Developmental changes in functional expression and β-adrenergic regulation of If in the heart of mouse embryo

The hyperpolarization-activated current (If) plays an important role in determining the spontaneousrate of cardiac pacemaker cells. The automatic rhythmicity also exists in working cells of embryonic heart,therefore we studied developmental changes in functional expression and β-adrenergic regulation of If inembryonic mouse heart. The expression of If is high in early developmental stage (EDS) (10.5 d after coitus)ventricular myocytes, low in intermediate developmental stage (IDS) (13.5 d) atrial or ventricular myocytesand even lower in late developmental stage (LDS) (16.5 d) atrial or ventricular myocytes, indicating thatthese cells of the EDS embryonic heart have some properties of pacemaker cells. β-adrenergic agonistisoproterenol (ISO) stimulates If in LDS but not in EDS cardiomyocytes, indicating that theβ-adrenergicregulation of If is not mature in EDS embryonic heart. But forskolin (a direct activator of adenylate cyclase)and 8-Br-cAMP (a membrane-permeable analogue of cAMP) increase the amplitude of If in EDS cells,indicating that adenylate cyclase and cAMP function fairly well at early stage of development. Furthermore,the results demonstrate that If is modulated by phosphorylation via cAMP dependent PKA both in EDSand LDS cells.     

Distinct hsp70 domains mediate apoptosis-inducing factor release and nuclear accumulation

Although hsp70 antagonizes apoptosis-inducing factor (AIF)-mediated cell death, the relative importance of preventing its release from mitochondria versus sequestering leaked AIF in the cytosol remains controversial. To dissect these two protective mechanisms, hsp70 deletion mutants lacking either the chaperone function (hsp70-deltaEEVD) or ATPase function (hsp70-deltaATPase) were selectively overexpressed before exposing cells to a metabolic inhibitor, an insult sufficient to cause mitochondrial AIF release, nuclear AIF accumulation, and apoptosis. Compared with empty vector, overexpression of wild type human hsp70 inhibited bax activation and reduced mitochondrial AIF release after injury. In contrast, mutants lacking either the chaperone function (hsp70-deltaEEVD) or the ATP hydrolytic domain (hsp70-deltaATPase) failed to prevent mitochondrial AIF release. Although hsp70-deltaEEVD did not inhibit bax activation or mitochondrial membrane injury after cell stress, this hsp70 mutant co-immunoprecipitated with leaked AIF in injured cells and decreased nuclear AIF accumulation. In contrast, hsp70-deltaATPase did not interact with AIF either in intact cells or in a cell-free system and furthermore, failed to prevent nuclear AIF accumulation. These results demonstrate that mitochondrial protection against bax-mediated injury requires both intact chaperone and ATPase functions, whereas the ATPase domain is critical for sequestering AIF in the cytosol.     

Expression of exogenous or endogenous green fluorescent protein in adipose tissue-derived stromal cells during chondrogenic differentiation

Pluripotent stem cells within the adipose stromal compartment, termed adipose-derived stromal cells (ASCs), have the potential to differentiate into a variety of cell lineages both in vitro and in vivo. Imaging with expression of exogenous or endogenous green fluorescent protein (GFP) reporters facilitates the detailed research on ASCs’ physiological behavior during differentiation in vivo. This study was aimed to confirm whether ASCs expressing GFP still could be induced to chondrogenesis, and to compare the expression of exogenous or endogenous GFP in ASCs during chondrogenic differentiation. ASCs were harvested from inguinal fat pads of normal nude mice or GFP transgenic mice. Monolayer cultures of ASCs from normal mice were passaged three times and then infected with replication-incompetent adenoviral vectors carrying GFP genes. Allowed to recover for 5 days, Ad/GFP infected ASCs were transferred to chondrogenic medium as well as the ASCs from transgenic mice cultured in vitro over the same passages. The level of GFP in transgenic ASCs maintained stable till 3 months after chondrogenic induction. Whereas, high level of GFP expression in Ad/GFP infected ASCs could last for only 8 weeks and then declined stepwise. Important cartilaginous molecules such as SOX9, collagen type I, collagen type II, aggrecan, collagen type X were assessed using immunocytochemistry, RT-PCR, and Western Blot. The results indicated that no matter the GFP was exogenous or endogenous, it did not influence the chondrogenic potential of ASCs in comparison with the normal controls. Moreover, chondrogenic lineages from ASCs also underwent phenotypic modulation called dedifferentiation as a result of long-term culture in monolayers similar to normal chondrocytes.     

