Developmental changes in functional expression andβ-adrenergic regulation of I_f in the heart of mouse embryo

The hyperpolarization-activated current (If) plays an important role in determining the spontaneous rate 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 Iy in embryonic 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 myocytes and even lower in late developmental stage (LDS) (16.5 d) atrial or ventricular myocytes, indicating that these cells of the EDS embryonic heart have some properties of pacemaker cells.β-adrenergic agonist isoproterenol (ISO) stimulates If in LDS but not in EDS cardiomyocytes, indicating that the β-adrenergic regulation 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 t     

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.     

Alterations of cardiac and lymphocyte β-adrenoceptors in rat with chronic heart failure

The alterations of cardiac and lymphocyte β-adrenoceptors were observed in the rats with chronic heart failure produced by constriction of both abdominal aorta and renal artery. The results showed that β1-adrenocep-tor density and mRNA levels were increased, whereas these levels remained unchanged for β2 The concentration-contractile response curve for isoproterenol was shifted to the right in cardiac atrium, whereas the concentration-cAMP accumulation response curve for isoproterenol in myocardium was not changed. The number of β-adrenoceptors in blood lymphocyte was markedly reduced. Thus in the heart-failure rats the density of cardiac β-adrenoceptor was increased accompanying reduced β-adrenoceptor-mediated positive inotropic response, suggesting a post adenylate cyclase dys-function or impaired contractile components. In contrast, the alteration of β-adrenoceptor in lymphocyte is consistent with the reduced β-adrenoceptor-mediated inotropic response in heart.     

Proteins binding to the 5‘—flanking regualtory elements of the human β—globin gene

The binding of nuclear proteins prepared from mouse erythroid tissue in different developmental stages to the 5‘-flanking regulatory elements of human β-globin gene,two negative control regions(NCR1,-610to-490 bp;NCR2,-338,to-233bp),was identified.Two stage specific protein factors corresponding to embryonic and fetal stages were found to be capable of binding to NCR2.These data provided evidence that the cis acting elements of the 5‘-flanking region might be involved in the developmental control of β-globin gene and NCR2 might be responsible in art for the silence of β-glolbin gene in the embryonic and fetal stages.     

Zacopride selectively activates the Kir2.1 channel via a PKA signaling pathway in rat cardiomyocytes

We recently reported that zacopride is a selective inward rectifier potassium current (IK1 ) channel agonist, suppressing ventricular arrhythmias without affecting atrial arrhythmias. The present study aimed to investigate the unique pharmacological properties of zacopride. The whole-cell patch-clamp technique was used to study IK1 currents in rat atrial myocytes and Kir2.x currents in human embryonic kidney (HEK)-293 cells transfected with inward rectifier potassium channel (Kir)2.1, Kir2.2, Kir2.3, or mutated Kir2.1 (at phosphorylation site S425L). Western immunoblots were performed to estimate the relative protein expression levels of Kir2.x in rat atria and ventricles. Results showed that zacopride did not affect the IK1 and transmembrane potential of atrial myocytes. In HEK293 cells, zacopride increased Kir2.1 homomeric channels by 40.7%±9.7% at 50 mV, but did not affect Kir2.2 and Kir2.3 homomeric channels, and Kir2.1-Kir2.2, Kir2.1-Kir2.3 and Kir2.2-Kir2.3 heteromeric channels. Western immunoblots showed that similar levels of Kir2.3 protein were expressed in rat atria and ventricles, but atrial Kir2.1 protein level was only 25% of that measured in the ventricle. In addition, 5-hydroxytryptamine (5-HT) 3 receptor was undetectable, whereas 5-HT 4 receptor was weakly expressed in HEK293 cells. The Kir2.1-activating effect of zacopride in these cells was abolished by inhibition of protein kinase A (PKA), but not PKC or PKG. Furthermore, zacopride did not activate the mutant Kir2.1 channel in HEK293 cells but selectively activated the Kir2.1 homomeric channel via a PKA-dependent pathway, independent to that of the 5-HT receptor.     

Odontoblast β-catenin signaling regulates fenestration of mouse Hertwig's epithelial root sheath

The interaction between Hertwig's epithelial root sheath(HERS) and the adjacent mesenchyme is vitally important in mouse tooth root development. We previously generated odontoblast-specific Ctnnb1(encoding β-catenin) deletion mice, and demonstrated that odontoblast β-catenin signaling regulates odontoblast proliferation and differentiation. However, the role of odontoblast β-catenin signaling in regulation of HERS behavior has not been fully investigated. Here, using the same odontoblast-specific Ctnnb1 deletion mice, we found that ablation of β-catenin signaling in odontoblasts led to aberrant HERS formation. Mechanistically, odontoblast-specific Ctnnb1 deletion resulted in elevated bone morphogenetic protein 7(Bmp7) expression and reduced expression of noggin and follistatin, both of which encode extracellular inhibitors of BMPs. Furthermore, the levels of phosphorylated Smad1/5/8 were increased in HERS cells. In vitro tissue culture confirmed that BMP7 treatment disrupted the HERS structure. Taken together, we demonstrated that odontoblast β-catenin signaling may act through regulation of BMP signaling to maintain the integrity of HERS cells.     

