Induction of Creatine Phosphokinase in Cultures of Chick Skeletal Myoblasts without Concomitant Cell Fusion

The induction of the enzyme creatine phosphokinase (CPK) in cultures of chick breast muscle myoblasts has been distinguished from the process of fusion of myoblasts resulting in the formation of multinucleated myotubes. Primary cultures of myoblasts grown in the presence of phospholipase C, BUdR or EGTA, all of which prevent cell fusion, contain amounts of CPK similar to the level in untreated cultures. Both the brain and muscle isozymes are present in all cultures. We conclude that the induction of CPK is not dependent upon the formation of multinucleated myotubes.     

Nuclei of Non-Muscle Cells Bind Centrosome Proteins upon Fusion with Differentiating Myoblasts

Background

In differentiating myoblasts, the microtubule network is reorganized from a centrosome-bound, radial array into parallel fibres, aligned along the long axis of the cell. Concomitantly, proteins of the centrosome relocalize from the pericentriolar material to the outer surface of the nucleus. The mechanisms that govern this relocalization are largely unknown.

Methodology

In this study, we perform experiments in vitro and in cell culture indicating that microtubule nucleation at the centrosome is reduced during myoblast differentiation, while nucleation at the nuclear surface increases. We show in heterologous cell fusion experiments, between cultures of differentiating mouse myoblasts and human cells of non-muscular origin, that nuclei from non-muscle cells recruit centrosome proteins once fused with the differentiating myoblasts. This recruitment still occurs in the presence of cycloheximide and thus appears to be independent of new protein biosynthesis.

Conclusions

Altogether, our data suggest that nuclei of undifferentiated cells have the dormant potential to bind centrosome proteins, and that this potential becomes activated during myoblast differentiation.     

53BP1 Mediates the Fusion of Mammalian Telomeres Rendered Dysfunctional by DNA-PKcs Loss or Inhibition

Telomere dysfunction promotes genomic instability and carcinogenesis via inappropriate end-to-end chromosomal rearrangements, or telomere fusions. Previous work indicates that the DNA Damage Response (DDR) factor 53BP1 promotes the fusion of telomeres rendered dysfunctional by loss of TRF2, but is dispensable for the fusion of telomeres lacking Pot1 or critically shortened (in telomerase-deficient mice). Here, we examine a role for 53BP1 at telomeres rendered dysfunctional by loss or catalytic inhibition of DNA-PKcs. Using mouse embryonic fibroblasts lacking 53BP1 and/or DNA-PKcs, we show that 53BP1 deficiency suppresses G1-generated telomere fusions that normally accumulate in DNA-PKcs-deficient fibroblasts with passage. Likewise, we find that 53BP1 promotes telomere fusions during the replicative phases of the cell cycle in cells treated with the specific DNA-PKcs inhibitor NU7026. However, telomere fusions are not fully abrogated in DNA-PKcs-inhibited 53BP1-deficient cells, but occur with a frequency approximately 10-fold lower than in control 53BP1-proficient cells. Treatment with PARP inhibitors or PARP1 depletion abrogates residual fusions, while Ligase IV depletion has no measurable effect, suggesting that PARP1-dependent alternative end-joining operates at low efficiency at 53BP1-deficient, DNA-PKcs-inhibited telomeres. Finally, we have also examined the requirement for DDR factors ATM, MDC1 or H2AX in this context. We find that ATM loss or inhibition has no measurable effect on the frequency of NU7026-induced fusions in wild-type MEFs. Moreover, analysis of MEFs lacking both ATM and 53BP1 indicates that ATM is also dispensable for telomere fusions via PARP-dependent end-joining. In contrast, loss of either MDC1 or H2AX abrogates telomere fusions in response to DNA-PKcs inhibition, suggesting that these factors operate upstream of both 53BP1-dependent and -independent telomere rejoining. Together, these experiments define a novel requirement for 53BP1 in the fusions of DNA-PKcs-deficient telomeres throughout the cell cycle and uncover a Ligase IV-independent, PARP1-dependent pathway that fuses telomeres at reduced efficiency in the absence of 53BP1.     

