hydrogen sulfide (H₂S) is the third endogenous signaling gasotransmitter, following nitric oxide and carbon monoxide. It is physiologically generated by cystathionine-γ-lyase, cystathionine-β-synthase, and 3-mercaptopyruvate sulfurtransferase. H₂S has been gaining increasing attention as an important endogenous signaling molecule because of its significant effects on the cardiovascular and nervous systems. Substantial evidence shows that H₂S is involved in aging by inhibiting free-radical reactions, activating SIRT1, and probably interacting with the age-related gene Klotho. Moreover, H₂S has been shown to have therapeutic potential in age-associated diseases. This article provides an overview of the physiological functions and effects of H₂S in aging and age-associated diseases, and proposes the potential health and therapeutic benefits of H₂S.     

Effect of Hydrogen Sulfide on Cyclic AMP Production in Isolated Bovine and Porcine Neural Retinae

Hydrogen sulfide (H₂S) has been reported to exert pharmacological effects on neural and non-neural tissues from several mammalian species. In the present study, we examined the role of the intracellular messenger, cyclic AMP in retinal response to H₂S donors, sodium hydrosulfide (NaHS) and sodium sulfide (Na₂S) in cows and pigs. Isolated bovine and porcine neural retinae were incubated in oxygenated Krebs buffer solution prior to exposure to varying concentrations of NaHS, Na₂S or the diterpene activator of adenylate cyclase, forskolin. After incubation at different time intervals, tissue homogenates were prepared for cyclic AMP assay using a well established methodology. In isolated bovine and porcine retinae, the combination of both phosphodiesterase inhibitor, IBMX (2 mM) and forskolin (10 μM) produced a synergistic increase (P < 0.001) in cyclic AMP concentrations over basal levels. NaHS (10 nM–100 μM) produced a time-dependent increase in cyclic AMP concentrations over basal levels which reached a maximum at 20 min in both bovine and porcine retinae. At this time point, both NaHS and Na₂S (10 nM–100 μM) caused a significant (P < 0.05) dose-dependent increase in cyclic AMP levels in bovine and porcine retinae. For instance, NaHS (100 nM) elicited a four-fold and three-fold increase in cyclic AMP concentrations in bovine and porcine retinae respectively whilst higher concentrations of Na₂S (100 μM) produced a much lesser effect in both species. In bovine and porcine retinae, the effects caused by forskolin (10 μM) on cyclic AMP production were not potentiated by addition of low or high concentrations of both NaHS and Na₂S. We conclude that H₂S donors can increase cyclic AMP production in isolated neural retinae from cows and pigs. Bovine retina appears to be more sensitive to the stimulatory effect of H₂S donors on cyclic nucleotide production than its porcine counterpart indicating that species differences exist in the magnitude of this response. Furthermore, effects produced by forskolin on cyclic AMP formation were not additive with those elicited by H₂S donors suggesting that these agents may share a common mechanism in their action on the adenylyl cyclase pathway.     

Effect of Hydrogen Sulfide on Sympathetic Neurotransmission and Catecholamine Levels in Isolated Porcine Iris-Ciliary Body

In the present study, we investigated the pharmacological action of hydrogen sulfide (H₂S, using sodium hydrosulfide, NaHS, and/or sodium sulfide, Na₂S as donors) on sympathetic neurotransmission from isolated, superfused porcine iris-ciliary bodies. We also examined the effect of H₂S on norepinephrine (NE), dopamine and epinephrine concentrations in isolated porcine anterior uvea. Release of [³H]NE was triggered by electrical field stimulation and basal catecholamine concentrations was measured by high performance liquid chromatography (HPLC). Both NaHS and Na₂S caused a concentration-dependent inhibition of electrically evoked [³H]NE release from porcine iris-ciliary body without affecting basal [³H]NE efflux. The inhibitory action of H₂S donors on NE release was attenuated by aminooxyacetic acid (AOA) and propargyglycine (PAG), inhibitors of cystathionine β-synthase (CBS) and cystathionine γ-lyase (CSE), respectively. With the exception of dopamine, NaHS caused a concentration-dependent reduction in endogenous NE and epinephrine concentrations in isolated iris-ciliary bodies. We conclude that H₂S can inhibit sympathetic neurotransmission from isolated porcine anterior uvea, an effect that is dependent, at least in part, on intramural biosynthesis of this gas. Furthermore, the observed action of H₂S donors on sympathetic transmission may be due to a direct action of this gas on neurotransmitter pools.     

