The role of cell death and myofibrillar damage in contractile dysfunction of long-term cultured adult cardiomyocytes exposed to doxorubicin.

In failing hearts cardiomyocytes undergo alterations in cytoskeleton structure, contractility and viability. It is not known presently, how stress-induced changes of myofibrils correlate with markers for cell death and contractile function in cardiomyocytes. Therefore, we have studied the progression of contractile dysfunction, myofibrillar damage and cell death in cultured adult cardiomyocytes exposed to the cancer therapy doxorubicin.

N-Cadherin: structure, function and importance in the formation of new intercalated disc-like cell contacts in cardiomyocytes.

N-Cadherin belongs to a superfamily of calcium-dependent transmembrane adhesion proteins. It mediates adhesion in the intercalated discs at the termini of cardiomyocytes thereby serving as anchor for myofibrils at cell-cell contacts. A large body of data on the molecular structure and function of N-cadherin exists, however, little is known concerning spatial and temporal interactions between the different junctional structures during formation of the intercalated disc and its maturation in postnatal development.

Anthracyclines induce calpain-dependent titin proteolysis and necrosis in cardiomyocytes.

Titin, the largest myofilament protein, serves as a template for sarcomere assembly and acts as a molecular spring to contribute to diastolic function. Titin is known to be extremely susceptible to calcium-dependent protease degradation in vitro. We hypothesized that titin degradation is an early event in doxorubicin-induced cardiac injury and that titin degradation occurs by activation of the calcium-dependent proteases, the calpains.

Reactivation of the mitosis-promoting factor in postmitotic cardiomyocytes.

Cardiomyocytes cease to divide shortly after birth and an irreversible cell cycle arrest is evident accompanied by the downregulation of cyclin-dependent kinase activities. To get a better understanding of the cardiac cell cycle and its regulation, the effect of functional recovery of the mitosis-promoting factor (MPF) consisting of cyclin B1 and the cyclin-dependent kinase Cdc2 was assessed in primary cultures of postmitotic ventricular adult rat cardiomyocytes (ARC). Gene transfer into ARC was achieved using the adenovirus-enhanced transferrinfection system that was characterized by the absence of cytotoxic events.

Cellular engineering of ventricular adult rat cardiomyocytes.

Objective: Preparation of viable cultured adult cardiomyocytes (vARCs) is a prerequisite for cell-based transplantation and tissue engineering. Ectopic gene expression is important in this context. Here, we present an in vitro cell replating strategy using Accutase for cultured vARCs, allowing ectopic gene expression.

Impact of coexpression and coamplification of sICAM and antiapoptosis determinants bcl-2/bcl-x(L) on productivity, cell survival, and mitochondria number in CHO-DG44 grown in suspension and serum-free media.

We have engineered dihydrofolate reductase-negative (dhfr-/-) Chinese hamster ovary (CHO) DG44 cells adapted for growth in serum-free suspension cultures for simultaneous expression of the common cold therapeutic, the soluble intercellular adhesion molecule 1 (sICAM), and the antiapoptosis determinants bcl-2 or bcl-x(L). Detailed analyses of titer and antiapoptosis characteristics of these production cell lines included an independent (sICAM; bcl-2/bcl-x(L)) as well as a cocistronic (sICAM-(bcl-2/bcl-x(L))) expression set-up in which translation-initiation of the survival cistron is driven by an internal ribosome entry site (IRES) of the encephalomyocarditis virus (EMCV). In transient transfections or stable mixed populations and in comparison to isogenic sICAM-only control vectors, both bcl-x(L)-encoding configurations achieved higher sICAM yields while bcl-2 over-expression resulted in decreased product levels.

Modulation of anthracycline-induced myofibrillar disarray in rat ventricular myocytes by neuregulin-1beta and anti-erbB2: potential mechanism for trastuzumab-induced cardiotoxicity.

Background: There is an increased incidence of heart failure in patients treated concurrently with anthracyclines and the chemotherapeutic anti-erbB2 agent trastuzumab (Herceptin). On the basis of our previous studies with recombinant neuregulin-1beta (NRG-1beta), a ligand for the erbB2 receptor tyrosine kinase, we hypothesized that activation of erbB2 by anti-erbB2 versus NRG-1 would cause differential effects on myocyte intracellular signaling as well as anthracycline-induced myofibrillar injury and might potentially account for the clinical toxicity of trastuzumab in the setting of concurrent anthracycline therapy.

Methods And Results: We tested this hypothesis using adult rat ventricular myocytes (ARVMs) in culture, assessing myofibrillar structure by immunostaining for myomesin and filamentous actin.

Expression and regulation of connexins in cultured ventricular myocytes isolated from adult rat hearts.

