Effects of 4-Hydroxynonenal,A Product of Lipid Peroxidation,on Cell Proliferation and Ornithine Decarboxylase Activity

4-hydroxynonenal (HNE) is one of the major breakdown products of cellular lipid peroxidation. Its effects on proliferation, ornithine decarboxylase (ODC) activity and DNA synthesis have been investigated in leukemic cell lines. The cells were incubated for 1 hour with different aldehyde concentrations, then washed and resuspended in medium with fresh foetal calf serum. HNE concentrations ranging from 10^-5 to 10^-6 M significantly inhibited ODC activity when induced by addition of fresh foetal calf serum both in K562 and HL-60 cells. ³H-Thymidine incorporation in K562 cells was also inhibited from 6 to 12 hours after the treatment. The same HNE concentrations did not inhibit ODC activity when added to cytosol, thus a direct action on the enzyme can be excluded. Moreover, HNE did not affect the half-life of ODC, so that a specific effect on ODC synthesis may be supposed. These data indicate a reduction of proliferative capacity of the cells and are consistent with the possibility that HNE, at concentrations close to those found in normal cells, plays a role in the control of cell proliferation.     

Effect of 4-hydroxynonenal on antioxidant capacity and apoptosis induction in Jurkat T cells

4-Hydroxynonenal (HNE) is one of the major end products of lipid peroxidation and may have either physiological or pathological significance regulating cell proliferation. We studied some biochemical effects of HNE, at various concentrations (0.1-100 μM), on Jurkat T cells incubated thereafter for 24, 48 and 72 h. HNE at low concentrations significantly enhanced the proliferation index, whereas at higher concentrations progressively blocked cell proliferation. Caspase 3 activity increased significantly at HNE concentrations between 1 and 10 μM and decreased at higher concentrations. Superoxide dismutase (SOD), glutathione peroxidase (GSH-Px) and glutathione reductase (GSH-Rd) increased progressively with HNE concentrations, particularly GSH-Px. Glucose-6-phosphate dehydrogenase (G6PDH) showed a different pattern, increasing at low HNE (1-5 μM) concentrations and rapidly declined thereafter. These results show that HNE may induce growth inhibition of Jurkat T cells and regulate the activity of typical antioxidant enzymes. Furthermore, the protective effect of doubling the foetal calf serum still points out the risk that cultured cells undergo oxidative stress during incubation.     

Inhibition of cell proliferation and protease activity by cartilage factors and heparin

Proliferating rat smooth muscle cells and fibroblasts have membrane-associated protease activity. High concentrations of heparin inhibited membrane-associated protease activity and cell proliferation, while low concentration of heparin promoted smooth muscle cell proliferation. The inhibition of protease activity and proliferation was abolished when heparin was treated with protamine sulfate or when acid treated fetal calf serum was used. Heparin required the presence of an acid labile factor(s) in serum for the inhibition of protease activity and proliferation. Heparin and antithrombin III in the presence of acid-treated fetal calf serum did not inhibit cell proliferation or protease activity. Cartilage factors isolated from bovine nasal cartilage containing trypsin inhibitory activity, but not papain inhibitory activity, inhibited rat smooth muscle and fibroblast proliferation and surface associated protease activity. The cartilage factors did not require acid-labile components in the fetal calf serum for the inhibitory activity. The inhibitory activity due to heparin and cartilage factors was not permanent under our experimental condition. Protein synthesis was not inhibited by heparin or the cartilage factors. In rat smooth muscle cells and fibroblasts, the expression of surface-associated protease activity was related to the proliferative state of the cells. Surface protease activity was only present on proliferating cells. When surface protease activity was inhibited by high concentrations of heparin in the presence of an acid-labile serum component(s) or cartilage factors, cell proliferation was also inhibited.     

