Showing papers in "In Vitro Cellular & Developmental Biology – Animal in 2008"

An improved protocol for primary culture of cardiomyocyte from neonatal mice

Abstract: The primary culture of neonatal mice cardiomyocyte model enables researchers to study and understand the morphological, biochemical, and electrophysiological characteristics of the heart, besides being a valuable tool for pharmacological and toxicological studies. Because cardiomyocytes do not proliferate after birth, primary myocardial culture is recalcitrant. The present study describes an improved method for rapid isolation of cardiomyocytes from neonatal mice, as well as the maintenance and propagation of such cultures for the long term. Immunocytochemical and gene expression data also confirmed the presence of several cardiac markers in the beating cells during the long-term culture condition used in this protocol. The whole culture process can be effectively shortened by reducing the enzyme digestion period and the cardiomyocyte enrichment step.

Identification of cancer stem-like cells in the C6 glioma cell line and the limitation of current identification methods

Abstract: The cancer stem cell (CSC) hypothesis has provided insights into the initiation and recurrence of brain tumor. Specific identification and targeted elimination of these CSCs within the tumor mass represents a promising therapeutic strategy for refractory brain tumors. In this study, we attempted to identify CSCs in the rat C6 glioma cell line by three different identification methods. It is interesting to note that single-cell clonal analysis showed most C6 cells are cancer stem-like cells with characteristics of self-renewal, multilineage differentiation potentials in vitro, and tumorigenic capacity in vivo. It is surprising to note that CD133 failed to identify the total cancer stem-like cell population in the C6 line, since both CD133 (+) and CD133 (−) C6 cells have cancer stem-like cell fractions. Moreover, Hoechst 33342 staining, which is used in flow cytometry to isolate the side population (SP), was found to be harmful to C6 cells. Therefore, CD133 (−) and non-SP C6 cells may also harbor cancer stem-like cells. These results imply the limitation of using current identification methods in C6 line and underscore the importance of defining the genetic and molecular basis of CSCs.

Isolation and characterization of mesenchymal stem cells derived from bone marrow of patients with Parkinson’s disease

Abstract: Mesenchymal stem cells (MSCs) are capable of self-renewing and differentiating into multiple tissues; they are expected to become a source of cells for regenerative therapy. Compared to allogeneic MSCs, autologous MSCs from patients needing cell-based therapy may be an ideal alternative stem cell source. However, characterizations of MSCs from a disease state remains extremely limited. Therefore, we have isolated and characterized MSCs from Parkinson’s disease (PD) patients and compared them with MSCs derived from normal adult bone marrow. Our results show that PD-derived MSCs are similar to normal MSCs in phenotype, morphology, and multidifferentiation capacity. Moreover, PD-derived MSCs are capable of differentiating into neurons in a specific medium with up to 30% having the characteristics of dopamine cells. At last, PD-derived MSCs could inhibit T-lymphocyte proliferation induced by mitogens. These findings indicate that MSCs derived from PD patients’ bone marrow may be a promising cell type for cellular therapy and somatic gene therapy applications.

Adult rat bone marrow stromal cells differentiate into Schwann cell-like cells in vitro

Abstract: Bone marrow stromal cells (MSCs) have the capability of differentiating into mesenchymal and non-mesenchymal lineages. In this study, MSCs isolated from adult Sprague-Dawley rats were cultured to proliferation, followed by in vitro induction under specific conditions. The results demonstrated that MSCs were transdifferentiated into cells with the Schwann cell (SC) phenotypes according to their morphology and immunoreactivities to SC surface markers including S-100, glial fibrillary acidic protein (GFAP) and low-affinity nerve growth factor receptor (p75). Consequently, rat adult MSCs can be induced in vitro to differentiate into SC-like cells, thus developing an abundant and accessible SC reservoir to meet the requirements of constructing tissue engineered nerve grafts for peripheral nerve repair.

Multi-potentiality of a new immortalized epithelial stem cell line derived from human hair follicles

Abstract: We previously demonstrated that keratin 15 expressing cells present in the bulge region of hair follicles exhibit properties of adult stem cells. We have now established and characterized an immortalized adult epithelial stem cell line derived from cells isolated from the human hair follicle bulge region. Telogen hair follicles from human skin were microdissected to obtain an enriched population of keratin 15 positive skin stem cells. By expressing human papillomavirus 16 E6/E7 genes in these stem cells, we have been able to culture the cells for >30 passages and maintain a stable phenotype after 12 mo of continuous passage. The cell line was compared to primary stem cells for expression of stem cell specific proteins, for in vitro stem cell properties, and for their capacity to differentiate into different cell lineages. This new cell line, named Tel-E6E7 showed similar expression patterns to normal skin stem cells and maintained in vitro properties of stem cells. The cells can differentiate into epidermal, sebaceous gland, and hair follicle lineages. Intact β-catenin dependent signaling, which is known to control in vivo hair differentiation in rodents, is maintained in this cell line. The Tel-E6E7 cell line may provide the basis for valid, reproducible in vitro models for studies on stem cell lineage determination and differentiation.