Effect of Hydrogen Sulfide Donor on Antioxidant State of Wheat Plants and Their Resistance to Soil Drought

Russian Journal of Plant Physiology - Effects of plant treatment with a donor of hydrogen sulfide—sodium hydrosulfide—on the state of antioxidative and osmoprotective systems of young...     

猪卵母细胞的体外受精及多精受精

对用于猪体外受精(IVF)的研究方法和技术,如传统的液滴IVF、透明带下注射精子受精(SUZI)、卵母细胞质内单精注射受精(ICSI)及细管IVF等进行了简述。与其它动物相比,进行猪卵的体外受精研究,多精受精现象特别明显。大量的研究表明,猪卵的多精受精不但与其品种特性有关,而且与卵母细胞成熟的程度、透明带的异常、受精时获能精子的浓度、输卵管分泌物、受精液蛋白添加成分、NaHCO3浓度、咖啡因、pH值以及温度等因素密切相关。     

Hydrogen Sulfide and Pathophysiology of the CNS

Neurophysiology - The literature data and results of our research team concerning the physiological and pathological effects of hydrogen sulfide, a gas transmitter that has recently attracted...     

Spindle-view系统在猪卵母细胞去核中的应用

应用Spindle-view对体外成熟培养36、42、44和48h的猪体外成熟卵母细胞减数分裂纺锤体进行去核操作,并与传统去核方法(McGrath-Solter去核法,挤压去核法)相比较,结果表明:①在42~48h之间利用Spindle-view得到的猪卵纺锤体影像与极体的相对位置没有明显的变化;②Spindle-view适合用于猪体外成熟卵母细胞减数分裂纺锤体的观察及去核;去核效率与其他两种方法相比差异极显著(95.5%,42.1%,74.2%,P<0.01);③纺锤体成像是否清晰可用于猪卵母细胞的质量监控。     

Stress-Protective Responses of Wheat and Rye Seedlings Whose Chilling Resistance Was Induced with a Donor of Hydrogen Sulfide

Russian Journal of Plant Physiology - The effect of sodium hydrosulfide (NaHS) as a donor of hydrogen sulfide on the resistance to subzero temperatures was investigated in the seedlings of winter...     

Hydrogen Sulfide Promotes Wheat Seed Germination and Alleviates Oxidative Damage against Copper Stress

With the enhancement of copper (Cu) stress, the germination percentage of wheat seeds decreased gradually. Pretreatment with sodium hydrosulfide (NaHS), hydrogen sulfide (H2S) donor alleviated the inhibitory effect of Cu stress in a dose-dependent manner; whereas little visible symptom was observed in germinating seeds and radicle tips cultured in NaHs solutions. It was verified that H2S or HS- rather than other sulfur-containing components derived from NaHs attribute to the potential role in promoting seed germination against Cu stress. Further studies showed that NaHS could promote amylase and esterase activities, reduce Cu-induced disturbance of plasma membrane integrity in the radicle tips, and sustain lower levels of malondialdehyde and H2O2 in germinating seeds. Furthermore, NaHs pretreatment increased activities of superoxide dismutase and catalase and decreased that of lipoxygenase, but showed no significant effect on ascorbate peroxidase. Alternatively, NaHs prevented uptake of Cu and promoted the accumulation of free amino acids in seeds exposed to Cu. In addition, a rapid accumulation of endogenous H2S in seeds was observed at the early stags of germination, and higher level of H2S in NaHS-pretreated seeds. These data indicated that H2S was involved in the mechanism of germinating seeds' responses to Cu stress.     