The effects of newborn calf serum and foetal bovine serum on the Na+ + K+-activated adenosine triphosphatase activity in 3T3 and SV3T3 cells grown to confluency

The effects of cell density and growth in 10% foetal bovine serum and 10% newborn calf serum on the activity of the enzyme (Na+ + K+)-ATPase were studied in 3T3 and SV3T3 cells. The enzyme activity decreases in 3T3 cells grown in foetal bovine serum as the cells approach confluency while in those grown in newborn calf serum the enzyme activity increases. The (Na+ + K+)-ATPase activity does not change with increase in cell density in SV3T3 cells grown in foetal bovine serum while the enzyme activity in those grown in newborn calf serum increases with increase in cells density up to about 1.35 x 10(5) cells/sq. cm. and then decreases with further increase in cell number. At confluency it was found that the enzyme activity is higher in the SV3T3 as compared to the 3T3 cells when the cells were grown in 10% foetal bovine serum, whereas in those grown in 10% newborn calf serum the enzyme activity is higher in the 3T3 as compared to the SV3T3 cells.     

Effect of insulin, thyroxine and oestradiol on growth of normal human diploid cells and human heteroploid HeLa cells

Insulin (5 micrograms/ml), thyroxine (1 microgram/ml) and beta-oestradiol (0.1 microgram/ml), if added separately to the medium, did not significantly influence the growth of normal human diploid LEP 19 cells cultivated in Eagle's MEM medium with 1% foetal calf serum. Combined, they did not influence the growth of LEP 19 cells in serum-free MEM medium either. Under the same cultivation conditions, insulin caused 37%, thyroxine 24% and a mixture of insulin, thyroxine and beta-oestradiol 325% (without serum) or 15% (with 1% foetal calf serum) stimulation of the growth of human heteroploid HeLa cells. Isolated beta-oestradiol significantly inhibited the growth of HeLa cells.     

利用CRISPR/Cas9技术建立敲除JAK2基因K562细胞系

目的:利用CRISPR/Cas9技术对K562细胞系JAK2基因进行编辑,构建JAK2基因敲除的K562细胞系。方法:使用CRISPR在线设计工具,针对JAK2基因设计sgRNA,构建Cas9-sgRNA共表达质粒。使用第二代慢病毒包装系统包装慢病毒并感染K562细胞,提取细胞基因组DNA,Sanger测序和TA克隆检测基因编辑活性。无限稀释法将编辑阳性的细胞接种于96孔板并扩培得到单克隆细胞株,提取基因组DNA,Sanger测序和TA克隆分析敲除JAK2单克隆细胞的基因型。结果:成功构建靶向敲除JAK2基因的lentiCRISPRv2-sgRNA3-1质粒。优化方案得到低细胞毒性高转染效率的感染K562细胞慢病毒量。CRISPR/Cas9系统成功在JAK2基因sgRNA3-1识别位点发挥基因组编辑活性,获得纯合敲除JAK2基因细胞株K562-JAK2~(-/-)(两个等位分别发生移码突变,预期编码没有功能的JAK2蛋白)。结论:CRIAPR/Cas9系统通过慢病毒感染方式获得JAK2基因纯合敲除的K562细胞株,该细胞模型可用于研究在慢性髓系白血病中JAK2基因的作用,为构建K562敲除其他基因细胞系提供实验依据,为探究造血分化机制的研究奠定实验基础。     

怀牛膝细胞悬浮培养条件的优化

为进一步优化怀牛膝(Achyranthes bidentata)细胞悬浮培养条件,对接种量、继代周期、pH、光照及Cu2+等多种影响因子的作用效果进行了研究,以提高怀牛膝细胞生长量及牛膝多糖含量。结果显示,接种量50 g·L^–1、继代周期14天,pH5–6和光照培养可以使细胞保持良好的生长状态及多糖合成能力;添加50μmol·L^–1 Cu^2+,细胞的干重最大,可达44.63 g·L^–1,多糖含量也最高,为4.02 mg·g^–1。     

In vitro effects of zinc on lymphoid cells of the carp, Cyprinus carpio L.

Cells from the spleen, anterior kidney, middle kidney, thymus and peripheral blood of common carp were tested in culture at 22°C. Unlike mammals, zinc was not found to be a mitogen but to have a suppressive effect. This was usually detectable at very low concentrations (10⁻⁷M), although the degree of suppression varied depending on the organ investigated. Direct toxic effects of the metal were only observed at high concentrations (0·5 × 10⁻³ m or greater). The use of carp serum supplement rather than foetal calf serum was important in demonstrating these effects.     