Isolation and characterization of 22 polymorphic microsatellite DNA markers of Japanese sea bass (Laterolabrax japonicus)

Japanese sea bass (Laterolabrax japonicus) inhabits the coast of East Asia and is cage‐cultured currently in China as well. Twenty‐two microsatellite DNA markers were developed and used to type 35 individuals collected along the Chinese coast. The number of alleles per locus ranged from three to 23. The expected heterozygosity ranged from 0.111 to 0.938, while the observed heterozygosity ranged from 0.114 to 0.914. All 22 loci are neutral and independent of each other; two deviated significantly from Hardy–Weinberg equilibrium. These microsatellite DNA markers are moderately informative, which will certainly facilitate the management and exploitation of the genetic resource of L. japonicus.     

Mathematical Modelling of a Brain Tumour Initiation and Early Development: A Coupled Model of Glioblastoma Growth,Pre-Existing Vessel Co-Option,Angiogenesis and Blood Perfusion

We propose a coupled mathematical modelling system to investigate glioblastoma growth in response to dynamic changes in chemical and haemodynamic microenvironments caused by pre-existing vessel co-option, remodelling, collapse and angiogenesis. A typical tree-like architecture network with different orders for vessel diameter is designed to model pre-existing vasculature in host tissue. The chemical substances including oxygen, vascular endothelial growth factor, extra-cellular matrix and matrix degradation enzymes are calculated based on the haemodynamic environment which is obtained by coupled modelling of intravascular blood flow with interstitial fluid flow. The haemodynamic changes, including vessel diameter and permeability, are introduced to reflect a series of pathological characteristics of abnormal tumour vessels including vessel dilation, leakage, angiogenesis, regression and collapse. Migrating cells are included as a new phenotype to describe the migration behaviour of malignant tumour cells. The simulation focuses on the avascular phase of tumour development and stops at an early phase of angiogenesis. The model is able to demonstrate the main features of glioblastoma growth in this phase such as the formation of pseudopalisades, cell migration along the host vessels, the pre-existing vasculature co-option, angiogenesis and remodelling. The model also enables us to examine the influence of initial conditions and local environment on the early phase of glioblastoma growth.     

Hsp27 inhibits Bax activation and apoptosis via a phosphatidylinositol 3-kinase-dependent mechanism

Hsp27 inhibits mitochondrial injury and apoptosis in both normal and cancer cells by an unknown mechanism. To test the hypothesis that Hsp27 decreases apoptosis by inhibiting Bax, Hsp27 expression was manipulated in renal epithelial cells before transient metabolic stress, an insult that activates Bax, induces mitochondrial injury, and causes apoptosis. Compared with control, enhanced Hsp27 expression inhibited conformational Bax activation, oligomerization, and translocation to mitochondria, reduced the leakage of both cytochrome c and apoptosis-inducing factor, and significantly improved cell survival by >50% after stress. In contrast, Hsp27 down-regulation using RNA-mediated interference promoted Bax activation, increased Bax translocation, and reduced cell survival after stress. Immunoprecipitation did not detect Hsp27-Bax interaction before, during, or after stress, suggesting that Hsp27 indirectly inhibits Bax. During stress, Hsp27 expression prevented the inactivation of Akt, a pro-survival kinase, and increased the interaction between Akt and Bax, an Akt substrate. In contrast, Hsp27 RNA-mediated interference promoted Akt inactivation during stress. Hsp27 up- or down-regulation markedly altered the activity of phosphatidylinositol 3-kinase (PI3-kinase), a major regulator of Akt. Furthermore, distinct PI3-kinase inhibitors completely abrogated the protective effect of Hsp27 expression on Akt activation, Bax inactivation, and cell survival. These data show that Hsp27 antagonizes Bax-mediated mitochondrial injury and apoptosis by promoting Akt activation via a PI3-kinase-dependent mechanism.     

SB P 转录因子的结构和功能

SBP是植物所特有的一类转录因子。SBP家族成员在结构上有共同的特点：每个成员都含有由76个左右氨基酸组成的非常保守的DNA结合域（即SBP结合域）。含有SBP结合域的转录因子在植物中广泛存在,并且参与植物生长、发育的多个方面。比如花器官的形成等。在此。主要介绍了植物转录因子SBP家族的结构及其功能的研究进展。