Regulation of swelling—activated chloride channels in embryonic chick heart cells

Swelling-activated Cl^- currents,I(Cl,swell),were measured during hyposmotic shock in white Leghorn embryonic chick heart cells using the whole-cell recording of patch-clamp technique.Genistein,an inhibitor of protein tyrosine kinase(PTK),suppressed I(Cl,swell).Under isosmotic condition phorbol 12-myristate 13-actetate(PMA),and activator of PKC,elicited the Cl^- current similar to that in hyposmotic solution,whereas hyposmotic shock did not elicit I(Cl,swell) in chelerythrine chloride(an inhibitor of PKC)-treated cells,Confocal microscopy experiments using FITC-phalloidin as a fluorescent label of F-actin showed that the actin network was moved from cortical region of the cell to the center after hyposmotic shock as compared with the image under isosmotic condition,When the cells were treated with cytochalasin B(CB)or cytochalasin D(CD)under isosmotic condition the disruption of the F-actin integrity was observed,and I(C,l,swell). The results suggested that the role of PTK,probably receptor tyrosine kinase,for regulation of I(Cl,swell) appeared to be at upstream site related to the role of F-actin.Then PKC signal pathway was activated somehow and finally change in the polymerization state of cytoskeleton led to activate the swelling-activated Cl^- channels.These results demonstrate clearly that PTK,PKC and F-actin are important factors for regulation of I(Cl,swell),in embryonic chick heart cells as compared with often controversial results reported in different cell types.     

Temperature dependence of intracellular free calcium in cardiac myocytes from rat and ground squirrel measured by confocal microscopy

The temperature-dependence of infraeeliular free caleimn (Ca) was investigated in mdo-1 loaded ventricular myocytes from the ral, a non-hibernator, and from the ground squirrel, a hibernator. The dissociation constant of indo-l at different temperatures was calibrated both al pll-tat and at @-stat . and the result demonstrated that the @-stat ralibration should be prettrred . Analysis of the fluoreseent image showed a striking increase of Ca2 as well as spontaneous caleiuni waves in ral cells, indicating an overloaded cakuum. In contrast, cardiac myocytes of the ground sqnirraf were found to keep a constant (Ca2 ) without caleium overload regardless of temperature variation. It is be-lieved that understanding of the mechanisms underlying the interccllular caleima homeostasis of hibrernators may lead to solutions of some medical questions .     

Proteins binding to the 5''''-flanking regulatory elements of the human β-globin gene~1

The binding of nuclear proteins prepared from mouse erythroid tissue in different developmental stages to the 5'-flanking regulatory elements of human globin gene, two negative control regions(NCR1, -610 to -490 bp; NCR2,-338 to -233bp), was identified. Two stage specific protein factors corresponding to embryonic and fetal stages were found to be capable of binding to NCR2. These data provided evidence that the cis acting elements of the 5'-flanking region might be involved in the developmental control of globin gene and NCR2 might be responsible in part for the silence of globin gene in the embryonic and fetal stages.     

Calcium signaling during the early meroblastic cleavages of zebrafish and medaka embryos

The regulation of cytokinesis in"gianf' embryonic cells(i.e.,> 500 μm in diameter)presents exacting challenges that include long-range signaling with respect to time and space; the transport and assembly,followed by disassembly,of an extensive contractile apparatus; and the remodeling and addition of new surface membrane to the resulting daughter cells.     

Maternal-effect Floped gene is essential for the derivation of embryonic stem cells in mice

Floped (official name Ooep) is specifically and abundantly expressed in mouse oocytes and embryonic stem cells (ESCs). Depletion of Floped from oocytes leads to early embryonic arrest at the 2-cell stage. Although crucial in cleavage stage development, its roles in early embryos as well as in ESCs remain completely unknown. Here, we compared the efficiency of mouse ESC derivation from inner cell mass (ICM) with and without Floped to study its possible roles in mESCs. Derivation rates of mESC from wild-type, heterozygous, and homozygous blastocysts were 33.3%, 21.43%, and 3.85%, respectively, indicating that Floped-/-blastocysts had significantly decreased derivation rates. Respective outgrowth appearing rate five days after blastocyst attachment were 83.3%, 85.7%, and 15.4%. Morphologically, the outgrowth of ICM from Floped-/-blastocysts appeared severely death three to five days after blastocyst attachment, and the respective derived stem cells showed long-term instability with long-standing epithelial-like colonies. This result suggests a possible role of Floped in the course of ICM-ESCs transition.     