Stimulation of proteoglycan biosynthesis by serum and insulin-like growth factor-I in cultured bovine articular cartilage.

The addition of foetal calf serum to explant cultures of adult bovine articular cartilage is known to stimulate proteoglycan synthesis in a dose-dependent manner. We have now shown the activity in serum responsible for this effect to be heat- and acid-stable, to be associated with a high-Mr complex in normal serum but converted to a low-Mr form under acid conditions. The activity has an apparent Mr approximately 10,000 and isoelectric points similar to those reported for insulin-like growth factors (IGFs). Addition of a monoclonal antibody against insulin-like growth factor-I (IGF-I) prevented foetal calf serum from stimulating proteoglycan synthesis. Physiological concentrations of recombinant IGF-I or pharmacological levels of insulin when added to cartilage cultures mimicked the proteoglycan-stimulatory activity of serum. IGF-I appeared to act by increasing the rate of proteoglycan synthesis and did not change the nature of the proteoglycan synthesized nor the rate of proteoglycan catabolism by the tissue, suggesting that IGF-I may be important in the regulation of proteoglycan metabolism in adult articular cartilage. Furthermore, IGF-I can replace foetal calf serum in the culture medium, thereby allowing the use of a fully-defined medium which will maintain the synthesis and tissue levels of proteoglycan in adult articular cartilage explants for up to 5 days.     

壳聚糖对红松幼苗多酚积累和抗氧化防御酶的诱导作用

为探究壳聚糖诱导促进红松(Pinus koraiensis)多酚合成的生理调控机制, 以红松幼苗为实验材料, 在DCR培养基中添加不同浓度的壳聚糖, 诱导8天后测定多酚和原花青素的含量, 筛选有利于多酚积累的最佳的壳聚糖浓度。随后测定最佳浓度壳聚糖诱导下红松幼苗中多酚物质积累量、防御酶活性和多酚合成途径关键酶活性随时间的变化。结果显示: 50-200 mg·L^-1壳聚糖可以有效地提高多酚和原花青素的积累量。壳聚糖浓度为100 mg·L^-1时诱导效果最佳, 多酚积累量可以达到(9.91 ± 0.68) mg·g ^-1鲜质量, 是对照组的1.64倍; 原花青素积累量可以达到(2.52 ± 0.11) mg·g ^-1鲜质量, 是对照组的1.53倍。100 mg·L^-1壳聚糖诱导下红松幼苗防御相关酶(超氧化物歧化酶、过氧化物酶、过氧化氢酶)和多酚合成关键酶(苯丙氨酸转氨酶、肉桂酸4-羟化酶)迅速做出响应, 活性显著高于对照组。壳聚糖能够显著地激活红松幼苗的防御反应和苯丙烷代谢途径, 从而促进抗氧化物质多酚的合成与积累, 有利于提高红松幼苗的抵抗力。     

水杨酸调控盐胁迫下羽衣甘蓝种子萌发的机理

盐胁迫是植物种子萌发与植株生长的重要限制因子。以羽衣甘蓝(Brassica oleracea var.acephala)名古屋为材料,研究不同盐分对其种子萌发的影响,探索水杨酸(SA)及其合成抑制剂氨基茚磷酸(AIP)处理对羽衣甘蓝种子萌发的调控效应。实验结果表明,150与200 mmol·L^–1 NaCl处理后的羽衣甘蓝种子活力显著降低。盐胁迫显著降低种子的吸水速率、种子活力与幼苗质量,降低苯丙氨酸裂解酶活性与内源SA含量,提高过氧化氢(H2O2)与超氧阴离子(O2^–.)含量。SA可以缓解盐胁迫对羽衣甘蓝种子活力的抑制作用,通过促进内源SA合成,从而提高种子吸水率与种子活力,促进种子对K^+、Mg^2+的吸收,降低Na+含量。此外,外源施加SA能够显著增强超氧化物歧化酶和过氧化物酶活性,降低H2O2与O2^–.的积累。相反,氨基茚磷酸(AIP)处理能够增强盐胁迫对种子萌发的抑制作用,推测这与AIP处理能够显著降低种子内源SA含量密切相关。研究表明外源SA主要通过提高保护酶活性、降低活性氧积累和维持体内离子平衡来增强羽衣甘蓝的耐盐性。     

Increased glutathione levels in quiescent, serum-stimulated NRK-49F cells are associated not with a response to growth factors but with nutrient repletion.