Characterization of tight junction proteins in cultured human urothelial cells.

Abstract: Tight junctions (TJs) are essential for normal function of epithelia, restricting paracellular diffusion and contributing to the maintenance of cell surface polarity. Superficial cells of the urothelium develop TJs, the basis for the paracellular permeability barrier of the bladder against diffusion of urinary solutes. Focusing on the superficial cell layer of stratified cell cultures of an immortalized human ureteral cell line, TEU-2 cells, we have examined the presence of TJ and TJ-associated proteins. TEU-2 cells were treated with calcium chloride and fetal bovine serum culture conditions used to induce stratification that resembles the normal transitional epithelial phenotype. Cultures were examined for TJ and TJ-associated proteins by confocal immunofluorescence microscopy and evaluated for TJ mRNA by reverse transcriptase-polymerase chain reaction (RT-PCR). TEU-2 cultures exhibited immunoreactivity at intercellular margins for claudins 1, 4, 5, 7, 14, and 16 whereas claudins 2, 8, and 12 were intracellular. RT-PCR corroborated the presence of these claudins at the mRNA level. The TJ-associated proteins occludin, JAM-1, and zonula occludens (ZO-1, ZO-2, and ZO-3) were localized at cell margins. We have found that numerous TJs and TJ-associated proteins are expressed in stratified TEU-2 cultures. Further, we propose TEU-2s provide a useful ureteral model for future studies on the involvement of TJs proteins in the normal and pathological physiology of the human urinary system.

Establishment and conditions for growth and differentiation of a myoblast cell line derived from the semimembranosus muscle of newborn piglets

Abstract: To establish an adequate model to study the proliferation and differentiation of porcine skeletal muscle in response to bioactive compounds, a pool of satellite cells was derived from the semimembranosus muscle (SM) of newborn piglets using a Percoll gradient centrifugation. The final yield amounted to 4.1 × 106 cells/g muscle tissue. The percentage of muscle satellite cells has been determined by immunostaining for desmin and subsequent fluorescence analysis by flow cytometry, which revealed 95% of desmin-positive cells. For proliferation studies, satellite cell born myoblasts were seeded in gelatin-coated 96-well microplates at about 5 × 103 cells per well. Cells were grown for 1 day in MEMα plus 10% fetal bovine serum (FBS) and 10% horse serum (HS), followed by 2 d cultivation in serum-free growth medium. For differentiation studies, myoblasts were cultured in matrigel-coated 24-well plates for 4 d with growth medium containing 10% FBS and 10% HS. At 80% confluence, cells were grown for 24 h in medium plus 10% FBS and 1 μM insulin to initiate differentiation. Subsequently, the cells were cultured in serum-free differentiation medium (SFDM) for 3 d to form myotubes. Cultures reached a maximum fusion rate of approximately 20% after 96 h. By establishing this culture system, we provide an advanced and appropriate in vitro model to study porcine skeletal muscle cell growth and differentiation including the responses to various bioactive compounds.

Neoplastic transformation and induction of H+,K+-adenosine triphosphatase by N-methyl-N′-nitro-N-nitrosoguanidine in the gastric epithelial RGM-1 cell line

Abstract: N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) induces gastric cancer in animal models. We established an MNNG-induced mutant of the rat murine RGM-1 gastric epithelial cell line, which we named RGK-1, that could be used as an in vitro model of gastric cancer. This cell line showed signs of neoplasia and transformation, in that it lost contact inhibition and formed tumors in nude mice. The mutant cells also expressed parietal cell-specific H+,K+-adenosine triphosphatase (H+,K+-ATPase), which parent RGM-1 did not. The results suggested that parent RGM-1 cells were gastric progenitor cells. This mutant RGK-1 cell line will contribute to future investigation on gastric carcinogenesis and to the development of other pathophysiologic fields.

Bioactive recombinant human lactoferrin, derived from rice, stimulates mammalian cell growth.

