Cell direct reprogramming：a new technique for treating diabetes

Diabetes is characterized by an absolute or relative deficiency in β-cell mass, which cannot be reversed with existing therapeutic strategies. The restoration of the endogenous islet β-cells can stabilize the level of blood glucose. The islet β-cells can be obtained from the directional differentiation of stem cells, but the process is complex and has the risk of teratomas generation. Cell direct reprogramming, one terminal differentiated cell can transdifferentiate into another kind of terminal differentiated cell, which is other than directional differentiation from stem cells. Direct reprogramming gives rise to the generation of islet β-cells from one terminal differentiated cell, may be preferable for diabetes therapy because of its unique advantage.     

表观遗传修饰在骨骼肌细胞增殖分化过程中的研究进展

骨骼肌是肌肉的主要构成部分，骨骼肌细胞发生增殖和分化的过程都是肌肉发育的基础，直接影响着家养动物的产肉性能。研究发现表观遗传修饰作用对骨骼肌细胞增殖分化具有重要的调控作用，表明该遗传修饰作用对家养动物肌肉发育具有重大的意义。作者从DNA甲基化对骨骼肌细胞增殖分化影响、组蛋白乙酰化所含因子调控基因选择表达作用、非编码RNA调控和染色体重塑作用所起的影响等方面分别介绍了表观遗传在骨骼肌细胞增殖分化过程中的研究进展，简述了不同修饰方式和不同作用因子对骨骼肌增殖和分化两个过程的影响。同时也回顾了前人在研究骨骼肌增殖分化过程所用到的方法和手段，进而分析了表观调控作用因子在骨骼肌生长过程中所起到的作用。旨在进一步阐述表观遗传修饰在骨骼肌增殖和分化过程中所起到的重要作用，增强对骨骼肌增殖分化调控过程的了解，为和动物生产实际相结合提供参考途径，同时也为骨骼肌生长发育等分子调控提供更多参考素材。     

Effects of Donor Cells Treated with Egg Extracts on the Development Competence of Cloned Embryos

Japanese Balck cattle fetal fibroblasts (JBCFF) were induced with Xenopus leavis egg extracts and somatic cell nuclear transfer (SCNT) was carried out with the reprogrammed JBCFF as donor cells in order to investigate their effects on SCNT efficiency.Three samples of egg extracts were acquired from different Xenopus laevis.The protein contents and kinds in extracts were evaluated with BCA Protein Quantification Kit and SDS-PAGE.Concentration of Digitonin to permeabilize JBCFF was optimized and assessed with PI staining.Reprogrammed cells treated with egg extract were used as donor in SCNT.Additionally the reconstructed embryos were activated with ionomycin+6-DMAP and A23187+6-DMAP to compare their effects on the development competence.The protein contents of extracts samples were 56.2255,64.6570 and 71.2158 μg/mL,respectively,the each extract had the same composition about 40-55 and 70-100 ku.The optimal concentration of Digitonin was 7 μg/mL and the permeabilization rate was 55.44%.After extracts treatment and continuous culture for 6-7 d,JBCFF formed well-defined colony structures.No significant composition difference was found in rates of fusion (92.83% vs 96.04%),cleavage (89.64% vs 89.78%) and blastocyst formation (24.06% vs 23.12%) of cloned embryos when the colony cells and JBCFF without extracts treatment were used as donor cells (P>0.05).Similarly,the two activation methods had no significant effect on the developmental competence of cloned embryos (cleavage rate 92.16% vs 92.28%,blastocyst rate 23.21% vs 24.18%).Conclusively,Xenopus leavis,egg extracts could induce JBCFF reprogramming to a low differentiated state.However donor cells with reprogramming partially could not improve the development of cloned embryos and its mechanism requires further research.     

红富士苹果芽变系DNA甲基化研究

以35份富士苹果(Malus×domestica Borkh.‘Fuji’)芽变材料为试材,利用甲基化敏感扩增多态性(Methylation Sensitive Amplified Polymorphism,MSAP)分析和UPGMA聚类方法,对其基因组甲基化修饰水平、变异模式以及表观遗传变异关系进行研究。结果表明:(1)不同富士系得到不同的MSAP扩增,总DNA甲基化水平27.90%～36.16%,平均32.87%,双链全甲基化为主要甲基化方式;(2)富士芽变材料绝大多数位点保持了原有甲基化模式;(3)绝大多数芽变(68.57%)检测到全部的甲基化变异模式(12种),去甲基化频率极显著高于甲基化频率(P <0.01),且CG去甲基化极显著高于CHG;(4)36份种质遗传相似系数平均值0.89(0.79～0.92),在聚类图上,富士原种分布在芽变系集中区外,新近发生的芽变系更倾向于聚在一起,着色系片红型和条红型芽变呈分散排布状态。总的来看,富士芽变的甲基化变异模式丰富,超甲基化和去甲基化相伴发生,但以去甲基化为主;‘富士’着色芽变与其最原始品种富士,以及芽变之间发生了较大表观遗传变异;片红和条红型芽变聚类未表现明显偏好性。本研究将为进一步开展富士着色系芽变机理研究提供指导,可以CG去甲基化为切入点展开深入研究。     

