Uptake of (3H)catecholamines by chick embryo sympathetic ganglia in tissue culture

Abstract— Chick embryo sympathetic chains were grown in tissue culture and pulse labelled with tritiated catecholamines. The uptake was restricted to sympathetic nerve cells. The capability of these cells to take up radioactive dopamine and norepinephrine from the culture media was retained after one month in tissue culture. The uptakes of both [³H]norepinephrine and [³H]dopamine were inhibited when nonradioactive DOPA, dopamine, norepinephrine or epinephrine were present in the pulse media.     

Tissue plasminogen activator (t-PA) production by a high density culture of weakly adherent human embryonic kidney cells using a polyurethane-foam packed-bed culture system

Weakly adherent cells of the 293 line attached well to the internal surface of polyurethane foam (PUF) and grew to the high density of 6.83 × 10⁷ cells/cm³ PUF in stationary culture. The maximum productivity of tissue plasminogen activator (t-PA) was 0.158 IU/10⁶ cells per day. The productivity decreased at the stationary phase of cell growth, so we designed a PUF-plate packed-bed culture system for high density culture and continuous production of t-PA. A maximal cell density of 3.24 × 10⁷ cells/cm³ PUF and a t-PA productivity of 0.326 IU/10⁶cells per day were obtained in 25-day perfusion cultures. Although the cell density decreased to half that in PUF stationary culture, the t-PA productivity increased twofold and was maintained for 25 culture days.     

Histidase function in human epidermal cells

The activity of histidase was studied in (1) epidermal tissue scraped from human infant foreskin, (2) fibroblast-like cells in monolayer serial culture from human foreskin, and (3) epithelial-like (epidermal) outgrowth from foreskin primary explants. Foreskin epidermal tissue without in vitro culture and epidermal outgrowth in primary culture from explants of foreskin showed equivalent mean levels of histidase activity, 5.22 × 10^?3 and 5.01 × 10^?3 μMoles urocanic acid produced per milligram protein per minute. Under the same assay conditions, there was no measurable histidase activity in cultured fibroblast-like cells from foreskin at various times after subculture. The K_m for enzyme from human foreskin epidermal tissue ranged between 2 and 5 × 10^?3 M histidine. Ability to demonstrate the presence or absence of this tissue-specific enzyme function in cultured cells suggests a useful means for studying differentiation, as well as a more precise way to identify epidermal origin of cultured cell types than morphological characteristics alone would permit.     

In situ positron emission tomography monitoring of endothelial cells embedded in perfused fibrin gels

In tissue engineering, the continuous monitoring of cell and tissue cultures in vitro is crucial to assess their functional status over time. However, these constructs can be large, thick and non-transparent. Medical imaging techniques can allow real-time in situ monitoring of cell and tissue cultures in thick solid scaffolds. Here, human endothelial cells were embedded in fibrin gels that were continuously perfused by a culture medium. Positron emission tomography (PET) imaging was used to assess cell viability non-destructively over periods extending up to a few weeks. PET imaging protocols were adapted and validated to measure culture perfusion and cell metabolism using [¹⁸F]-fluorodeoxyglucose (¹⁸FDG). Cell densities down to 100,000 cells/mL were detectable after 12 h of culture and cell structures were localized within the fibrin gels after 1–2 weeks of culture. PET is a promising tool to investigate a wide range of cellular properties and reveal information on tissue development.     

Cell culture and in vitro studies of fresh and cryopreserved human insulinoma

Summary Dispersed cells from both fresh and cryopreserved human insulinoma have been maintained in cell culture. Initial yield of viable cells was 50% for fresh and 25% for cryopreserved tissue. Viability of cells in culture was documented by increasing numbers of cells (doubling time approximately 5 d initially and 2 d at the sixth subculture for both fresh and cryopreserved tissue) and continued release of insulin over time (approximately 100 ng/ml per 10⁵ cells at 10 d and 175 ng/ml per 10⁵ cells at 30 d of culture for both fresh and cryopreserved tissue). Evidence that cells growing in culture were beta cells was provided by: (a) recovery of intracellular and extracellular immunoreactive insulin (IRI), (b) electron microscopic morphology, and (c) immunohistochemical staining. Cells from fresh insulinoma incubated with increasing concentrations of extracellular glucose released increasing amounts of IRI up to approximately 15 mM glucose, which paralleled changes in plasma insulin obtained during a preoperative glucose tolerance test. Under an Intergovernmental Personnel Act Exchange from the Department of Surgery, University of California, Davis, Sacramento Medical Center.     

