葡萄糖对小鼠胚胎体外发育的影响

通过在CZB培养液中添加不同浓度葡萄糖及在胚胎发育的不同阶段加入葡萄糖,对小鼠胚胎进行体外培养,以探讨葡萄糖在小鼠早期胚胎体外发育中的作用。其结果表明,小鼠胚胎在含糖CZB与在无糖CZB中培养比较,4-细胞发育率无差异;各浓度葡萄糖组囊胚率显著高于无糖组,其中3.0mmol/L浓度组囊胚细胞数显著高于其余组;实验二：2-细胞至4-细胞、4-细胞至桑椹胚前添加葡萄糖囊胚率显著提高。上述结果证明,在小鼠胚胎体外培养中加入葡萄糖不会导致2-细胞阻滞;葡萄糖浓度增加至10mmol/L对小鼠胚胎无毒性作用,其最适浓度为3.0mmol/L;2-细胞至4-细胞、4-细胞至桑椹胚前添加葡萄糖是必要的。关键词 葡萄糖;小鼠;2-细胞阻滞;胚胎;体外发育     

人-山羊异种核移植胚胎发育的初步研究

以体外分离培养的人胚胎成纤维细胞为核供体,经血清饥饿培养后,通过显微操作技术移入山羊去核卵母细胞中,采用化学方法激活重组胚.通过体外培养观察,2-细胞胚胎发育率可达51.33%,4-细胞发育率为31.42%,但发育至桑椹胚阶段的胚胎数目大大减少,仅为9.73%.虽然目前尚未能获得异种核移植囊胚,但实验结果说明山羊成熟卵母细胞可以支持人体细胞核完成重编程,人-山羊异种体细胞核移植重组胚可在体外完成其早期发育.     

体细胞来源及培养代数对核移植重构胚发育的影响

为探讨体细胞来源及培养代数对核移植重构胚发育的影响,实验采用电融合法将小鼠2—细胞胚胎卵裂球、胚胎干细胞(ES)、胎儿成纤维细胞、耳成纤维细胞、尾尖成纤维细胞、睾丸支持细胞和精原细胞以及不同培养代次的胎儿成纤维细胞进行了核移植。结果显示：2—细胞胚胎卵裂球供核重构胚发育最好,囊胚率为7．4％;ES细胞重构胚虽然发育率低,但仍有囊胚出现,比例为0．7％;胎儿成纤维细胞重构胚最高发育阶段为桑椹胚,比例为0．2％;精原细胞重构胚只能发育到8-细胞阶段,比例为0．3％;其他几类细胞重构胚则仅能发育至4-细胞阶段。不同培养代数的胎儿成纤维细胞重构胚除第3代外都可发育到8-细胞阶段,且发育率差异不显著,但第一代细胞重构胚2-细胞发育率(40．7％)显著低于2、3和4代细胞重构胚。结果表明：不同分化程度的细胞核移植后,重新编程的难易程度是不一样的,分化程度越高则重新编程越难;未调整细胞周期的ES细胞由于多数处于S期,所以重构胚发育率很低;体外培养传代有利于体细胞核移植后重新编程。     

初次卵裂时间是猪克隆胚胎发育潜能的重要标识

初次卵裂时间与哺乳动物胚胎发育潜能有关．比较了不同初次卵裂时间(20～24 h,早期;25～36 h,中期;37～48 h,晚期;20～48 h,对照)的猪孤雌(parthenogenetic,PA)、体细胞核移植(somatic cell nuclear transfer,SCNT)胚胎的囊胚发育率、扩张囊胚发育率和囊胚细胞数,评价其体外发育能力．发现早期卵裂的PA胚胎发育到第6天的囊胚发育率显著高于中期、晚期以及对照组(P < 0.05;54.0% vs. 19.6%,5.4%,18.7%)．扩张囊胚发育率,早裂胚胎同样优于其他组．早期卵裂的SCNT胚胎发育到第6天的囊胚比率高于中期卵裂胚胎(32.2% vs. 23.5%),而晚期卵裂胚胎发育到囊胚的比率最低(6.3%)．早期卵裂的SCNT胚胎发育到第6天的扩张囊胚比率显著高于其余各组 (P < 0.05;18.9% vs. 5.9%、3.1%、7.4%)．囊胚细胞数在早期、中期、晚期三组之间表现出下降趋势．将早期卵裂的SCNT胚胎与未经挑选的对照组胚胎分别进行移植,观察其体内发育能力．移植早裂SCNT胚胎的受体在产仔数和克隆效率上均明显高于未经挑选胚胎的受体(4.7 vs. 2.1;3.9% vs. 0.9%),说明早裂胚胎着床后具有更强的发育能力．以上结果表明：初次卵裂时间可以作为猪克隆胚胎发育潜能的重要标识,选择早裂的胚胎进行移植,有助于提高克隆效率．     

