小鼠受精卵早期发育过程中PKC对cdc2和cdc25C活性的影响

为研究小鼠受精卵细胞早期发育过程中PKC对cdc2和cdc2 5C活性的影响 ,采用免疫印迹和电泳迁移率差异分析的方法 ,观察PKC的激活剂TPA及其抑制剂星形孢子素对小鼠受精卵一细胞期cdc2和cdc2 5C活性的影响 .10nmol L的TPA作用 10min后 ,小鼠受精卵一细胞期卵裂率明显大于对照组 (P <0 0 5 ) ,而星形孢子素作用后卵裂率显著下降 (P <0 0 1) .TPA处理后 ,受精卵中呈去磷酸化状态的活性cdc2明显增加 ,没有活性呈磷酸化状态的cdc2 5C明显减少 ;而星形孢子素处理的受精卵中没有活性的cdc2明显增加 ,有活性的cdc2 5C明显减少 .结果表明 ,TPA短时间作用可以促进小鼠一细胞期受精卵分裂 ,星形孢子素抑制受精卵的分裂 ;TPA可以促进cdc2的去磷酸化以及cdc2 5C的磷酸化 ,从而促进G2 M转换 ,星形孢子素则抑制cdc2和cdc2 5C的活性 ,阻止受精卵由G2 期进入M期     

蛋白激酶A对小鼠受精卵早期发育过程中M期促进因子活性的影响

为研究小鼠体内 1 细胞期受精卵M期蛋白激酶A(PKA)对M期促进因子 (MPF)活性的影响 ,应用PKA激动剂cAMP及热稳定性抑制剂PKI显微注射入 1 细胞期受精卵内 ,观察MPF及PKA活性变化 .未经注射的对照组MPF活性在分裂期增高 ,分裂间期下降 ;而PKA活性在进入分裂期下降 ,分裂间期升高 .cAMP组PKA活性维持高峰值 ,直至注射HCG后 2 8h ,MPF活性高峰延迟 30min出现 ;PKI显微注射组PKA活性低 ,而MPF活性在注射HCG后 2 7 5h即达高峰 ,且维持高峰时间达1 5h .结果表明 ,PKA活性在细胞周期中也呈波动性 ,间期活性高 ,分裂期活性低 ;PKA高活性抑制MPF活性 ,而抑制PKA活性则MPF活性高峰提前出现 .     

佛波酯(TPA)促进NIH3T3细胞α5β1整合蛋白的合成

佛波酯(TPA)是潜在促肿瘤剂,也是蛋白激酶PKC激活剂.TPA能在极低浓度下替代DG激活PKC,从而导致一系列细胞功能变化.应用100nmol/LTPA作用于NIH3T3细胞,观察NIH3T3细胞的粘附变化,发现TPA可促进NIH3T3细胞与基质纤连蛋白的粘附,进一步研究Fn的主要受体α5β1整合蛋白在细胞表面含量,发现TPA作用24h使α5及β1含量分别增加523%和516%.应用3H甘露糖标记N糖链和凝集素柱层析方法分析TPA作用后细胞N糖链总量和组分比,结果均与对照组相仿,说明是通过增加细胞合成整合蛋白α5及β1亚基含量实现的.在TPA作用于细胞的同时,加入PKC抑制剂Sphingosine,发现α5、β1含量和细胞与Fn的粘附均回复至对照组水平,提示TPA增加α5β1整合蛋白合成而增加的细胞与Fn粘附作用,是由PKC介导完成的.此外还发现酪氨酸蛋白激酶抑制剂也阻断TPA增加α5β1整合蛋白含量的作用.     