Gap junctions were assayed during re-differentiation of adult rat cardiomyocytes in long-term culture to gain insight into the processes of remodeling. Double immunostaining allowed the localization of connexins Cx40, Cx43, and Cx45 between myocytes and demonstrated co-expression and co-localization in individual cells and gap junction plaques, respectively. Immunoblots showed differential time-dependent changes in connexin expression and phosphorylation.

Mass production of embryoid bodies in microbeads.

Embryonic stem cells (ESC) are totipotent cells that can differentiate into a large number of different cell types. Stem cell-derived, differentiated cells are of increasing importance as a potential source for non-proliferating cells (e.g.

Recombinant Sindbis virus allows expression and precise targeting of proteins of the contractile apparatus in cultured cardiomyocytes.

Expression of epitope-tagged sarcomeric proteins in cardiomyocytes is a powerful approach for the characterization of interacting domains. Here, we report a new strategy for the study of the targeting of contractile proteins in cardiomyocytes by Sindbis virus (SIN)-mediated gene transfer. Two recombinant SIN were generated, one encoding the myosin-light chain MLC3f-eGFP fusion protein (SINrep5/MLC3f-eGFP), and the other encoding the alpha-actinin-DsRed fusion protein (SINrep5/alpha-actinin-DsRed).

Glucose and palmitic acid induce degeneration of myofibrils and modulate apoptosis in rat adult cardiomyocytes.

Several studies support the concept of a diabetic cardiomyopathy in the absence of discernible coronary artery disease, although its mechanism remains poorly understood. We investigated the role of glucose and palmitic acid on cardiomyocyte apoptosis and on the organization of the contractile apparatus. Exposure of adult rat cardiomyocytes for 18 h to palmitic acid (0.

Alterations at the intercalated disk associated with the absence of muscle LIM protein.

In this study, we investigated cardiomyocyte cytoarchitecture in a mouse model for dilated cardiomyopathy (DCM), the muscle LIM protein (MLP) knockout mouse and substantiated several observations in a second DCM model, the tropomodulin-overexpressing transgenic (TOT) mouse. Freshly isolated cardiomyocytes from both strains are characterized by a more irregular shape compared with wild-type cells. Alterations are observed at the intercalated disks, the specialized areas of mechanical coupling between cardiomyocytes, whereas the subcellular organization of contractile proteins in the sarcomeres of MLP knockout mice appears unchanged.

The armadillo repeat region targets ARVCF to cadherin-based cellular junctions.

The cytoplasmic domain of the transmembrane protein M-cadherin is involved in anchoring cytoskeletal elements to the plasma membrane at cell-cell contact sites. Several members of the armadillo repeat protein family mediate this linkage. We show here that ARVCF, a member of the p120 (ctn) subfamily, is a ligand for the cytoplasmic domain of M-cadherin, and characterize the regions involved in this interaction in detail.

Lack of nuclear apoptosis in cardiomyocytes and increased endothelin-1 levels in a rat heart model of myocardial stunning.

Objective: Reperfusion injury may affect the cardiac NO and endothelin production. We investigated whether 20 min of total ischemia followed by 40 min of reperfusion can induce apoptosis in a Langendorff model of retrogradely perfused rat hearts (37 degrees C; paced at 300/'), and we attempted to correlate these findings with measured tissue NO and ET-1 levels.

Methods: An apoptosis detection system was utilized which catalytically incorporates fluorescein-12-dUTP at the 3'-OH DNA ends using the principle of the TUNEL assay, with direct visualization of the labeled DNA.

Dynamics of early contact formation in cultured adult rat cardiomyocytes studied by N-cadherin fused to green fluorescent protein.

We investigated dynamic events during the formation of intercalated disc-like structures of adult rat cardiomyocytes (ARC) in long-term culture. Given the complexity of ARC cytoIarchitecture after de- and re-differentiation, and the non-uniform morphological development of individual cells, green fluorescent protein (GFP) technology was used to track N-cadherin in living cells. Sorting and functionality of the GFP fusion protein was tested in ARC.

Titanium dioxide ceramics control the differentiated phenotype of cardiac muscle cells in culture.

A new approach, the cultivation of heart muscle cells on biocompatible scaffolds made from titanium dioxide ceramics was established to provide a mechanism for in vitro engineering of a vital heart tissue. Terminally differentiated ventricular myocytes isolated from hearts of adult rats were kept in primary culture for long periods of time and used as an experimental model. The microenvironmental properties of titanium dioxide ceramics helped to maintain the tissue-like structural organisation of the cardiac cells in vitro.

Efficient gene delivery into adult cardiomyocytes by recombinant Sindbis virus.