Abstract: Today there is a concern about the use of animal source proteins and peptides in cell culture applications due to potential contamination by adventitious infectious pathogens. Recombinant production of these proteins using a plant host provides a safe and cost effective alternative. In this paper, we tested the effect of rice-derived recombinant human lactoferrin (rhLF) on mammalian cell growth. The purified rhLF was partially (about 50%) iron-saturated (pis-rhLF). Chemical modification of pis-rhLF generated apo-rhLF ( 90% iron saturation). All three forms of rhLF (pis, apo, holo) promoted growth of intestinal cells (HT-29) measured as [3H]-thymidine incorporation or viable cell count, but holo-rhLF was most effective. Holo-rhLF was further tested on hybridoma, osteoblast, and human embryonic kidney cells. Results showed that holo-rhLF promoted cell growth and reduced cell doubling time. The concentration of holo-rhLF in media was critical in promoting cell growth and each cell line had different concentration dependence with the most effective range from 5 to 200 mg/L. The effect of rhLF on antibody production was determined using a hybridoma cell line. Significantly, more antibodies were produced by cells grown with holo-rhLF than cells grown without holo-rhLF. We also compared the effect of holo-rhLF to that of human transferrin, a component commonly used in cell culture media as an iron source. Holo-rhLF was as effective as human transferrin in promoting cell growth and antibody production. Considering all the data obtained, we conclude that rhLF from rice is effective in promoting mammalian cell growth and increasing cell productivity.

Development of DNA aptamers for cytochemical detection of acetylcholine

Abstract: This report describes a novel approach to the detection of acetylcholine using DNA aptamers. Aptamers were developed by eight rounds of acetylcholine affinity column chromatography and polymerase chain reaction (PCR) amplification. Sequences from rounds 5 and 8 were screened by colorimetric enzyme-based microtiter plate assays and found to bind acetylcholine and related compounds, but not unrelated compounds. One of the highest affinity aptamers, designated ACh 6R, was further tested in aptamer-peroxidase and aptamer-fluorescence staining protocols. Using Neuro-2a murine neuroblastoma cells induced to differentiate in the presence of 1 μM all-trans-retinoic acid for 5–7 d, ACh 6R detected cholinergic cells by both the peroxidase and fluorescence methods. Unrelated DNA aptamers did not stain the cells using either method. Fixation with cold 2% paraformaldehyde was compared to cold alkaline allyl alcohol plus glutaraldehyde for immobilization of acetylcholine in situ and appeared to enable detection of greater numbers of cholinergic cells, although differences in levels of differentiation may have been a factor as well. Acetylcholine generally appeared to be distributed throughout the differentiated Neuro-2a cell bodies. However, in some cells, punctate staining along neurite outgrowths and near the termini of cellular processes suggested detection of acetylcholine in discrete vesicles.

Role of histone methylation in zygotic genome activation in the preimplantation mouse embryo

Abstract: Numerous previous studies demonstrated that gene expression was influenced by histone modifications. However, little information is available about the relation of histone methylation with embryonic gene expression. Here, we examine the significance of histone H3 dimethyl-lysine 4 (H3K4me2) during mouse zygotic genome activation (ZGA) by inhibiting demethylation with the specific histone H3 lysine 4 demethylase inhibitor bisguanidine 1c (1c). A 1c treatment of one-cell embryos did not significantly affect the level of eIF-4C transcripts but did affect Oct4 levels by the two-cell stage. Furthermore, 1c treatment significantly inhibited cleavage of the embryos to the four-cell stage (from 82.7% to 18.2%), and the inhibitory effect was identified to be irreversible. These results suggest that histone methylation may be closely correlated with the formation of a transcriptionally repressive state during ZGA and that the repressive state actually dictates the appropriate pattern of gene expression required for further development.

Attempts at immortalization of crustacean primary cell cultures using human cancer genes.

Abstract: Primary cell cultures from crustacea have been initiated since the 1960s, yet no permanent cell line is available. Primary cells have a limited proliferative capacity in culture due to cellular senescence, which is regulated by a group of dominant senescence genes. The aim of this research was to manipulate cell cycle regulation by transfecting Cherax quadricarinatus primary cells with oncogenes, in an effort to induce a permanent cell line. Human papillomaviruses (HPV) play a critical role in the formation of anogenital cancer. Research has demonstrated that the HPV-expressed E6 and E7 proteins function concomitantly to disrupt the p53 and retinoblastoma (Rb) tumor suppressor genes, regulators of the cell-cycle checkpoints at the first gap (G1) phase. HPV E6 and E7 genes were transfected into the C. quadricarinatus cells by lipofection. Successful transfection was demonstrated by the presence of oncogene messenger RNA by reverse transciptase polymerase chain reaction. At day 150, transfected cells still remain viable, although cell proliferation was stagnant. It may be that while transfection of the oncogenes was successful, no proliferation of the C. quadricarinatus cells was evident due to a lack of telomere maintenance.