Variation in the Competence of Tobacco Pith Cells for Cytokinin-Habituation in Culture

Pith parenchyma tissues of tobacco sometimes lose their exogenous requirement for a cell division factor such as the cytokinin, kinetin. This process, known as cytokinin habituation, appears to involve epigenetic changes since it is a heritable change in cell phenotype which is directed, regularly reversible, and leaves the cell totipotent. In this report, we show that pith cells in culture consist of at least two types of cytokinin-requiring cells. The first type habituates rapidly under inductive conditions. The second type continues to express the cytokinin-requiring phenotype for many cell generations in culture but retains the capacity for habituation. These findings suggest that pith cells differ in their competence to habituate and that different states of competence are inherited by individual cells.     

A Model System for Studying Postnatal Myogenesis with Tetracycline-Responsive, Genetically Engineered Clonal Myoblasts in Vitro and in Vivo

The aim of this work was to introduce a tetracycline-responsive (Tet-off) gene expression system into myoblasts in order to regulate a reporter gene not only in vitro but also particularly in muscles implanted with these engineered myoblasts. Mouse myoblasts from a long-term culture (i28 cells) were transfected initially to generate and characterize two stable master clones expressing tetracycline-responsive transactivator protein tTA. Like parental i28 myoblasts, these clones differentiated well in vitro. The second step introduced the firefly (Photinus pyralis) luciferase gene into one of the stable tTA clones producing double transfectants expressing luciferase in the absence of tetracycline. Addition of tetracycline (1 microg ml(-1)) resulted in at least 100-fold decreases in luciferase activity within 8 h in both growing and differentiating myoblast cultures. Enzyme activity was rapidly restored after tetracycline was removed (8 h). After successful implantation of these myoblasts into damaged mouse muscles, luciferase expression in the matured progeny cells could be regulated by oral application of doxycycline for at least 1 month. The tetracycline-responsive master clones are potentially powerful tools for studying the function of various genes in postnatal myogenesis.     

A Genetically Modified Protein-Based Hydrogel for 3D Culture of AD293 Cells

Hydrogels have strong application prospects for drug delivery, tissue engineering and cell therapy because of their excellent biocompatibility and abundant availability as scaffolds for drugs and cells. In this study, we created hybrid hydrogels based on a genetically modified tax interactive protein-1 (TIP1) by introducing two or four cysteine residues in the primary structure of TIP1. The introduced cysteine residues were crosslinked with a four-armed poly (ethylene glycol) having their arm ends capped with maleimide residues (4-armed-PEG-Mal) to form hydrogels. In one form of the genetically modification, we incorporated a peptide sequence ‘GRGDSP’ to introduce bioactivity to the protein, and the resultant hydrogel could provide an excellent environment for a three dimensional cell culture of AD293 cells. The AD293 cells continued to divide and displayed a polyhedron or spindle-shape during the 3-day culture period. Besides, AD293 cells could be easily separated from the cell-gel constructs for future large-scale culture after being cultured for 3 days and treating hydrogel with trypsinase. This work significantly expands the toolbox of recombinant proteins for hydrogel formation, and we believe that our hydrogel will be of considerable interest to those working in cell therapy and controlled drug delivery.     

Increased Apoptosis of Myoblasts in Drosophila Model for the Walker-Warburg Syndrome

Walker-Warburg syndrome, a progressive muscular dystrophy, is a severe disease with various kinds of symptoms such as muscle weakness and occasional seizures. The genes of protein O-mannosyltransferases 1 and 2 (POMT1 and POMT2), fukutin, and fukutin-related protein are responsible for this syndrome. In our previous study, we cloned Drosophila orthologs of human POMT1 and POMT2 and identified their activity. However, the mechanism of onset of this syndrome is not well understood. Furthermore, little is known about the behavioral properties of the Drosophila POMT1 and POMT2 mutants, which are called rotated abdomen (rt) and twisted (tw), respectively. First, we performed various kinds of behavioral tests and described in detail the muscle structures by using these mutants. The mutant flies exhibited abnormalities in heavy exercises such as climbing or flight but not in light movements such as locomotion. Defective motor function in mutants appeared immediately after eclosion and was exaggerated with aging. Along with motor function, muscle ultrastructure in the tw mutant was altered, as seen in human patients. We demonstrated that expression of RNA interference (RNAi) for the rt gene and the tw mutant was almost completely lethal and semi-lethal, respectively. Flies expressing RNAi had reduced lifespans. These findings clearly demonstrate that Drosophila POMT mutants are models for human muscular dystrophy. We then observed a high density of myoblasts with an enhanced degree of apoptosis in the tw mutant, which completely lost enzymatic activity. In this paper, we propose a novel mechanism for the development of muscular dystrophy: POMT mutation causes high myoblast density and position derangement, which result in apoptosis, muscle disorganization, and muscle cell defects.     

