恒磁场增强心肌梗死大鼠骨髓间充质干细胞移植后心脏功能改善

目的：研究恒磁场对心肌梗死大鼠骨髓间充质干细胞（bone marrow-derived mesenchymal stem cells,BMSCs）移植后心脏功能的影响。方法：取180g,9-12周龄雄性SD大鼠骨髓,以密度梯度离心分离出单个核细胞（MNCs）,于体外培养并传代培养出骨髓间充质干细胞（MSCs）。制作大鼠心肌梗死模型,将1.5×106BMSCs注射入梗死梗死区周围,分为磁场照射＋BMSCs植入组、BMSCs植入组及空白对照组。4周后处死动物,每组5只大鼠。磁场照射组用0.4 T恒磁场置于心前区30 min,每日1次,共7天。用颈动脉插管法测定心脏功能,Masson三色染色测定梗死面积,VWF VIII染色计算血管密度。结果：与对照组相比BMSCs组以及磁场组均可以显著提高左心室收缩压（LVSP）,dp/dtmax以及-dp/dtmax,减少LVEDP（P〈0.05）。但是,磁场组与BMSCs组相比LVSP,左心室内压最大上升速率（dp/dtmax）以及左心室内压最大下降速率（-dp/dtmax）增高,左心室舒张末压（LVEDP）减少（P〈0.05）。与对照组相比BMSCs组以及磁场组均可以显著提高减少心梗面积（P〈0.05）。磁场组与BMSCs组相比心梗面积减少（P〈0.05）。与对照组相比BMSCs组以及磁场组均可以显著提高增加血管密度（P〈0.05）。磁场组与BMSCs组相比血管密度增加（P〈0.05）。结论：恒磁场具有加强移植BMSCs改善心脏功能的作用。     

参松养心胶囊对缺血性心力衰竭患者心率变异性的影响

目的：评价参松养心胶囊对缺血性心力衰竭患者心率变异性的影响。方法：选择缺血性心肌病心衰患者40例,在常规抗心衰治疗（利尿剂、血管紧张素转换酶抑制剂／血管紧张素受体抑制剂、B受体组滞剂、醛固酮拮抗剂及洋地黄制剂）基础上加服参松养心胶囊1．2g,每日3次,连用8周。以超声心动图和24小时动态心电图分别观察治疗前、治疗后8周患者的心脏功能和心率变异性的变化情况。结果：参松养心胶囊治疗8周后,患者左室射血分数较治疗前显著增加（33．5±5．2％vs42．6±5．7％,P〈0．001）,正常R-R间期标准差（SDNN）和连续5分钟正常R-R间期均值的标准差（SDANN）均显著增加（P〈0．05）,分别为（97．4±40．6vs110．6±29-3msecs）和（80．5±29．4vs98．4±30．6msecs）。结论：常规抗心衰治疗基础上给予参松养心胶囊治疗能够有效改善缺血性心肌病心衰患者心率变异性和心脏功能。     

Identifying MicroRNA and mRNA Expression Profiles in Embryonic Stem Cells Derived from Parthenogenetic, Androgenetic and Fertilized Blastocysts

MicroRNAs (miRNAs) are a class of highly conserved small non-coding RNA molecules that play a pivotal role in several cellular functions. In this study, miRNA and messenger RNA (mRNA) profiles were examined by Illumina microarray in mouse embryonic stem cells (ESCs) derived from parthenogenetic, androgenetic, and fertilized blastocysts. The global analysis of miRNA-mRNA target pairs provided insight into the role of miRNAs in gene expression. Results showed that a total of 125 miRNAs and 2394 mRNAs were differentially expressed between androgenetic ESCs (aESCs) and fertilized ESCs (fESCs), a total of 42 miRNAs and 87 mRNAs were differentially expressed between parthenogenetic ESCs (pESCs) and fESCs, and a total of 99 miRNAs and 1788 mRNAs were differentially expressed between aESCs and pESCs. In addition, a total of 575, 5 and 376 miRNA-mRNA target pairs were observed in aESCs vs. fESCs, pESCs vs. fESCs, and aESCs vs. pESCs, respectively. Furthermore, 15 known imprinted genes and 16 putative uniparentally expressed miRNAs with high expression levels were confirmed by both microarray and real-time RT-PCR. Finally, transfection of miRNA inhibitors was performed to validate the regulatory relationship between putative maternally expressed miRNAs and target mRNAs. Inhibition of miR-880 increased the expression of Peg3, Dyrk1b, and Prrg2 mRNA, inhibition of miR-363 increased the expression of Nfat5 and Soat1 mRNA, and inhibition of miR-883b-5p increased Nfat5, Tacstd2, and Ppapdc1 mRNA. These results warrant a functional study to fully understand the underlying regulation of genomic imprinting in early embryo development.     