蛋白激酶C_ζ对小鼠受精卵发育早期基因组转录活化的影响

为研究蛋白激酶Cζ (proteinkinaseCζ ,PKCζ)在小鼠受精卵细胞早期发育过程中对胚胎基因组活化影响 ,采用免疫印迹和细胞免疫荧光的方法 ,观察PKCζ的抑制剂对小鼠受精卵 1 细胞期G1和G2 不同时期小鼠受精卵基因组活化的影响 .小鼠 1 细胞期受精卵蛋白激酶C (PKC)的活性不断增加 ,并在G2 期达到最高 .PKC的抑制剂calphostinC可以明显抑制PKC的活性达 4 7% .同时calphostinC对受精卵 1 细胞期基因组的早期活化具有显著的抑制作用 (P <0 0 1) .在小鼠 1 细胞期受精卵的G2 期 ,具有活性的磷酸化PKCζ的含量明显多于G1期和卵母细胞MⅡ期 ,分别比它们高2 7%和 110 % .PKCζ的特异性抑制剂可以抑制受精卵 1 细胞期基因的转录和活化 (P <0 0 5 ) .实验结果表明 ,PKCζ参与了小鼠受精卵基因组早期转录的调控     

佛波酯(TPA)促进NIH3T3细胞α5β1整合蛋白的合成

佛波酯(TPA)是潜在促肿瘤剂,也是蛋白激酶PKC激活剂.TPA能在极低浓度下替代DG激活PKC,从而导致一系列细胞功能变化.应用100 nmol/L TPA作用于NIH3T3细胞,观察NIH3T3细胞的粘附变化,发现TPA可促进NIH3T3细胞与基质纤连蛋白的粘附,进一步研究Fn的主要受体α₅β₁整合蛋白在细胞表面含量,发现TPA作用24 h使α₅及β₁含量分别增加52.3%和51.6%.应用³H-甘露糖标记N-糖链和凝集素柱层析方法分析TPA作用后细胞N-糖链总量和组分比,结果均与对照组相仿,说明是通过增加细胞合成整合蛋白α₅及β₁亚基含量实现的.在TPA作用于细胞的同时,加入PKC抑制剂Sphingosine,发现α₅、β₁含量和细胞与Fn的粘附均回复至对照组水平,提示TPA增加α₅β₁整合蛋白合成而增加的细胞与Fn粘附作用,是由PKC介导完成的.此外还发现酪氨酸蛋白激酶抑制剂也阻断TPA增加α₅β₁整合蛋白含量的作用.     

表达PKCα反义RNA对人肺癌细胞增殖的影响

 运用基因重组和基因转染技术 ,将 PKCα c DNA反向插入的重组质粒 p XJ41 - CKPα导入人肺癌 LTEPa- 2细胞 .经 Northern印迹 ,Western印迹等检验 ,表明成功地建立了稳定表达 PKCα反义 RNA的人肺癌细胞 (LT· AS4) .进一步研究了表达 PKCα反义 RNA对人肺癌细胞 LTEPa-2增殖的影响 .结果表明 ,表达 PKCα反义 RNA可抑制人肺癌细胞增殖速率 ,流式细胞光度术检测 ,G1 期细胞百分数增加 ,S期细胞百分数降低 ,并进一步探讨了其作用机理 ,观察到与增殖相关基因 c- myc、Ca M和 Cyclin B1的表达水平均下降 .这可能是 PKCα表达被阻抑、负调细胞增殖的分子机理之一     

MDM2反义寡核苷酸对血管平滑肌细胞MDM2和p53表达的影响

目的:研究小鼠双微体扩增基因(mouse double minute 2;MDM2)反义寡核苷酸(antisense oligonucleotide;ASON)对血管平滑肌细胞MDM2和p53表达的影响,探讨MDM2反义寡核苷酸包埋支架防治支架内再狭窄的可行性。方法:人工合成一段针对MDM2 mRNA的反义寡核苷酸,脂质体包裹不同浓度ASON转染兔血管平滑肌细胞,RT-PCR和Western-blotting检测MDM2反义寡核苷酸对兔血管平滑肌细胞MDM2和p53表达的影响。结果:不同浓度MDM2反义寡核苷酸作用于兔血管平滑肌细胞后,MDM2和p53 mRNA表达量各浓度组之间有显著性差异(P<0.01),MDM2和p53蛋白表达量各浓度组之间有显著性差异(P<0.01)。结论:MDM2反义寡核苷酸体外能够特异性抑制兔血管平滑肌细胞MDM2表达,提高细胞内p53基因表达量,MDM2反义寡核苷酸有望被进一步应用于药洗脱支架研究。     