Factors Influencing Detection of Salmonellae in Rendered Animal By-Products

Detection of salmonellae in animal by-products is influenced by the enrichment and plating media and by quantity of product tested, and is related to the total plate count. A linear relationship exists between detection of salmonellae and total plate counts from 10(4) through 10(7) per gram.     

Different Regulation of N-Cadherin and Cadherin-11 in Rat Hippocampus

Abstract

Cadherin-mediated specific cell adhesion is an important process in brain development as well as in synaptic plasticity in the adult brain. In this study the authors quantified mRNA levels of N-cadherin and cadherin-11 in different brain regions for the first time. In hippocampus N-cadherin mRNA levels were very high at embryonic stages and decreased during further development, whereas cadherin-11 mRNA levels were highest at postnatal stages. However, N-cadherin protein level was not altered during hippocampal development and cadherin-11 protein was low at embryonic but high at postnatal and adult stages. In cultured hippocampal neurons both cadherins became colocalized and recruited to synaptic sites during ongoing differentiation, with especially high accumulation of cadherin-11 at synapses. These data hint at a critical role of N-cadherin at early embryonic stages and early synaptogenesis, whereas cadherin-11 might be more important for further stabilization of synapses in the postnatal period and adulthood.     

Method of Studying Palatal Fusion using Static Organ Culture

Cleft lip and palate are among the most common of all birth defects. The secondary palate forms from mesenchymal shelves covered with epithelium that adheres to form the midline epithelial seam (MES). The theories suggest that MES cells follow an epithelial to mesenchymal transition (EMT), apoptosis and migration, making a fused palate ¹. Complete disintegration of the MES is the final essential phase of palatal confluence with surrounding mesenchymal cells. We provide a method for palate organ culture. The developed in vitro protocol allows the study of the biological and molecular processes during fusion. The applications of this technique are numerous, including evaluating responses to exogenous chemical agents, effects of regulatory and growth factors and specific proteins. Palatal organ culture has a number of advantages including manipulation at different stages of development that is not possible using in vivo studies.     

Dorsomorphin Promotes Survival and Germline Competence of Zebrafish Spermatogonial Stem Cells in Culture

Zebrafish spermatogonial cell cultures were established from Tg(piwil1:neo);Tg(piwil1:DsRed) transgenic fish using a zebrafish ovarian feeder cell line (OFC3) that was engineered to express zebrafish Lif, Fgf2 and Gdnf. Primary cultures, initiated from testes, were treated with G418 to eliminate the somatic cells and select for the piwil1:neo expressing spermatogonia. Addition of dorsomorphin, a Bmp type I receptor inhibitor, prolonged spermatogonial stem cell (SSC) survival in culture and enhanced germline transmission of the SSCs following transplantation into recipient larvae. In contrast, dorsomorphin inhibited the growth and survival of zebrafish female germline stem cells (FGSCs) in culture. In the presence of dorsomorphin, the spermatogonia continued to express the germ-cell markers dazl, dnd, nanos3, vasa and piwil1 and the spermatogonial markers plzf and sox17 for at least six weeks in culture. Transplantation experiments revealed that 6 week-old spermatogonial cell cultures maintained in the presence of dorsomorphin were able to successfully colonize the gonad in 18% of recipient larvae and produce functional gametes in the resulting adult chimeric fish. Germline transmission was not successful when the spermatogonia were cultured 6 weeks in the absence of dorsomorphin before transplantation. The results indicate that Bmp signaling is detrimental to SSCs but required for the survival of zebrafish FGSCs in culture. Manipulation of Bmp signaling could provide a strategy to optimize culture conditions of germline stem cells from other species.     