不同培养条件对猪卵母细胞IVM、IVF的影响

通过优化猪卵母细胞体外成熟、体外受精和胚胎体外发育体系,以进一步提高体外胚胎的生产效率和质量.研究了激素存在时间、不同激素和不同血清对猪卵母细胞体外成熟的影响;共培养体系、精卵作用时间、去除卵丘细胞的方法对猪体外受精及早期胚胎发育的影响.猪卵母细胞IVM培养48h,前24h内加入PMSG、hCG,后24h将其去除,卵母细胞总成熟率为79.54%;培养液添加15?S或15%NCS,卵母细胞成熟率分别为79.48%和74.81%;PMSG、HCG和E2配合使用后卵母细胞成熟率为81.42%.在IVF前用吹打法获得的卵裂率、桑椹胚率分别为37.89%和8.54%,精卵共孵育6h或8h的卵裂率(40.52%,37.24%)、桑椹胚率(8.42%,7.85%),以及用输卵管上皮细胞共培养所获得的卵裂率(40.84%)、桑椹胚率(9.53%)均显著高于其它各组.     

转人t-PA指形区缺失基因的山羊体细胞核移植及其继代核移植

为了探索转基因体细胞核经连续核移植后的发育潜力,以转人组织型纤溶酶原激活剂(t-PA)指形区缺失基因的山羊胎儿成纤维细胞为核供体,MII期的卵母细胞质为核受体,利用胞质内注射法构建原代核移胚胎(G0),并进行了原代核移植胚胎的继代核移植研究。比较原代和继代核移植胚胎在体外发育能力上的差异;在G1、G2代核移植试验过程中,比较了供体胚胎细胞的发育阶段对核移植胚胎体外发育的影响。结果表明,原代核移植胚胎的卵裂率(76.45%±1.17%)与继代核移植胚胎的卵裂率(72.18%±1.97%,76.05%±2.38%,75.99%±2.84%)无显著性差异(P>0.05)。但原代核移植胚胎的桑葚胚率(47.20%±2.93%)、囊胚率(11.00%±1.42%)显著高于G1、G2、G3代核核移植胚胎的桑葚胚率(34.99%±2.66%,28.23%±2.00%,23.34%±1.99%)、囊胚率(3.87%±0.67%,2.08%±1.66%,0);在G1、G2中,当用16-细胞期核移植胚胎作为核供体时的桑葚胚率(29.57%±1.53%,24.43%±1.87%)、囊胚率(1.96%±1.31%,2.01%±1.34%)低于用32~64-细胞时期的核移植胚胎的桑葚胚率(34.32%±1.31%,29.76%±1.66%)、囊胚率(3.86%±1.03%,3.48%±0.34%),但无显著性差异(P>0.05)。由此得出结论:转基因体细胞核移植胚胎不宜进行多代克隆;胞质内注射法构建核移植胚胎,用32~64-细胞期的胚胎作为核供体构建的核移植胚胎的体外发育率高于用16-细胞期的胚胎作为核供体构建的核移植胚胎的体外发育率。     

处理方式不同的颗粒细胞和卵泡液对牛卵母细胞体外受精后卵裂率和囊胚率的影响

将牛的卵母细胞置于添加有不同预处理颗粒细胞及含有卵泡液的培养液或不舍有卵泡液的培养液中进行体外成熟、受精及胚胎发育培养,研究了颗粒细胞、卵泡液及颗粒细胞与卵泡液交互作用对牛卵母细胞成熟、受精后卵裂率、囊胚率的影响。2178枚卵母细胞体外成熟受精后胚胎发育的对比观察结果表明：颗粒细胞、卵泡液及颗粒细胞与卵泡液交互作用对卵母细胞成熟受精后胚胎的卵裂具有显著影响（P〈0．05）;颗粒细胞对囊胚的发育有显著影响（P〈0．05）;卵泡液及颗粒细胞与卵泡液交互作用对囊胚的发育无显著影响（P〉0．05）。不同因素对卵裂率、囊胚率的影响表现为：颗粒细胞因素〉培养液因素〉培养液&#215;颗粒细胞交互作用。结论：TCM199培养液中添加卵泡液和单层颗粒细胞组成的培养系统用于牛卵母细胞体外成熟及胚胎发育的效果较好。共培养体系中的单层颗粒细胞用经酶消化分散处理后在培养箱中孵育10min的颗粒细胞替代时,胚胎的发育效果并不受影响。     