神经节苷脂GM_3对人白血病J6-2细胞PKC转位及DAG含量的影响

应用SDS PAGE及Western印迹技术检测神经节苷脂GM3 处理前后人白血病J6 2细胞不同类型PKC在细胞内的转位情况 ,同时利用高效薄板层析技术观察了细胞内DAG含量的变化 ,从而探讨GM3 抑制PKC活性的机制 .实验发现 ,GM3 处理后胞液PKCα明显增加 ,而颗粒结合PKCα则相对减少 ;GM3 对其它亚型PKC在细胞内分布无显著影响 .同时还发现 ,GM3 处理后细胞内DAG含量降低 (P <0 0 5 ) .结果表明 ,GM3 抑制PKCα由胞浆向质膜转位 ,对其它亚型PKC在细胞内转位无影响 .提示GM3 抑制的PKC亚型可能是PKCα .同时GM3 降低细胞内DAG含量 ,这可能与GM3抑制PKCα活性机制有关     

携带HLA-B2704基因转基因小鼠技术的建立

应用显微注射法制备携带HLA B2 70 4基因的转基因小鼠 .对 2 86只昆明小鼠激素注射进行超排卵 ,采集受精卵 ,将含HLA B2 70 4基因的基因组DNA片段 (简称HLA B2 70 4DNA)显微注射到受精卵原核内 ,把注射存活的两细胞期受精卵移入假孕鼠的输卵管内使其发育产生后代 .用PCR方法进行F0代仔鼠及F1代仔鼠的转基因整合的检测 .利用RT PCR检测阳性鼠中的HLA B2 70 4转基因的表达 .采集了 84 11个卵 ,可注射卵 6 6 0 9个 ,其中注射存活的两细胞期受精卵 4 2 77个 ,卵的注射存活率为 6 4 7%.将卵移入 15 3只假孕鼠 ,其中 2 6只怀孕产仔 ,存活 10 1只 .在 10只F0代仔鼠基因组中有HLA B2 70 4基因整合 ,整合率为 9 9%.转基因阳性鼠F0代之间以及与正常鼠之间进行交配 ,产生的F1代仔鼠 78只 ,其中 15只为阳性 .阳性鼠的皮肤、结肠、睾丸和脾脏组织中均有HLA B2 70 4转基因mRNA的表达 .在HLA B2 70 4转基因阳性小鼠中 ,6只小鼠皮肤出现脱毛 ,1只小鼠的足部及足趾明显红肿 ,2只在脱毛同时明显畏光 ,1只出现腹泻 .结果表明 ,成功地建立了HLA B2 70 4的转基因小鼠技术 ,该小鼠类似强直性脊柱炎的小鼠模型 .     