Cytological properties of an Aedes albopictus mosquito cell line infected with Wolbachia strain wAlbB

Abstract: In vitro production of the obligate intracellular bacterium, Wolbachia pipientis, is essential to its manipulation as a genetic tool to spread transgenes within vector populations. We have adapted the Wolbachia-infected Aa23 Aedes albopictus mosquito cell line to Eagle’s minimal medium, supplemented with nonessential amino acids, glutamine, and 20% fetal bovine serum. When plated at low densities, Aa23E cells grew as patchy monolayers, comprised of non-contiguous clusters of cells that gave rise to solid clumps of tightly adherent cells. Multicellular clumps eventually detached from the substrate and floated freely in the medium. Removal of Wolbachia by treatment with tetracycline did not alter the cytological properties of the host cells, which had a population doubling time of 4–5 d. The presence of Wolbachia was monitored by Giemsa staining of cytological preparations, polymerase chain reaction (PCR) amplification of Wolbachia 16S ribosomal DNA, and by simultaneous PCR amplification of ribosomal protein genes from Wolbachia and mosquito host cell genomes. Wolbachia morphology was pleomorphic, and Wolbachia DNA persisted in the culture medium for several weeks after degradation of PCR-amplifiable host cell DNA.

A novel immortalization vector for the establishment of penaeid shrimp cell lines

Abstract: Cell immortalization technology based on gene transfer has been successfully used to generate cell lines from a wide variety of cell types. The inability to stably introduce and express foreign genes has hampered application of this strategy in shrimp cells. We report here the use of replication-defective pantropic retrovirus to achieve a novel immortalization vector in which simian virus 40 large T antigen (SV40T) gene is expressed from Moloney murine leukemia virus (MoMLV) promoter. Data confirmed the presence of transferred SV40T gene and its stable mRNA expression in transduced lymphoid cells of Penaeus chinensis. The transduced cells showed a higher growth rate and a longer replication life-span compared with their untransduced counterparts. These results indicate the pantropic retrovirus-based immortalization-inducing gene delivery system is a potential tool for establishing cell lines from shrimp.

Cold storage of biopsies from wild endangered native Chilean species in field conditions and subsequent isolation of primary culture cell lines

Abstract: We evaluated the possibility of deriving primary cell cultures from tissue biopsies taken in field conditions from six threaten endemic Chilean species of free-ranging mammals. Biopsies were taken either by ear punching or darts fired to animals and hold in hypothermic conditions (4° C) in defined salt solution for time periods ranging from 0 to 7 d before biopsy samples reached the cell culture laboratory. Previously, holding times were evaluated in experimental cows in controlled conditions. Two enzymatic treatments, collagenase alone or collagenase followed by tripsin, were used to disaggregate tissues for cell culture. We found that ear notches and dart-derived biopsies can be storaged at 4° C for 1 wk and still yield primary cultures. For dart-derived biopsies, there was an invert correlation between length of cold storage and cellular viability in culture. Healthy fibroblast cell lines were obtained in 92% of the biopsies taken despite the origin (punch or biopsy). We are not aware of similar study for free-ranging animals, especially for the use of darting system to biopsy wild terrestrial mammals, we believe that our results could help for a more widespread implementation of these procedures in the practice of ex situ conservation

Electrophysiological and immunocytochemical characterization of DRG neurons on an organosilane surface in serum-free medium

Abstract: We are attempting to recreate a stretch reflex circuit on a patterned Bio-MEMS (bio-microelectromechanical systems) chip with deflecting micro-cantilevers. The first steps to recreate this system is to be able to grow individual components of the circuit (sensory neuron, motoneuron, skeletal muscle, and muscle spindle) on a patternable, synthetic substrate coating the MEMS device. Sensory neurons represent the afferent portion of the stretch reflex arc and also play a significant role in transmitting the signal from the muscle spindle to the spinal cord motoneurons. We have utilized a synthetic silane substrate N-1[3-(trimethoxysilyl) propyl) diethylenetriamine (DETA) on which to grow and pattern the cells. DETA forms a self-assembled monolayer on a variety of silicon substrates, including glass, and can be patterned using photolithography. In this paper, we have evaluated the growth of sensory neurons on this synthetic silane substrate. We have investigated the immunocytochemical and electrophysiological properties of the sensory neurons on DETA and compared the resultant properties with a biological control substrate (ornithine/laminin). Immunocytochemical studies revealed the survival and growth of all three subtypes of sensory neurons: trkA, trkB, and trkC on both surfaces. Furthermore, whole-cell patch clamp recordings were used to study the electrophysiological properties of the sensory neurons on the two surfaces. There were no significant differences in the electrical properties of the neurons grown on either surface. This is the first study analyzing the immunocytochemical and electrophysiological properties of sensory neurons grown long-term in a completely defined environment and on a nonbiological substrate.