Somatic gene therapy as a potential strategy for the treatment of myocardial diseases relies on an efficient gene transfer into cardiac muscle cells. The difficulty of delivering genes into adult cardiomyocytes exists not only in vivo but also in primary culture systems. Therefore, possibilities for ex vivo gene transfer and the in vitro study of physiological processes by reverse genetics are limited.

A novel autoregulated proliferation-controlled production process using recombinant CHO cells.

Controlled proliferation bioprocesses have shown great enhancement of heterologous protein production. This novel technology has been implemented here using a multicistronic expression unit encoding the product gene and a cytostatic cell-cycle-arresting gene (p27) under control of a single tetracycline-repressible (tet(off)) promoter. The strict genetic linkage of both genes allows the dissection of the production process into a nonproductive growth phase (dicistronic expression unit repressed) followed by a proliferation-inhibited production phase (dicistronic expression unit induced) when the cells have reached an optimal cell density.

In vitro reestablishment of cell-cell contacts in adult rat cardiomyocytes. Functional role of transmembrane components in the formation of new intercalated disk-like cell contacts.

Primary adult rat cardiomyocytes (ARC)in culture are shown to be a model system for cardiac cell hypertrophy in vitro. ARC undergo a process of morphological transformation and grow only by increase in cell size, however, without loss of the cardiac phenotype. The isolated cells spread and establish new cell-cell contacts, eventually forming a two-dimensional heart tissue-like synchronously beating cell sheet.

Flow cytometric detection of p53 protein after incubation of a pre-B cell line with antitumor agents.

Background: The study of new substances capable of counteracting tumor development has focused, in recent years, on several of the steps in a cell's initiation of the process of apoptosis. One of the crucial events is the activation of p53, leading to a cell cycle G1/S block or to programmed cell death.

Methods: We report here a parallel flow cytometric method for semiquantitative detection of p53 protein and apoptosis (percent of apoptotic cells) in a pre-B leukemic cell line (NALM-6) exposed to various antitumor agents (2.

Triiodothyronine restricts myofibrillar growth and enhances beating frequency in cultured adult rat cardiomyocytes.

Adult rat cardiomyocytes (ARC) isolated from ventricles follow a defined sequence of structural remodeling during culturing for 2-3 weeks. Rod-shaped cells round up, attach to the substratum, and start growing out in all directions until they form contacts with one another and resume rhythmic contractile activity. In general, myofibrils redevelop along the actin scaffold into the periphery.

Differential protein localization in sarcomeric and nonsarcomeric contractile structures of cultured cardiomyocytes.

The use of cardiomyocyte cell culture models allows the identification of various cell mediators that bring about changes in subcellular structures and gene expression associated with hypertrophy. The effects of insulin-like growth factor-I (IGF-I), basic fibroblast growth factor (bFGF), and triiodothyronine (T3) on gene expression and on the structural organization of myofibrillar and cytoskeletal proteins were compared in adult atrial (aARC) and ventricular (vARC) as well as in neonatal ventricular rat cardiomyocytes (vNRC) in long-term culture. Structural changes were evaluated by confocal microscopy and correlated to biochemical alterations.

A novel flow cytometric method for the quantification of p53 gene expression.

We describe a rapid and simple flow cytometry technique for the detection and quantification of p53 in several human cell lines, including an adenocarcinoma cell line (SW 626) having a mutant (m) p53, and a pre-B leukemia cell line (NALM-6) having wild-type (wt) p53. By introducing a second antibody coupled to RPE-fluorescence, the discrimination between control and specific peaks was improved over that achieved with methods used previously. To quantify the content of p53 molecules in the cells, we used a series of beads with the capability to bind mouse monoclonal IgG antibodies.

Investigation of protein patterns in mammalian cells and culture supernatants by matrix-assisted laser desorption/ionization mass spectrometry.

The direct protein profiling of mammalian cells and bacteria has a growing influence in biotechnology as a high information bearing method for characterization of cells and cell states. Monitoring of proteins excreted in culture media not only serves to produce data on product yield and quality but provides important information on cell viability and nutrient supply that forms the basis for future process and expression optimization. Fast and simple MALDI mass spectrometry approaches were developed to efficiently characterize such complex biological systems.

Signaling pathways in cardiac myocyte hypertrophy.

When a heart responds to increased workload it does so by hypertrophy. This is characterized by an increase in cell size in the absence of cell division, and is accompanied by distinct qualitative and quantitative changes in gene expression. The use of cardiomyocytes in cell culture has identified, besides mechanical loading, a range of substances, such as cytokines, growth factors, catecholamines, vasoactive peptides and hormones, involved in mediating cardiac myocyte hypertrophy, and has enabled the molecular dissection of the pathways involved in signal transduction.