蛋白激酶Cα在小鼠孤雌及四倍体胚胎早期发育过程中的分布和作用

为了观察蛋白激酶Cα(protein kinase Cα,PKCα在昆明白小鼠受精卵、孤雌激活和四倍体胚胎早期发育阶段的亚细胞定位和致密化进程中的表达变化,本实验利用免疫荧光化学染色与激光共聚焦显微镜观察相结合的方法,对受精卵、孤雌激活和四倍体胚胎早期发育阶段PKCα的表达进行了定位观察,并利用Western blot对三组胚胎致密化进程中PKCα的表达进行定量分析.结果显示,PKCα在上述三组胚胎发育的2-细胞期至囊胚期均有表达,虽然不同胚胎PKCα的分布在同一发育阶段存在差异,却表现出在各胚胎期主要分布于卵裂球核染色质内,以及在胚胎致密化开始,PKCα在卵裂球连接处发生重新分布的共同特点.此外,三组胚胎PKCα在致密化进程中的表达呈升高趋势,即致密化后的表达高于敛密化前.结果表明,PKCct对胚胎致密化的调节具有重要作用,其在8-细胞/4-细胞期的重新分布是胚胎进入桑椹胚期的必然事件,是胚胎致密化的前提,同时伴随蛋白表达增多.此外,PKCα在囊胚期发生了植入前的第二次重新分布.PKCα在三组胚胎各发育阶段表达情况各不相同,它对小鼠胚胎发育的影响体现在整个早期发育阶段.PKCα在小鼠受精卵早期发育阶段的两次重新分布可能与在致密化开始时启动的细胞黏附事件存在某种必然联系.     

沉默Gpr48基因表达对皮肤鳞状细胞癌细胞系A431 PKC信号通路活化及细胞侵袭的影响

目的分析沉默G蛋白偶联受体48 （Gpr48）基因表达对皮肤鳞状细胞癌（SCC）蛋白激酶C （PKC）信号通路及细胞侵袭能力的影响。 方法构建ShRNA感染皮肤SCC细胞株A431,设计干扰Gpr48表达shRNA（shRNA-Gpr48组）及阴性对照shRNA-NC组,采用实时定量反转录聚合酶联反应（RT-PCR）检测Gpr48相对表达量;以蛋白印迹法（Western Blot）测定PKC相关抗体蛋白表达情况,进行Transwell小室实验检测细胞侵袭能力,总结Gpr48缺失对三丙胺（TPA）刺激A431细胞株PKC活化及细胞侵袭能力的影响,为SCC靶向治疗提供参照。组间比较采用独立样本t检验。 结果qRT-PCR结果：shRNA-Gpr48组Gpr48相对表达量（0.27±0.06）低于shRNA-NC组（1.01±0.12）,差异具有统计学意义（t?= 17.441,P?< 0.01）,shRNA-Gpr48组p-PKCδ （0.463±0.035）低于shRNA-NC组（0.721±0.074）,shRNA-?Gpr48组NF-κB p65 mRNA （0.631±0.079）低于shRNA-NC组（0.834±0.102）,差异具有统计学意义（t?= 9.966、4.975,P均< 0.01）,Notch1 mRNA（0.981±0.037）高于shRNA-NC组（0.562±0.041）,差异具有统计学意义（t?= 23.991,P?< 0.01）;Western Blot结果：shRNA-Gpr48组p-PKCδ（0.221±0.034）低于shRNA-NC组（0.292±0.046）、NF-κB p65蛋白表达（0.512±0.047）低于shRNA-NC组（0.636±0.051）,差异具有统计学意义（t?= 3.925,5.653,P均< 0.01）,Notch1（0.524±0.063）高于shRNA-NC组（0.421±0.076）,差异具有统计学意义（t?= 3.299,P?< 0.01）;shRNA-Gpr48组侵袭细胞率为（35.03±1.54）﹪,低于shRNA-NC组的（51.83±2.76）﹪,差异具有统计学意义（t?= 16.809,P?< 0.01）。 结论沉默Gpr 48缺失表达可能通过抑制PKC活化,降低p-PKCδ、NF-κB p65表达,上调抑癌基因Notch1表达,抑制癌细胞增殖、侵袭。     

Studies on the possible role of protein kinase C in the prolactin regulation of cell replication in Nb2 node lymphoma cells