植物DNA甲基化与体细胞无性系变异的研究进展

为更好地理解植物DNA甲基化在植物体细胞无性系变异中表观遗传的调控作用,为体细胞无性系变异研究及作物遗传改良提供理论参照,对DNA甲基化的产生及维持机制、生物学作用以及体细胞无性系变异中DNA甲基化模式重建进行了综述。     

Research Progress of Epigenetics Modification in the Process of Skeletal Muscle Cell Proliferation and Differentiation

Skeletal muscle is the most abundant tissue and the main component of muscle in animals.The process of skeletal muscle cell's proliferation and differentiation is the basis of muscle development and it's directly affects the meat production performance of domestic animals.It has been found that epigenetic modification plays an important role in regulating the proliferation and differentiation of skeletal muscle cells.In this study,the effects of epigenetics on skeletal muscle in terms of the effects of DNA methylation on the proliferation and differentiation of skeletal muscle cells,the selection and expression of factors regulated by histone acetylation,the regulation of non-coding RNA,and the effects of chromosome remodeling.Research progress in the process of muscle cell proliferation and differentiation,briefly describes the effects of different modification methods and factors on the two processes of skeletal muscle proliferation and differentiation.At the same time,the methods and means used by predecessor in the study of skeletal muscle proliferation and differentiation were reviewed,and then the role of apparent regulatory factors in skeletal muscle growth was analyzed.The purpose was to further explain the important role of epigenetic modification in the proliferation and differentiation of skeletal muscle,enhanced the understanding of the regulation of skeletal muscle proliferation and differentiation,provided a reference path for integration with animal production,and also provided skeletal muscle.Molecular regulation of such as growth and development provided more reference materials.     

Cell-free extract from porcine induced pluripotent stem cells can affect porcine somatic cell nuclear reprogramming

Pretreatment of somatic cells with undifferentiated cell extracts, such as embryonic stem cells and mammalian oocytes, is an attractive alternative method for reprogramming control. The properties of induced pluripotent stem cells (iPSCs) are similar to those of embryonic stem cells; however, no studies have reported somatic cell nuclear reprogramming using iPSC extracts. Therefore, this study aimed to evaluate the effects of porcine iPSC extracts treatment on porcine ear fibroblasts and early development of porcine cloned embryos produced from porcine ear skin fibroblasts pretreated with the porcine iPSC extracts. The Chariot^TM reagent system was used to deliver the iPSC extracts into cultured porcine ear skin fibroblasts. The iPSC extracts-treated cells (iPSC-treated cells) were cultured for 3 days and used for analyzing histone modification and somatic cell nuclear transfer. Compared to the results for nontreated cells, the trimethylation status of histone H3 lysine residue 9 (H3K9) in the iPSC-treated cells significantly decreased. The expression of Jmjd2b, the H3K9 trimethylation-specific demethylase gene, significantly increased in the iPSC-treated cells; conversely, the expression of the proapoptotic genes, Bax and p53, significantly decreased. When the iPSC-treated cells were transferred into enucleated porcine oocytes, no differences were observed in blastocyst development and total cell number in blastocysts compared with the results for control cells. However, H3K9 trimethylation of pronuclear-stage-cloned embryos significantly decreased in the iPSC-treated cells. Additionally, Bax and p53 gene expression in the blastocysts was significantly lower in iPSC-treated cells than in control cells. To our knowledge, this study is the first to show that an extracts of porcine iPSCs can affect histone modification and gene expression in porcine ear skin fibroblasts and cloned embryos.     

营养素对动物表观遗传的影响及其机制

表观遗传是环境因素和细胞内的遗传物质相互作用的结果.表观遗传学是在DNA碱基序列不变的前提下引起的基因表达或细胞表观型变化的一种遗传现象,具体表现在以下3个既相互独立又相互作用的方面:DNA甲基化、组蛋白修饰和microRNA (miRNA)调控.本文就表观遗传的研究进展及营养素对动物表观遗传的影响及其机制进行综述.     

表观遗传调控骨骼肌发育的研究进展（英文）

动物骨骼肌约占体重的50%左右,因此被认为是机体最大的器官。骨骼肌的发育是一个严格调控的过程。在胚胎发育早期,一部分具有肌肉发育潜能的干细胞在一系列不同基因的精确调控下激活、增殖,经融合后形成有功能的骨骼肌。骨骼肌细胞的增殖、分化等过程是诸多转录因子协同作用的结果,这些因子包括Pax3/Pax7、MyoD、Myf5、Myogenin和MRF4等。表观遗传是指不改变DNA序列的情况下对目的基因表达的调控。近年来的研究表明动物骨骼肌的发育也受到了表观遗产的调控。综述了当前关于表观遗传,包括DNA、组蛋白以及miRNA等水平对骨骼肌发育调控的最新研究进展。