柑桔种间体配融合及培养研究

“平户”文旦（柚）（Ｃｉｔｒｕｓｇｒａｎｄｉｓ）Ｏｓｂｅｃｋ的四分体经酶解,分离出原生质体。ＰＥＧ（聚乙二醇）诱导这类原生质体与二倍体“伏令夏”甜橙（Ｃ．ｓｉｎｅｎｓｉｓ）胚性悬浮细胞系的原生质体融合。融合后的原生质体培养于ＢＨ３／ＥＭＥ培养基中。２天后,观察到花粉管生长现象。不同处理的结果显示,这一现象来源于异核体细胞。这种具花粉管生长的细胞可进一步分裂,形成多细胞团及球形和心形胚状体。对再生的胚状体进行染色体数检查,证明１３．１％的胚状体为三倍体,２ｎ＝３ｘ＝２７。而起始悬浮细胞系为二倍体,检查的３９２个细胞,未发现有染色体倍性变异。     

Retinoic Acid and Its Geometrical Isomers Block Both Growth and Fusion of L6 Myoblasts by Modulating the Expression of Protein Kinase A

All-trans retinoic acid (RA) and its geometrical isomers, such as 9-cis RA, 13-cis RA, and 9,13-di-cis RA, strongly inhibited both growth and fusion of L6 myoblasts. However, illumination of white light diminished their inhibitory activity on membrane fusion with little effect on cell growth. During myogenic differentiation, the intracellular level of cAMP decreased whereas the total activity of protein kinase A as well as the protein level of its regulatory subunit I (RI) and catalytic subunit (C) increased. RAs raised the intracellular level of cAMP by over 3-fold, but decreased the total activity of protein kinase A. Like RAs, dibutyryl-cAMP inhibited myoblast fusion and reduced the expression of both RI and C subunits. These results suggest that RAs negatively modulate the differentiation of L6 myoblasts by increasing the intracellular level of cAMP, which may in turn down-regulate the expression of protein kinase A and hence its activity.     

Competence for Transfection in Staphylococcus aureus

Lysogenicity with phage P11 is a requirement for competence in the presence of calcium ions in Staphylococcus aureus 8325N. The wild-type strain 8325N, lysogenic for the phages P11, P12, and P13, is also competent, but strain 8325-4, a nonlysogenic derivative of strain 8325N, as well as strains 8325-4 (P12) and 8325-4 (P13) could not develop competence. Preincubation of strain 8325-4 with culture filtrates from a competent strain can induce competence, but rabbit anti-P11 serum can neutralize the competence factor. Superinfection of competent strain 8325-4 (P11) with phage P11 at high multiplicities increases the transfection frequency. Uptake of deoxyribonucleic acid by competent cells is dependent on calcium ion concentration, pH, and temperature. Inhibition of energy metabolism or protein synthesis before and during incubation with deoxyribonucleic acid affects the binding and uptake. The ability to develop competence during bacterial growth differs between the wild-type strain (8325N) and a nuclease-deficient mutant (8325N nuc). The wild-type strain has a narrow competence maximum in the early exponential growth phase where no extracellular nuclease activity is produced. The nuc strain shows in addition competence maxima later in the exponential growth phase.     

Conditions Favorable for the Somatic Embryogenesis in Carrot Cell Culture Enhance Expression of the roIC Promoter-GUS Fusion Gene

We obtained carrot (Daucus carota) cells possessing the 5′-noncoding sequence of the ORF12 gene (roIC) of TL-DNA of the Ri plasmid and a structural gene of bacterial β-glucuronidase by Agrobacterium-mediated transformation. When such cells were cultured in medium containing 2,4-dichlorophenoxyacetic acid, substantial reduction in β-glucuronidase activity was observed. Upon transferring the cells from a 2,4-D-containing medium to one devoid of 2,4-dichlorophenoxyacetic acid, enhanced expression of β-glucuronidase in somatic embryo development was recorded. Activation by gibberillic acid and suppression by abscisic acid of β-glucuronidase activities, in concord with embryogenesis, were also noted.