Mutational analysis of thyroid transcription factor-1 gene (TTF-1) in lung carcinomas

Abstract: We studied the expression and mutation of thyroid transcription factor-1 (TTF-1) gene in 92 cases of lung carcinomas comprised of lung adenocarcinoma (36 cases), squamous cell lung carcinoma (42 cases), small cell lung carcinoma (8 cases), and large cell lung carcinoma (6 cases) to investigate whether TTF-1 gene mutation predisposed to the development of lung cancer. Normal lung tissues were obtained from each of the 92 patients. The tissues served as controls. Polymerase chain reaction–single-strand conformation polymorphism, denaturing high-performance liquid chromatography, and DNA sequencing were used to analyze TTF-1 gene mutation and its relationship with the carcinogenesis of lung cancer. We detected the expression of TTF-1 protein and messenger RNA (mRNA) in paraffin-embedded lung carcinomas and their normal lung tissues by tissue microarray. TTF-1 protein and mRNA intensities were measured by Leica-Q500 MC Image Analysis System to reveal their correlation with TTF-1 mutation in lung carcinomas. TTF-1 gene missense and synonymous mutation are present in lung carcinomas with the mutation rate of 16%. TTF-1 protein and mRNA are higher in normal lung tissues than in different lung carcinomas. TTF-1 gene mutation is correlated with the loss of TTF-1 protein and mRNA. The analyses of TTF-1 gene missense mutation and synonymous mutation and the loss of TTF-1 protein and mRNA can be regarded as the important indexes of molecular pathology of lung carcinoma.

Effect of 17β-estradiol on the in vitro differentiation of murine embryonic stem cells into the osteogenic lineage

Abstract: Embryonic stem (ES) cells have the potential to differentiate into various cell types of the three germ layers. They are therefore a useful cell source for transplantation and tissue engineering. In the present paper, we studied the influences of ascorbic acid (AA), dexamethasone (Dex), and 17β-estradiol (E2) on the osteogenic differentiation of ES cells. Differentiation into the osteoblastic phenotype was demonstrated by the appearance of osteoblastic markers such as alkaline phosphatase (ALP), the transcription factor core binding factor alpha 1 (Cbfa1), and osteocalcin, which were detected by immunohistochemistry. Bone nodule formation, including the deposition of collagen fibrils and matrix mineralization, was studied by transmission electron micros- copy. In all our cultures, a progressive upregulation of ALP activity was observed, followed by a decline after 21 d of culture. Cbfa1 was first detected after 14 d in culture and increased during the culture time. The addition of E2 resulted in a decrease in the formation of bone-like nodules in the embryoid bodies (EBs) compared with the EBs cultured in the presence of AA and AA supplemented with Dex. An increased osteocalcin concentration was observed in the EBs cultured with Dex and E2 compared with the EBs cultured in a control medium. EBs cultured in the presence of E2 resulted in a culture with a high amount of osteoblast- like cells not entrapped in bone-like nodules, creating the possibility to obtain a purified osteoblast population for bone tissue engineering.

The frequency, growth kinetics, and osteogenic/adipogenic differentiation properties of canine bone marrow stromal cells.

Abstract: Bone marrow stromal cells (BMSCs) have gained considerable attention as a potential source for cell transplantation therapies for a variety of diseases due to their accessibility, proliferative capacity, and multilineage differentiation properties. Canine BMSCs have been shown to contribute to regeneration of osseous tissues, but knowledge about their biology is currently limited. In the present study, we investigated the frequency of adult canine BMSCs in bone marrow, morphological features, growth kinetics, and osteogenic as well as adipogenic differentiation properties in vitro. Our data suggest that adult canine bone marrow contains approximately one BMSC in every 2.38 x 10(4) bone marrow mononucleated cells (0.0042 +/- 0.0019%, n = 5). Primary BMSC cultures consisted of morphologically heterogeneous adherent cell populations from which spindle-shaped cells grew and became the predominant cell type. Growth kinetics patterns were dependent on the initial cell seeding densities, resulting in the highest fold increase at lower cell density. In the presence of osteogenic and adipogenic inducers, primary BMSCs underwent morphological and phenotypic changes characteristic of osteogenic and adipogenic differentiation, respectively. This study provides insights into basic characterization of adult canine BMSCs.