The results of several recent studies have indicated that protein kinase C (PKC) may be involved in the prolactin (PRL) stimulation of mitogenesis in the Nb2 node lymphoma cell line. The PKC activator 12-O-tetradeconylphorbol-13-acetate (TPA) at certain concentrations has been shown to potentiate the mitogenic effect of PRL, whereas at higher concentrations, TPA inhibits the PRL response. Several inhibitors of PKC have also been shown to impair the PRL stimulation of metabolic process in the Nb2 cells. These studies provide further evidence for the likely involvement of PKC in the PRL stimulation of mitogenesis in the Nb2 cells. A transient, time-dependent accumulation of PKC in the particulate fraction of the Nb2 cells is observed in response to PRL. TPA is also shown to elicit a similar effect, albeit at a much earlier time and with a greater magnitude. On long-term exposure (3 days), high concentrations of TPA down-regulate the PKC enzyme; this down-regulation likely accounts for the inhibitory effect of high concentrations of TPA on the PRL stimulation of cell division. In further studies, the PKC inhibitors H-7 and gossypol were shown to inhibit the PRL stimulation of cell division in a concentration-dependent fashion.     

Differentiation of lepidoptera scale cells from epidermal stem cells followed by ecdysone-regulated DNA duplication and scale secreting

Integuments are the first line to protect insects from physical damage and pathogenic infection. In lepidopteran insects, they undergo distinct morphology changes such as scale formation during metamorphosis. However, we know little about integument development and scale formation during this stage. Here, we use the silkworm, Bombyx mori, as a model and show that stem cells in the integument of each segment, but not intersegmental membrane, divide into two scale precursor cells during the spinning stage. In young pupae, the scale precursor cell divides again. One of the daughter cells becomes a mature scale-secreting cell that undergoes several rounds of DNA duplication and the other daughter cell undergoes apoptosis later on. This scale precursor cell division is crucial to the development and differentiation of scale-secreting cells because scale production can be blocked after treatment with the cell division inhibitor paclitaxel. Subsequently, the growth of scale-secreting cells is under the control of 20-hydroxyecdysone but not juvenile hormone since injection of 20-hydroxyecdysone inhibited scale formation. Further work demonstrated that 20-hydroxyecdysone injection inhibits DNA duplication in scale-secreting cells while the expression of scale-forming gene ASH1 was down-regulated by BR-C Z2. Therefore, this research demonstrates that the scale cells of the silkworm develops through stem cell division prior to pupation and then another wave of cell division differentiates these cells into scale secreting cells soon after entrance into the pupal stage. Additionally, DNA duplication and scale production in the scale-secreting cells were found to be under the regulation of 20-hydroxyecdysone.     

Effects of MAP kinase pathway and other factors on meiosis of Urechis unicinctus eggs

The eggs of Urechis unicinctus Von Drasche, an echiuroid, are arrested at P-I stage in meiosis. The meiosis is reinitiated by fertilization. Immunoblotting analysis using anti-ERK2 and anti-phospho-MAPK antibodies revealed a 44 kDa MAP kinase species that was constantly expressed in U. unicinctus eggs, quickly phosphorylated after fertilization, and dephosphorylated slowly before the completion of meiosis I. Phosphorylation of the protein was not depressed by protein synthesis inhibitor Cycloheximide (CHX), but was depressed by the MEK1 inhibitor PD98059. Under PD98059 treatment, polar body extrusion was suppressed and the function of centrosome and spindle was abnormal though GVBD was not affected, indicating that MAP kinase cascade was important for meiotic division of U. unicinctus eggs. Other discovery includes: A23187 and OA could parthenogenetically activate U. unicinctus eggs and phosphorylated 44 kDa MAP kinase species, indicating that the effect of fertilization on reinitiating meiosis and phosphorylation of 44 kDa MAP kinase specie is mediated by raising intracellular free calcium and by phosphorylation of some proteins, and that phosphotase(s) sensitive to OA is responsible for arresting U. unicinctus eggs in prophase I. diC8, an activator of PKC, accelerated the process of U. unicinctus egg meiotic division after fertilization and accelerated the dephosphorylation of 44 kDa MAP kinase specie, which implied that the acceleration effect of PKC on meiotic division was mediated by inactivation of MAP kinase cascade. Elevating cAMP/PKA level in U. unicinctus eggs had no effect on meiotic division of the eggs.     