Functional Interaction of ROS and Nitric Oxide during Induction of Heat Resistance of Wheat Seedlings by Hydrogen Sulfide Donor

Russian Journal of Plant Physiology - The participation of reactive oxygen species (ROS) and nitric oxide (NO), and also enzymatic systems generating them, in the development of heat resistance of...     

Developmental Potential of Prepubertal Mouse Oocytes Is Compromised Due Mainly to Their Impaired Synthesis of Glutathione

Although oocytes from prepubertal animals are found less competent than oocytes from adults, the underlying mechanisms are poorly understood. Using the mouse oocyte model, this paper has tested the hypothesis that the developmental potential of prepubertal oocytes is compromised due mainly to their impaired potential for glutathione synthesis. Oocytes from prepubertal and adult mice, primed with or without eCG, were matured in vitro and assessed for glutathione synthesis potential, oxidative stress, Ca²⁺ reserves, fertilization and in vitro development potential. In unprimed mice, abilities for glutathione synthesis, activation, male pronuclear formation, blastocyst formation, cortical granule migration and polyspermic block were all compromised significantly in prepubertal compared to adult oocytes. Cysteamine and cystine supplementation to maturation medium significantly promoted oocyte glutathione synthesis and blastocyst development but difference due to maternal age remained. Whereas reactive oxygen species (ROS) levels increased, Ca²⁺ storage decreased significantly in prepubertal oocytes. Levels of both catalytic and modifier subunits of the γ-glutamylcysteine ligase were significantly lower in prepubertal than in adult oocytes. Maternal eCG priming improved all the parameters and eliminated the age difference. Together, the results have confirmed our hypothesis by showing that prepubertal oocytes have a decreased ability to synthesize glutathione leading to an impaired potential to reduce ROS and to form male pronuclei and blastocysts. The resulting oxidative stress decreases the intracellular Ca²⁺ store resulting in impaired activation at fertilization, and damages the microfilament network, which affects cortical granule redistribution leading to polyspermy.     

Effects of the Hydrogen Sulfide Donor GYY4137 and HSP70 Protein on the Activation of SH-SY5Y Cells by Lipopolysaccharide

Molecular Biology - The effects of exogenous recombinant human heat shock protein Hsp70 and hydrogen sulfide donor GYY4137 on the mechanisms of endocytosis of lipopolysaccharide (LPS) by human...     

Psychological Stress on Female Mice Diminishes the Developmental Potential of Oocytes: A Study Using the Predatory Stress Model

Although the predatory stress experimental protocol is considered more psychological than the restraint protocol, it has rarely been used to study the effect of psychological stress on reproduction. Few studies exist on the direct effect of psychological stress to a female on developmental competence of her oocytes, and the direct effect of predatory maternal stress on oocytes has not been reported. In this study, a predatory stress system was first established for mice with cats as predators. Beginning 24 h after injection of equine chorionic gonadotropin, female mice were subjected to predatory stress for 24 h. Evaluation of mouse responses showed that the predatory stress system that we established increased anxiety-like behaviors and plasma cortisol concentrations significantly and continuously while not affecting food and water intake of the mice. In vitro experiments showed that whereas oocyte maturation and Sr²⁺ activation or fertilization were unaffected by maternal predatory stress, rate of blastocyst formation and number of cells per blastocyst decreased significantly in stressed mice compared to non-stressed controls. In vivo embryo development indicated that both the number of blastocysts recovered per donor mouse and the average number of young per recipient after embryo transfer of blastocysts with similar cell counts were significantly lower in stressed than in unstressed donor mice. It is concluded that the predatory stress system we established was both effective and durative to induce mouse stress responses. Furthermore, predatory stress applied during the oocyte pre-maturation stage significantly impaired oocyte developmental potential while exerting no measurable impact on nuclear maturation, suggesting that cytoplasmic maturation of mouse oocytes was more vulnerable to maternal stress than nuclear maturation.