Isolation and culture of primary equine tracheal epithelial cells

Abstract: Culture of airway epithelial cells is a useful model to investigate physiology of airway epithelia and airway disease mechanisms. In vitro models of airway epithelial cells are established for various species. However, earlier published method for isolation and culture of equine tracheal epithelial cells requires significant improvements. In this report, the development of a procedure for efficient isolation, characterization, culture, and passage of primary equine tracheal epithelial cells are described. Epithelial cells were isolated from adult equine trachea by exposing and stripping the mucosal epithelium from the adjacent connective tissue and smooth muscle. The tissue was minced and dissociated enzymatically using 0.25% trypsin-ethylenediaminetetraacetic acid (EDTA) solution for 2 h at 37° C. Cells were collected by sieving and centrifugation, and contaminating fibroblasts were removed by differential adhesion. This procedure resulted in a typical yield of 1 × 107 cytokeratin-positive epithelial cells per gram tracheal lining tissue. Viability was 95% by trypan blue exclusion and isolates contained approximately 94% cytokeratin-positive cells of epithelial origin. Cells seeded at a density of 6.9 × 104 cells/cm2 in serum-free airway epithelial cell growth medium formed monolayers near confluency within a week. Confluent cells were dissociated using dispase II and first passages (P1) and second passages (P2) were successfully established in serum-free medium. Collagen coating of tissue culture flask was not required for cell adhesion, and cultures could be maintained at the level of P2 over 30 d. In the present study, we could establish a high-yield protocol for isolation and culture of equine tracheal epithelial cells that can serve for in vitro/ex vivo studies on the (patho-)physiology of equine airway disease as well as pharmacological and toxicological targets relevant to airway diseases.

Establishment and characteristics of Gottingen minipig skin in organ culture and monolayer cell culture: relevance to drug safety testing

Abstract: Skin from Gottingen minipigs was used as a source of tissue for organ and cell culture and compared to human skin for growth conditions and sensitivity to irritants. Optimal organ culture conditions were determined, based on the preservation of the histological structure. These included serum-free, growth factor-free conditions with a calcium concentration of 1.5mM. Formulations in which the calcium concentration were low (0.075–0.15mM) failed to support tissue viability (even in the presence of dialyzed serum). Epidermal keratinocytes were grown from tissue explants and as single cells from enzyme-disrupted tissue. Optimal keratinocyte growth was achieved using a serum-free, growth factor-supplemented culture medium with a calcium concentration of 0.15mM. Fibroblasts were optimally grown from explant cultures using a medium with 1.5mM calcium and 10% fetal bovine serum. The conditions that were optimal for maintenance of intact pig skin, as well as for the isolated cells, are the same conditions that have been shown previously to be optimal for intact human skin and skin cells. In additional studies, pig skin keratinocytes and fibroblasts were exposed to a panel of contact irritants and contact sensitizers. Using growth inhibition as the response, the median effective dose values with each agent were very similar to the values previously determined for human epidermal keratinocytes and human dermal fibroblasts. Taken together, these data suggest that the skin from the Gottingen minipig can be used as a surrogate for human skin in ex vivo skin safety studies.

Cell cultures from the symbiotic soft coral Sinularia flexibilis

Abstract: The symbiotic octocoral Sinularia flexibilis is a producer of potential pharmaceuticals. Sustainable mass production of these corals as a source of such compounds demands innovative approaches, including coral cell culture. We studied various cell dissociation methodologies and the feasibility of cultivation of S. flexibilis cells on different media and cell dissociation methodologies. Mechanical dissociation of coral tissue always yielded the highest number of cells and allowed subsequent cellular growth in all treatments. The best results from chemical dissociation reagents were found with trypsin-ethylene diamine tetraacetic acid. Coral cells obtained from spontaneous dissociation did not grow. Light intensity was found to be important for coral cell culture showing an enduring symbiosis between the cultured cells and their intracellular algae. The Grace’s insect medium and Grace’s modified insect medium were found to be superior substrates. To confirm the similarity of the cultured cells and those in the coral tissue, a molecular test with Internal Transcribed Spacer primers was performed. Thereby, the presence of similar cells of both the coral cells and zooxanthella in different culture media was confirmed.

Correction of glycogenosis type 2 by muscle-specific lentiviral vector.

Abstract: Glycogen storage disease type II (GSDII) or Pompe disease is an inherited disease of glycogen metabolism caused by a lack of functional lysosomal acid alpha-glucosidase (GAA). Affected individuals store glycogen in lysosomes resulting in fatal hypertrophic cardiomyopathy and respiratory failure in the most severe form. We investigated for the first time the use of lentiviral vectors to correct the GSDII phenotype in human and murine GAA-deficient cells. Fibroblasts from infantile and adult GSDII patients were efficiently transduced by a GAA-expressing lentiviral vector placed under the control of the strong MND promoter, leading to a complete restoration of enzymatic activity. We also developed a muscle-specific lentiviral vector based on the synthetic C5-12 promoter and tested it on deficient myogenic satellite cells derived from a GSDII mouse model. GAA was expressed as a correctly processed protein allowing a complete enzymatic and metabolic correction in myoblasts and differentiated myotubes, as well as a significant mannose-6-phosphate (M6P)-dependent secretion reuptake by naive cells. Transduced cells showed lysosomal glycogen clearance, as demonstrated by electron microscopy. These results form the basis for a therapeutic approach of GSDII using lentiviral vector-mediated gene transfer into muscle stem cells.