Effects of second messengers on gap junctional intercellular communication of ovine luteal cells throughout the estrous cycle

Corpora lutea (CL) from Days 5, 10, and 15 after superovulation were enzymatically dispersed, and a portion of the cells were elutriated to obtain fractions enriched with small or large luteal cells. Mixed, small, and large luteal cell fractions were incubated with no treatment or with agonists or antagonists of cAMP (dbcAMP or Rp-cAMPS), protein kinase C (PKC; TPA or H-7), or calcium (A23187, EGTA, or A23187 + EGTA). The rate of contact-dependent gap junctional intercellular communication (GJIC) was evaluated by laser cytometry. Media were collected for progesterone (P(4)) radioimmunoassay, and luteal cells cultured with no treatment were fixed for immunocytochemistry or frozen for Western blot analysis. Luteal cells from each stage of the estrous cycle exhibited GJIC. The dbcAMP increased (P < 0.05) GJIC for all cell types across the estrous cycle. The Rp-cAMPS decreased (P < 0.05) GJIC for small luteal cells on Day 5 and for all cell types on Days 10 and 15. The TPA inhibited (P < 0.01), but H-7 did not affect, GJIC for all cell types across the estrous cycle. The A23187 decreased (P < 0.05) GJIC for large luteal cells touching only small or only large luteal cells, whereas A23187 + EGTA decreased (P < 0.05) GJIC for all cell types across the estrous cycle. For the mixed and large luteal cell fractions, dbcAMP increased (P < 0.05), but TPA and A23187 + EGTA decreased (P < 0.05), P(4) secretion. The A23187 alone decreased (P < 0.05) P(4) secretion by large, but not by mixed, luteal cells. For all days and cell types, the rate of GJIC and P(4) secretion were correlated (r = 0.113-0.249; P < 0.01). Connexin 43 was detected in cultured luteal cells by immunofluorescence and Western immunoblotting. Thus, intracellular regulators like cAMP, PKC, or calcium appear to regulate GJIC, which probably is an important mechanism for coordinating function of the ovine CL.     

Activation of protein kinase C induces cortical granule exocytosis in a Ca2+-independent manner, but not the resumption of cell cycle in porcine eggs

The effects of protein kinase C (PKC) activation on meiotic resumption and cortical granule (CG) exocytosis as well as its dependence on Ca²⁺ in porcine eggs matured in vitro were studied. Cortical granule release was judged by both confocal laser microscopy after the eggs were labeled with fluorescein isothiocyanate-peanut agglutinin (FITC-PNA) and electron microscopy. Meiotic resumption and pronuclear formation were observed after eggs were stained with acetic orcein. When eggs were treated with PKC activators, 1-oleyl-2-acetyl-glycerol (OAG) or phorbol 12-myristate 13-acetate (PMA), the pronuclear formation percentage was significantly lower than that of Ca²⁺ ionophore A23187-treated group, but not statistically different from that in negative control group (P > 0.05), and most of the eggs were still arrested at metaphase II stage, suggesting that PKC activation does not induce the resumption of meiosis and pronuclear formation. In contrast, PKC activation induced 89.1% to 100% of the eggs completely or partially released their CG in different groups, not statistically different from A23187-treated group, and this effect could be overcome by PKC inhibition. When the intracellular free Ca²⁺ was chelated with acetoxymethal ester form of 1,2-bis(0-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid (BAPTA-AM), and then treated with PMA or OAG in Ca²⁺-free medium, the proportions of eggs with CG release were 90.9% and 78.1%, respectively, not statistically different from the above-treated groups, suggesting that CG exocytosis induced by PKC activation is independent of Ca²⁺ rise. The results indicate that different events of porcine egg activation may be uncoupled from one another.