Treatment of quiescent cells with serum results concomitantly in an increase in cellular glutathione (GSH) content and growth stimulation. A possible association between the GSH increase and the growth response was examined by studying separately the effects of nutrients and growth factors on the levels of cellular GSH and proliferation of quiescent NRK-49F cells. The addition of fresh medium with 10% calf serum was found to result in both a twofold increase in cellular GSH and growth stimulation (DNA synthesis and cell proliferation). 10% calf serum alone, without fresh medium, stimulated cell growth but failed to cause a comparable increase in cellular GSH. The addition of fresh medium without 10% serum, and of 0.5 mM cysteine and glutamate, resulted in both instances in a marked increase in cellular GSH, but failed to stimulate cell growth. EGF, in contrast, induced a complete mitogenic response but did not increase cellular GSH. Finally, pretreatment with L-buthionine-(S,R)-sulfoximine (BSO), a specific inhibitor of GSH synthesis, decreased cellular GSH and inhibited EGF-induced DNA synthesis, but these two responses do not, in their dose dependency, correlate. The results obtained thus show that the increase in cellular GSH that occurs in quiescent, serum-stimulated NRK-49F cells is a result of nutrient repletion rather than mitogenic stimulation, and increased GSH levels do not necessarily precede DNA synthesis and mitosis.     

Calcium stimulates ornithine decarboxylase activity in cultured mammalian epithelial cells

Ornithine decarboxylase (ODC) activity usually rises to a peak a few hours after a trophic stimulus. The stimulation of ODC has been shown to depend on extracellular calcium in several in vitro eukaryotic systems. We have investigated the effect of calcium concentration on ODC activity and have found that ODC is stimulated when CaCl2 alone is added to calcium-deprived cells. Epithelial cells from calf esophagus were cultured and grown until stratified. Replacement of medium with fresh serum-free medium resulted in stimulation of ODC activity, which peaked at 4 hours and declined to basal level by 10 hours. Subsequent depletion of Ca2+ either by addition of ethylene glycol bis (beta-aminoethyl ether) N,N'-tetraacetic acid (EGTA) or by replacement of medium with Ca2+-free medium, resulted in obliteration of ODC activity 4 hours later. Conversely, cultures in which medium was replaced with Ca2+-free medium and at 10 hours were repleted with Ca2+ (either by addition of CaCl2 or by replacement of medium with Ca2+-containing medium) exhibited a pronounced elevation of ODC activity 4 hours later. ODC activity peaked at 6 hours after the addition of CaCl2 and declined by 8 hours. The effect was elicited by a wide range of concentrations of added Ca2+ from 0.1 mM to 4.0 mM, but was maximal at 1.0 mM. ODC activity was totally abolished if either cycloheximide (10 micrograms/ml) or putrescine (10 mM) was added to cultures immediately prior to Ca2+ addition. Actinomycin D (2, 5, or 10 micrograms/ml) added 30 minutes before Ca2+ did not prevent the stimulation of ODC by added Ca2+. Stimulation by Ca2+ is dependent on (1) absence of Ca2+ during the initial 10-hour incubation and (2) duration of incubation in Ca2+-free medium prior to Ca2+ replenishment. The results indicate that Ca2+ can increase ODC in epithelial cells exposed to Ca2+-depleted medium and that the increase in ODC depends on protein synthesis but is not inhibited by actinomycin D.     