Cortisol stimulates calcium transport across cultured gill epithelia from freshwater rainbow trout

Abstract: The effect of cortisol on calcium (Ca2+) transport across cultured rainbow trout gill epithelia composed of both pavement cells (PVCs) and mitochondria-rich cells (MRCs) was examined. Under symmetrical culture conditions (L15 media apical/L15 media basolateral), cortisol had subtle effects on gill epithelial preparations. Both control and cortisol treated epithelia exhibited Ca2+ influx and efflux rates (measured radioisotopically using 45Ca) that were approximately balanced, with a slight inwardly directed net Ca2+ flux. Ussing flux ratio analysis indicated active Ca2+ transport in the inward direction across epithelia bathed symmetrically regardless of hormone treatment. In contrast, under asymmetrical conditions (freshwater apical/L15 media basolateral) control epithelia exhibited active Ca2+ transport in the outward direction (basolateral to apical) throughout experiments conducted over a 24-h period, whereas cortisol-treated preparations exhibited active transport in the inward direction (apical to basolateral) during the early stages of an asymmetrical culture period (e.g., T0–6 h) and passive transport during the later stages (e.g., T18–24 h). When soft freshwater (with tenfold lower [Ca2+]) was used for asymmetrical culture instead of freshwater, control epithelia developed outwardly directed active Ca2+ transport properties, whereas cortisol-treated preparations did not. The results of this study support a hypercalcemic role for cortisol in rainbow trout and demonstrate that treating cultured gill epithelia composed of both PVCs and MRCs with cortisol can stimulate active Ca2+ uptake under circumstances that more closely resemble natural conditions for fish gills (i.e., freshwater bathing the apical side of the epithelium).

Comparison of enzymically glucuronidated flavonoids with flavonoid aglycones in an in vitro cellular model of oxidative stress protection

Abstract: This study modeled, in vitro, the potential effect of conjugative (phase II) metabolism on the cytoprotective capacity of fruit flavonoids against oxidative stress. Flavonoid aglycones were compared with their corresponding isomeric mixtures of glucuronides for their ability to enhance the survival of cultured human Jurkat T and neuroblastoma cells stressed with hydrogen peroxide. Various polyphenolic compounds were tested as substrates in vitro for an ovine liver glucuronyl transferase preparation. Flavonoids and their glycoside derivatives were found to be good substrates, whereas phenolic acids were either poor or nonsubstrates. Five common flavonoids were glucuronidated to prepare mixtures for bioassay testing. Glucuronidation generally weakened the cytoprotective capacities of flavonoids (in the presence of H2O2), but some compounds were weakened much more than others. The concentration that halved cell death was well below 0.5 μM for most flavonoids tested, but glucuronidation increased median effective concentration values to a range of 1–16 μM. This compares with the generally accepted physiological range (0.1–10 μM) for circulating dietary polyphenolics detected in the body. Therefore, some flavonoids may retain a reduced cytoprotective capacity in vitro, after glucuronidation, whereas others may be effectively inactivated.

Effect of thyroid hormone on the contractility of self-organized heart muscle

Abstract: Tissue-engineered heart muscle may provide an alternative treatment modality for end-stage congestive heart failure. We have previously described a method to engineer contractile heart muscle in vitro (termed cardioids). This study describes a method to improve the contractile properties of cardioids utilizing thyroid hormone (T3) stimulation. Cardioids were engineered by promoting the self-organization of primary neonatal cardiac cells into a contractile tissue construct. Cardioids were maintained in standard cell culture media supplemented with varying concentrations of T3 in the range 1–5ng/ml. The contractile properties of the cardioids were evaluated 48h after formation. Stimulation with T3 resulted in an increase in the specific force of cardioids from an average value of 0.52 ± 0.16kPa (N = 6) for control cardioids to 2.42 ± 0.29kPa (N = 6) for cardioids stimulated with 3ng/ml T3. In addition, there was also an increase in the rate of contraction and relaxation in response to T3 stimulation. Cardioids that were stimulation with T3 exhibited improved pacing characteristics in response to electrical pacing at 1–5Hz and an increase in the degree of spontaneous contractility. Changes in the gene expression of SERCA2, phospholamban, α-myosin heavy chain, and β-myosin heavy chain correlated with the changes in contractile properties. This study demonstrates the modulation of the contractile properties of tissue-engineered heart muscle using T3 stimulation.

Nestin-positive spheres derived from canine bone marrow stromal cells generate cells with early neuronal and glial phenotypic characteristics.