Proteomic analysis of apoptosis triggered by inhibition of ubiquitin-proteasome pathway in Mo7e leukaemic cells

The ubiquitin-proteasome pathway is critical for the degradation of short-lived proteins in eukaryotic cells, and inhibition of this pathway could induce apoptosis in human leukaemic Mo7e cells. We analyzed the proteomic response of Mo7e cells by inhibiting the ubiquitin-proteasome pathway with . Among 72 protein spots showing significant changes in expression on 2-D protein gels, 4 of them were strongly increased. They are identified as Rho GDP dissociation inhibitor (GDI) βprotein, profilin 1, adenylate kinase isoenzyme 2, and eIF-5A as determined by peptide mass fingerprinting(PMF) using MALDI-TOF-MS a nd peptide     

Studies on DNA—protein interactions in the upstream regulatory region of the human ε—globin gene promoter

The erythroid- and developmental stage-specific expression of the human ε-globin gene is controlled,in part,by the 5‘-flanking DNA sequence of this gene.In the present study,we have used DNA-protein binding assays to identify trans-acting factors which regulate the temporal expression of the human ε-globin gene during development.Using gel mobility shift assays and DNaseI footprinting assays,a nuclear protein factor (termed ε-SSF1) in the nuclear extracts from mouse haematopoietic tissues at d 11 and d 13 of gestation was identified.It could specifically bind to the positive control region (between-535 and -453bp) of the human ε-globin gene.We speculated that the ε-SSF1 might be an erythroid-and developmental stage-specific activator.In addition,we found another nuclear protein factor (terned ε-R1) in the nuclear extract from mouse fetal liver at d18 of gestation,which could strongly bind to the silencer region (between-392 and -177bp) of this gene.Therefore,we speculated that the ε-R1 might be an erythroid-and developmental stagespecific repressor.Our data suggest that both ε-SSF1 and ε-R1 might play important roles in developmental regulation of the human ε-globin gene expression during the early embryonic life.On the hand,we observed that the binding patterns of nuclear proteins from three cell lines (K562,HEL and Raji) to these regulatory regions were partially different.These results suggest that different trans-acting factors in K562,HEL and Raji cells might be responsible for activating or silencing the human ε-globin gene in three different cell lines.     

Xeno-free derivation and culture of human embryonic stem cells： current status, problems and challenges

Human embryonic stem cells （hESC） not only hold great promise for the treatment of degenerative diseases but also provide a valuable tool for developmental studies. However, the clinical applications of hESC are at present limited by xeno-contamination during the in vitro derivation and propagation of these cells. In this review, we summarize the current methodologies for the derivation and the propagation of hESC in conditions that will eventually enable the generation of clinical-grade cells for future therapeutic applications.     

Identification of the development stage—specific factors in mouse fetal liver binding to the human β—globin gene promoter

In order to elucidate the molecular mechanisms of globin gene expression during embryonic development,the nuclear extracts from mouse hematopoietic tissue at different stages of development have been prepared.By using DNase I footprinting and gel mobility shift assays,the binding of protein factors in these extracts to the human β-globin promoter was analyzed.The differences in the binding patterns of protein factors during development were observed.An erythroid-specific and stage-specific nuclear protein in the nuclear extrace from d 18 mouse fetal liver was identified,which can bind to the sequence(from-66bp to-90bp) of human β-globin promoter.We therefore speculate that the function of this cis-acting element may be similar to stage selector element(SSE) in chicken β^A-promoter.     

Human pescadillo induces large-scale chromatin unfolding

Pescadillo was initially identified in a genetic screen for mutations that affect embryonic develop-ment of the zebrafish Daniorerio[1]. Pescadillo-/- ze-brafish mutants showed abnormal embryonic devel-opment such as reduced brain, eye size and a lack of extension of the jaw on developmental day 3. Further study showed that the Pescadillo protein is mainly distributed in tissues containing a significant number of proliferating cells and dramatically elevated in ma-lignant human astrocytomas an…     

β-adrenergic modulation of in vivo long-term potentiation in area CA1 and its role in spatial learning in rats

Activation of β-adrenoceptors in area CA1 of the hippocampus facilitates in vitro long-term potentiation (LTP) in this region. However, it is unclear if in vivo LTP in area CA1 and hippocampus-dependent learning are subjected to β-adrenergic regulation. To address this question, we investigated the effects of the β-adrenergic agonist L-isoproterenol or antagonist DL-propranolol on in vivo LTP of area CA1 and the spatial learning in Morris water maze. In the presence of L-isoproterenol (through local infusion into area CA1), the theta-pulse stimulation with the parameter of 10 Hz, 150 pulses/train, 1 train, a frequency weakly modifying synaptic strength, induced a robust LTP, and this effect was blocked when DL-propranolol was co-administered. By contrast, the theta-pulse stimulation with the parameter of 5 Hz, 150 pulses/train, 3 trains, a frequency strongly modifying synaptic strength, induced a significantly smaller LTP when DL-propranolol was administered into area CA1. Accordingly, DL-propranolol impaired the spatial learning in the water maze when infused into area CA1 20 min pretraining. Compared with control rats, the DL-propranolol-treated rats showed significantly slower learning in the water maze and subsequently exhibited poor memory retention at 24-h test. These results suggest that β-adrenoceptors in area CA1 are involved in regulating in vivo synaptic plasticity of this area and are important for spatial learning.