Gene regulatory network inference by point-based Gaussian approximation filters incorporating the prior information

Abstract

The extended Kalman filter (EKF) has been applied to inferring gene regulatory networks. However, it is well known that the EKF becomes less accurate when the system exhibits high nonlinearity. In addition, certain prior information about the gene regulatory network exists in practice, and no systematic approach has been developed to incorporate such prior information into the Kalman-type filter for inferring the structure of the gene regulatory network. In this paper, an inference framework based on point-based Gaussian approximation filters that can exploit the prior information is developed to solve the gene regulatory network inference problem. Different point-based Gaussian approximation filters, including the unscented Kalman filter (UKF), the third-degree cubature Kalman filter (CKF₃), and the fifth-degree cubature Kalman filter (CKF₅) are employed. Several types of network prior information, including the existing network structure information, sparsity assumption, and the range constraint of parameters, are considered, and the corresponding filters incorporating the prior information are developed. Experiments on a synthetic network of eight genes and the yeast protein synthesis network of five genes are carried out to demonstrate the performance of the proposed framework. The results show that the proposed methods provide more accurate inference results than existing methods, such as the EKF and the traditional UKF.

     

Gastrointestinal absorption and metabolism of apple polyphenols ex vivo by the pig intestinal mucosa in the Ussing chamber

Polyphenols contained in food have various positive effects on human health. The absorption and metabolism of polyphenols in the intestinal tract needs to be studied to estimate these effects. The Ussing chamber technique was used to investigate the transport behavior of apple polyphenols through pig small intestinal mucosa, which served as a model for human gastrointestinal mucosa. The identities and concentrations of polyphenols and their metabolites in the half-chambers (luminal and basolateral) within an incubation period of 4 h were determined by HPLC–MS/MS and HPLC–DAD (DAD = diode-array detection). Flux values were also measured. It was found that 5-caffeoylquinic acid and caffeic acid were absorbed and translocated to the basolateral side (1.9 and 3.7%, respectively), but other compounds, including glycosides of phloretin and quercetin, were observed without translocation. A Ussing chamber utilizing pig small intestinal mucosa is a suitable model for assessing the effect of apple polyphenols on mucosal integrity and nutrition absorption across porcine mucosa.     

PICKLE is a CHD subfamily II ATP-dependent chromatin remodeling factor

PICKLE plays a critical role in repression of genes that regulate development identity in Arabidopsis thaliana. PICKLE codes for a putative ATP-dependent chromatin remodeler that exhibits sequence similarity to members of subfamily II of animal CHD remodelers, which includes remodelers such as CHD3/Mi-2 that also restrict expression of developmental regulators. Whereas animal CHD3 remodelers are a component of the Mi-2/NuRD complex that promotes histone deacetylation, PICKLE promotes trimethylation of histone H3 lysine 27 suggesting that it acts via a distinct epigenetic pathway. Here, we examine whether PICKLE is also a member of a multisubunit complex and characterize the biochemical properties of recombinant PICKLE protein. Phylogenetic analysis indicates that PICKLE-related proteins in plants share a common ancestor with members of subfamily II of animal CHD remodelers. Biochemical characterization of PICKLE in planta, however, reveals that PICKLE primarily exists as a monomer. Recombinant PICKLE protein is an ATPase that is stimulated by ssDNA and mononucleosomes and binds to both naked DNA and mononucleosomes. Furthermore, recombinant PICKLE exhibits ATP-dependent chromatin remodeling activity. These studies demonstrate that subfamily II CHD proteins in plants, such as PICKLE, retain ATP-dependent chromatin remodeling activity but act through a mechanism that does not involve the ubiquitous Mi-2/NuRD complex.     

Sustaining biological welfare for our future through consistent science

Physiological anthropology presently covers a very broad range of human knowledge and engineering technologies. This study reviews scientific inconsistencies within a variety of areas: sitting posture; negative air ions; oxygen inhalation; alpha brain waves induced by music and ultrasound; 1/f fluctuations; the evaluation of feelings using surface electroencephalography; Kansei; universal design; and anti-stress issues. We found that the inconsistencies within these areas indicate the importance of integrative thinking and the need to maintain the perspective on the biological benefit to humanity. Analytical science divides human physiological functions into discrete details, although individuals comprise a unified collection of whole-body functions. Such disparate considerations contribute to the misunderstanding of physiological functions and the misevaluation of positive and negative values for humankind. Research related to human health will, in future, depend on the concept of maintaining physiological functions based on consistent science and on sustaining human health to maintain biological welfare in future generations.