Abstract: Bone marrow stromal cells (BMSCs) isolated from humans and rodents have been shown to generate neural cells under specific culture conditions and after transplantation in the central nervous system. The apparent plasticity of BMSCs has therefore been a target of intensive research in attempt to develop a novel therapy for neurological diseases. Canines sustain neurological disorders (e.g., traumatic spinal cord injury) that closely mirror pathology of those in humans. Therefore, we evaluated neural differentiation properties of canine BMSCs to provide insights into basic characterization of these cells for future neurotransplantation trials in canine patients with neurological disorders. We demonstrate that canine BMSCs form spherical cellular aggregates on anti-adhesive culture substrate in serum-free culture media, which morphologically and phenotypically resemble spherical aggregates of neural progenitor cells, so-called neurospheres. Upon dissociation and subculture on adhesive substrate, canine BMSCs express neuronal (ss capital SHA, Cyrillic-tubulin) and glial (GFAP, A2B5, and CNPase) markers. Formation of spherical aggregates appears to be a critical preceding process for some of the glial marker expression (CNPase and A2B5). However, expression of more mature neuronal (MAP2) and glial (MBP) markers could not be induced with the protocol used in this study. We suggest that induction of canine BMSCs into cells with neural progenitor cell characteristics is possible and that these cells may have the potential for future cellular therapy for neurological disorders.

Cell-free expression and functionality analysis of the tobacco lectin

Abstract: The Nicotiana tabacum lectin, called Nictaba, is a nucleocytoplasmic plant lectin expressed in tobacco leaves after exogenous application of specific jasmonates and upon insect herbivory. Since the lectin concentrations are rather low, huge amounts of plant material are needed to purify milligram quantities of the protein. In addition, the purified lectin fractions are always contaminated with low molecular weight compounds such as phenols. In an attempt to improve and facilitate the purification of the tobacco lectin in reasonable amounts, an in vitro-coupled transcription/translation system based on an Escherichia coli lysate was used to express the lectin gene. Recombinant expression levels could be enhanced by an adapted codon usage. Recombinant lectin was purified, biochemically characterized and found to be biologically active. The biological activity of the recombinant lectin towards insect epithelial midgut cells was clearly demonstrated in a functional bio-assay and the internal cellular localization was analyzed using immunocytochemical techniques.

Changes of the metabolism of the colon cancer cell line SW-480 under serum-free and serum-reduced growth conditions

Abstract: Serum of animal origin, like foetal calf serum (FCS), is used as a standard supplement for media to cultivate mammalian cells, mostly due to its growth-supporting properties. Unfortunately, animal serum has many disadvantages like the risk of contamination, high costs, fluctuations within the composition of different batches and the high amount of foetuses, which have to be harvested. To avoid all this, it is necessary to provide alternatives, which combine as many positive properties of the animal serum as possible but do not influence the cellular metabolism negatively. Today, several serum-free complete media as well as serum substitutes are commercially available. In the present study, a serum substitute, a serum-reduced medium and a serum-free medium were evaluated concerning their influence on the metabolism on the colon cancer cell line SW-480. The evaluation of morphological changes of the cells was done by microscopic analysis whereas differences in the volatile metabolome were analysed by solid phase micro extraction (SPME) followed by gas chromatography/mass spectrometry (GC/MS).

Methyl-donor nutrients inhibit breast cancer cell growth

Abstract: Lipotropes (methyl group containing nutrients, including methionine, choline, folate, and vitamin B12) are dietary methyl donors and cofactors that are involved in one-carbon metabolism, which is important for genomic DNA methylation reactions and nucleic acid synthesis. One-carbon metabolism provides methyl groups for all biological methylation pathways and is highly dependent on dietary supplementation of methyl nutrients. Nutrition is an important determinant of breast cancer risk and tumor behavior, and dietary intervention may be an effective approach to prevent breast cancer. Apoptosis is important for the regulation of homeostasis and tumorigenesis. The anti-apoptotic protein Bcl-2 may be a regulatory target in cancer therapy; controlling or modulating its expression may be a therapeutic strategy against breast cancer. In this study, the effects of lipotrope supplementation on the growth and death of human breast cancer cell lines T47D and MCF-7 were examined and found to inhibit growth of both T47D and MCF-7 cells. Furthermore, the ratios of apoptotic cells to the total number of cells were approximately 44% and 34% higher in the lipotrope-supplemented treatments of T47D and MCF-7 cancer cells, respectively, compared with the control treatments. More importantly, Bcl-2 protein expression was decreased by approximately 25% from lipotrope supplementation in T47D cells, suggesting that lipotropes can induce breast cancer cell death by direct downregulation of Bcl-2 protein expression. Cancer treatment failure is often correlated with Bcl-2 protein upregulation. These data may be useful in the development of effective nutritional strategies to prevent and reduce breast cancer in humans.