Diadenosine 5',5'-P1,P4-tetraphosphate (AP4A) levels under various proliferative and cytotoxic conditions in several mammalian cell types

Diadenosine 5',5'-P1,P4-tetraphosphate (Ap4A) has been proposed as an intracellular signal for growth. In order to test this hypothesis Ap4A levels were followed in several cell types under various conditions. Quiescent dog thyroid cells in a primary culture were induced to proliferate by addition of a mixture of epidermal growth factor, thyrotropin and foetal calf serum; V79 cells were synchronized by serum depletion then stimulated to proliferate by addition of foetal calf serum. Protein and DNA synthesis increased in both cases, although no significant changes in Ap4A levels per cell could be demonstrated. HeLa D98/AH2 and L929 cells were treated with human recombinant tumour necrosis factor alpha which caused marked cell death. This was measured by a decrease in DNA content and a release into extracellular medium of incorporated radioactive precursor. No concomitant variations in Ap4A concentrations could be observed under these conditions. The data from these various systems do not support the hypothesis that changes in Ap4A levels regulate cellular proliferation.     

Induction of differentiation and apoptosis in three human leukemia cell lines by a new compound from Dendrostellera lessertii

It has previously been shown that Dendrostellera lessertii(Thymelaeaceae)has stronganticancer activity.In this study,the antileukemic activity of another new compound from the same plantextract is reported.Promyelocytic(NB4 and HL-60)and erythroleukemia(K562)cells were cultured in thepresence of various concentrations of the new compound(0.5-3.0 μtg/ml)for 3d.The cell numbers werethen determined by trypan blue exclusion test.The new compound inhibited growth and proliferation ofNB4,HL-60 and K562 with IC_(50) values of 1.5,2.0 and 2.5μg/ml,respectively.We also found that the newcompound inhibited cell proliferation in a dose-and time-dependent manner.At low concentrations and after48h of treatment,approximately 50%-70% of NB4 and HL-60 cells were differentiated to monocyte/macrophage lineage and approximately 30%-40% of the treated K562 cells were differentiated in the mega-karyocytic lineage,as evidenced by morphological changes and nitro blue tetrazolium reduction assays.Results of Hoechst 33258 staining also indicated that the new compound induced NB4 and HL-60 cellapoptosis at their respective IC_(50) values after 72h of treatment.Based on the present data,the new com-pound seems a good candidate for further evaluation as an effective chemotherapeutic agent acting throughinduction of differentiation and apoptosis.     

The Biotransformation of Propylene to Propylene Oxide by Methylococcus capsulatus (Bath): 3. Reactivation of Inactivated Whole Cells to Give a High Productivity System

Methylococcus capsulatus (Bath) possesses methane monooxygenases (soluble - (sMMO) and particulate - (pMMO)) which are able to catalyse the epoxidation of propylene to propylene oxide. In a previous paper we have shown that the production of the epoxide caused a rapid inactivation of the bioconversion process (Stanley et al, 1992). This paper shows that cultures containing pMMO, inactivated by propylene oxide production, could be completely reactivated in the presence of growth substrates within 5 h after the removal of propylene oxide so long as the propylene oxide production rate was below 150 nmol min^-1 [mg dry weight cells]^-1. Reactivation under these conditions was detectable within 30 min of propylene oxide removal. On the other hand, cells inactivated by propylene oxide production rates in excess of 150 nmol min^-1 [mg dry weight]^-1 did not begin to recover activity within the 30 min period. Furthermore a lag period was observed before reactivation began which was dependent upon the initial production rate. Cultures possessing sMMO took twice as long to recover their activity compared with cells containing pMMO.

Reactivation of propylene oxide production could occur without growth, but the process required the presence of a carbon and energy source (methane or methanol), sulphur, nitrogen and oxygen, although copper (which is normally involved in pMMO activity) was not required. It was shown that de novo protein synthesis was required for reactivation of activity.

Production rates of 12 g 1^-1 d^-1 could be maintained for longer than three weeks in a single phase production process and rates up to 30 g 1^-1 d^-1 were achieved in a two stage process. Using Methylocystis parvus (OBBP) rates of up to 90 g 1^-1 d^-1 were attained over a one week period.     