小鼠2,4,8—细胞胚胎卵裂球体外培养的研究

以ＣＺＢ为基础培养液,培养小鼠２、４、８－细胞胚胎的卵裂球,研究葡萄糖、牛磺酸和胰岛素对１／２卵裂球体外发育的影响及１／４、１／８和２／８卵裂球的体外发育规律。２－细胞胚胎卵裂球在ＣＺＢ中和在添加牛磺酸的ＣＺＢ中培养,其囊胚发育率（分别为９２％、８９％）无显差异（Ｐ＞０．０５）。胰岛素在少量葡萄糖存在的情况下,不影响卵裂球的囊胚发育率;在无葡萄糖时,卵裂球的囊胚发育率（３８％）显降低。牛磺酸在     

乙醇对着床前小鼠胚胎体外发育的影响

用含不同浓度乙醇的Whitten氏培养液对小鼠2细胞、4细胞、8细胞和桑椹期胚胎分别进行体外培养,研究了乙醇对小鼠不同发育时期胚胎体外发育的影响。首先利用含0、0．1％、0．5％、1．0％、1．5％、2．0％、3．0％、5．0％和10．0％乙醇的Whitten氏培养液对2细胞胚胎进行培养,发现小鼠2细胞胚胎对培养液中乙醇浓度的耐受极限在1．5％左右。然后又用含1％和3％乙醇的Whitten氏培养液分别对小鼠2细胞、4细胞、8细胞和桑椹期胚胎进行培养。结果发现：含1％乙醇的培养液对于8细胞胚胎和桑椹胚的囊胚形成有促进作用,而在2细胞和4细胞胚胎中则影响不明显。3％乙醇则对各期胚胎均有不同程度的抑制作用,但随着胚胎发育其对乙醇的耐受力逐渐增强。     

小鼠四倍体早期胚胎基因组甲基化模式

利用小鼠抗5-甲基胞嘧啶(5MeC)单克隆抗体检测了体外培养小鼠四倍体早期胚胎的基因组甲基化模式。结果表明: 利用电融合方法制备的小鼠四倍体胚胎在体外培养体系中经历细胞质融合、细胞核融合及细胞继续分裂发育直到囊胚期的过程, 在细胞质融合的时候胚胎卵裂球同体内体外培养二倍体胚胎一样, 呈现高度甲基化状态; 在细胞核开始融合的时候, 甲基化水平急速下降, 在细胞核完全融合的时候甲基化水平达到最低点; 随着胚胎继续分裂, 胚胎甲基化水平逐渐增加, 在桑葚胚期甲基化水平最高; 但是囊胚期四倍体胚胎内细胞团同滋养层细胞甲基化荧光信号没有差别, 这与体内体外培养二倍体囊胚内细胞团细胞甲基化荧光强度高于滋养层细胞甲基化荧光强度不同。因此, 小鼠体外培养四倍体胚胎的甲基化模式是不正常的, 这可能是四倍体小鼠难以发育到妊娠足月的原因之一。这是对小鼠四倍体早期胚胎基因组甲基化模式的首次报道。     

Scurvy in capybaras bred in captivity in Argentine

In order to determine if the absence of vitamin C in the diet of capybaras (Hydrochoerus hydrochaeris) causes scurvy, a group of seven young individuals were fed food pellets without ascorbic acid, while another group of eight individuals received the same food with 1 g of ascorbic acid per animal per day. Animals in the first group developed signs of scurvy-like gingivitis, breaking of the incisors and death of one animal. Clinical signs appeared between 25 and 104 days from the beginning of the trial in all individuals. Growth rates of individuals deprived of vitamin C was considerably less than those observed in the control group. Deficiency of ascorbic acid had a severe effect on reproduction of another population of captive capybaras. We found that the decrease in ascorbic acid content in the diet affected pregnancy, especially during the first stages. The results obtained suggest that it is necessary to supply a suitable quantity of vitamin C in the diet of this species in captivity.     

Changes in lactate dehydrogenase activity in chicken tissues in hyperthyreosis in ontogenesis

The lactate dehydrogenase activity in reactions of lactate oxidation and synthesis was studied in subfractions of the chicken brain, heart and liver at the embryonal, early postembryonal and adult stages of development after thyroxine administration. It has been shown that during embryogenesis thyroxine predominantly enhanced the rate of lactate oxidation in the mitochondrial tissues. A marked increase in the lactate synthesis was found in cytoplasm of the adult chicken tissues. Specificity of enzyme activity alterations was detected in the chicken brain during ontogenesis after thyroxine administration.     

Role for dopamine in malonate-induced damage in vivo in striatum and in vitro in mesencephalic cultures

Defects in mitochondrial energy metabolism have been implicated in the pathology of several neurodegenerative disorders. In addition, the reactive metabolites generated from the metabolism and oxidation of the neurotransmitter dopamine (DA) are thought to contribute to the damage to neurons of the basal ganglia. We have previously demonstrated that infusions of the metabolic inhibitor malonate into the striata of mice or rats produce degeneration of DA nerve terminals. In the present studies, we demonstrate that an intrastriatal infusion of malonate induces a substantial increase in DA efflux in awake, behaving mice as measured by in vivo microdialysis. Furthermore, pretreatment of mice with tetrabenazine (TBZ) or the TBZ analogue Ro 4-1284 (Ro-4), compounds that reversibly inhibit the vesicular storage of DA, attenuates the malonate-induced DA efflux as well as the damage to DA nerve terminals. Consistent with these findings, the damage to both DA and GABA neurons in mesencephalic cultures by malonate exposure was attenuated by pretreatment with TBZ or Ro-4. Treatment with these compounds did not affect the formation of free radicals or the inhibition of oxidative phosphorylation resulting from malonate exposure alone. Our data suggest that DA plays an important role in the neurotoxicity produced by malonate. These findings provide direct evidence that inhibition of succinate dehydrogenase causes an increase in extracellular DA levels and indicate that bioenergetic defects may contribute to the pathogenesis of chronic neurodegenerative diseases through a mechanism involving DA.     

SSTR5 ablation in islet results in alterations in glucose homeostasis in mice

Somatostatin (SST) peptide is a potent inhibitor of insulin secretion and its effect is mediated via somatostatin receptor 5 (SSTR5) in the endocrine pancreas. To investigate the consequences of gene ablation of SSTR5 in the mouse pancreas, we have generated a mouse model in which the SSTR5 gene was specifically knocked down in the pancreatic beta cells (betaSSTR5Kd) using the Cre-lox system. Immunohistochemistry analysis showed that SSTR5 gene expression was absent in beta cells at three months of age. At the time of gene ablation, betaSSTR5Kd mice demonstrated glucose intolerance with lack of insulin response and significantly reduced serum insulin levels. Insulin tolerance test demonstrated a significant increase of insulin clearance in vivo at the same age. In vitro studies demonstrated an absence of response to SST-28 stimulation in the betaSSTR5Kd mouse islet, which was associated with a significantly reduced SST expression level in betaSSTR5Kd mice pancreata. In addition, betaSSTR5Kd mice had significantly reduced serum glucose levels and increased serum insulin levels at 12 months of age. Glucose tolerance test at an older age also indicated a persistently higher insulin level in betaSSTR5Kd mice. Further studies of betaSSTR5Kd mice had revealed elevated serum C-peptide levels at both 3 and 12 months of age, suggesting that these mice are capable of producing and releasing insulin to the periphery. These results support the hypothesis that SSTR5 plays a pivotal role in the regulation of insulin secretion in the mouse pancreas.     

我国葫芦科植物离体培养研究进展

葫芦科植物包括多种瓜类蔬菜,对其进行离体培养研究具有重要的理论和实践意义。综述了国内在葫芦科植物器官培养、体细胞胚胎发生、花药培养、原生质体培养和体细胞杂交及离体遗传转化等方面取得的研究进展,并对葫芦科植物离体培养、遗传转化与育种的前景作了展望。