The generation of oxygen radicals: a positive signal for lymphocyte activation

The induction of ornithine decarboxylase (ODC) activity in lymphocytes is associated with activation and the initiation of cellular proliferation. ODC is also an essential component in tumor promotion. Phorbol myristic acetate (PMA) is a mitogen for lymphocytes, but can also promote tumor formation. Tumor promotion is linked to the generation of free radicals induced by PMA. Modulation of intracellular glutathione is associated lymphocyte activation and in protection of cells from damage due to oxygen radicals. We examined the interaction between ODC activity and intracellular glutathione concentrations in EL4 murine lymphoblastoid cells. The intracellular glutathione concentration could be augmented in EL4 cells when cultured with the cysteine delivery agents 2-oxothiazolidine 4-carboxylate (OTC) and 2-mercaptoethanol (2-ME) and suppressed with the gamma-glutamylcysteine synthetase inhibitor buthionine sulfoximine (BSO). OTC and 2-ME suppressed ODC activity in fresh serum and PMA-activated EL4 cells. BSO had no effect on ODC activity of EL4 cells cultured in the presence of PMA. While both OTC and 2-ME augmented the total intracellular glutathione concentration, PMA enhanced only the level of oxidized glutathione. To determine if the mechanism by which PMA or fresh serum altered intracellular glutathione and ODC activity was through the generation of oxygen radicals, EL4 cells were cultured with free radical scavengers. The nonpermeant electron acceptor potassium ferricyanide, and the H2O2 scavenger catalase, lowered ODC activity in both serum-stimulated and PMA-activated EL4 cells. Similarly, incubation of EL4 cells with either potassium ferricyanide or catalase elevated intracellular glutathione concentrations. These data suggest that (a) modulation of intracellular glutathione in the EL4 lymphoblastoid cell line alters ODC activity induced by fresh serum and by the mitogen PMA; (b) activation of EL4 cells by PMA alone alters intracellular glutathione metabolism, which may be associated with its role as a mitogen in lymphocyte activation; and (c) the generation of free radicals in EL4 cells may play a positive role in cellular activation.     

棉粕对盐碱胁迫下棉花生理及生长补偿效应

为探究棉粕对盐碱胁迫下棉花(Gossypium hirsutum)的抗盐碱机理, 通过田间试验, 研究添加不同棉粕用量对8 g·kg ^-1盐碱胁迫下棉花生理及生长的补偿效应。结果表明, 添加棉粕能够增加盐碱胁迫下棉花不同器官对K ⁺的吸收, 降低对Na ⁺的吸收, 维持盐碱胁迫下细胞内K ⁺和Na ⁺的平衡, 显著促进棉花生长, 提高叶片叶绿素含量和光合作用效率, 有效缓解盐碱胁迫对棉花的伤害。其中, 以添加6 000 kg·hm ^-2棉粕处理的效果最显著, 且盐胁迫下棉粕的改良效果较好。主成分分析结果表明, 盐碱胁迫下棉花生长生理的主要影响因子为叶片K ⁺/Na ⁺比值、根长、鲜重、干重和胞间CO₂浓度(C_i)。     

Polyamine-mediated inhibition of in-vitro cell proliferation is not due to acrolein

The influence of acrolein or spermine on the viability and growth of phytohaemagglutinin-stimulated rat thymic lymphocytes in cultures supplemented with foetal calf serum have been investigated. Acrolein (greater than 20 microM) was cytotoxic; spermine had little effect on viability, but inhibited [3H]TdR incorporation at low concentrations (approximately 10 microM). Cells treated with greater than 8 microM acrolein 3 hr before stimulation exhibited irreversible inhibition of protein synthesis, whereas 50 microM spermine had no effect, even when cells were treated for 24 hr before stimulation. However, addition of 25 microM spermine after stimulation did inhibit both [3H]-uridine incorporation and protein synthesis: this was reversible if cells were freed of polyamine within 4 hr, but not if washed after 24 hr. These results show that, contrary to several previous reports, in-vitro inhibition of cell proliferation by spermine is not due to the formation and action of acrolein.