Somatic embryogenesis of <Emphasis Type="Italic">Gentiana cruciata</Emphasis> (L.): Histological and ultrastructural changes in seedling hypocotyl explant

Summary Structure and ultrastructure changes that occurred during tissue culture of upper explants of hypocotyl (adjacent to cotyledons) of 10-d-old seedlings of Gentiana cruciata were studied. The explants were cultured on Murashige and Skoog induction medium supplemented with 1.0 mg l⁻¹ dicamba +0.1 mg l⁻¹ naphthaleneacetic acid +2.0 mg l⁻¹ benzyladenine +80.0 mg l⁻¹ adenine sulfate. The initial response of the explant and callus formation were ultrastructurally analyzed during the first 11 d of culture. After 6–8 wk, various methods were employed to collect evidence of indirect somatic embryogenesis. After 48 h of culture, the earliest cell response was cell division of epidermis and primary cortex. There were numerous disturbances of karyo- and cytokinesis, leading to formation of multinuclear cells. With time, the divisions ceased, and cortex cells underwent strong expansion, vacuolization and degradation. About the 6th day of culture, callus tissue proliferated and the initial divisions of vascular cylinder cells were observed. Their division appeared normal. Cells originating from that tissue were small, weakly vacuolated, with dense cytoplasm containing active-looking cell organelles. Numerous divisions occurred in the vascular cylinder, which led to its expansion and the formation of embryogenic callus tissue. During the 6–8th wk of culture, in the proximal end of the explant, masses of somatic embryos were formed from outer parts of intensively proliferating tissue.     

Failure of contraceptive steroids to modify human chorionic gonadotrophin secretion by hydatidiform mole tissue and choriocarcinoma cells in culture

The effect of steroids contained in oral contraceptives, namely ethinylestradiol:17α-ethinyl-1,3,5(10)-estratriene-3, 17-diol (E) and norethindrone acetate: 17β-acetoxy-17-ethinyl-4-estren-3-one (N), on cell replication and human chorionic gonadotropin (hCG) secretion by choriocarcinoma cells in monolayer culture and by hydatidiform mole tissue maintained in organ culture were studied. The steroids were added to the culture medium individually or in combination to achieve a range of concentrations (10^?10 to 10^?4), within and beyond the presumed concentration of these substances in the blood of women taking oral contraceptives. The effect of luteinizing hormone releasing hormone (LHRH) on hCG secretion by choriocarcinoma cells in monolayer culture also was investigated. The rate of hCG production by either choriocarcinoma cells in monolayer culture or by hydatidiform mole tissue maintained in organ culture was not affected by the hormones used in this study; indeed hCG secretion remained reasonably unchanged even with high concentrations of steroids (up to 10^?14 M) or LHRH (up to 10^?4 mg × ml^?1). Cell replication, as measured by increase in amount of cellular protein and DNA, was not stimulated by either of these compounds.     

Replication of Epstein-Barr virus primary infection in human tonsil tissue explants

Epstein-Barr virus (EBV) may cause a variety of virus-associated diseases, but no antiviral agents have yet been developed against this virus. Animal models are thus indispensable for the pathological analysis of EBV-related infections and the elucidation of therapeutic methods. To establish a model system for the study of EBV infection, we tested the ability of B95–8 virus and recombinant EBV expressing enhanced green fluorescent protein (EGFP) to replicate in human lymphoid tissue. Human tonsil tissues that had been surgically removed during routine tonsillectomy were sectioned into small blocks and placed on top of collagen sponge gels in culture medium at the air-interface, then a cell-free viral suspension was directly applied to the top of each tissue block. Increasing levels of EBV DNA in culture medium were observed after 12–15 days through 24 days post-infection in tissue models infected with B95–8 and EGFP-EBV. Expression levels of eight EBV-associated genes in cells collected from culture medium were increased during culture. EBV-encoded small RNA-positive cells were detected in the interfollicular areas in paraffin-embedded sections. Flow cytometric analyses revealed that most EGFP⁺ cells were CD3⁻ CD56⁻ CD19⁺ HLA-DR⁺, and represented both naïve (immunoglobulin D⁺) and memory (CD27⁺) B cells. Moreover, EBV replication in this model was suppressed by acyclovir treatment in a dose-dependent manner. These data suggest that this model has potential for use in the pathological analysis of local tissues at the time of primary infection, as well as for screening novel antiviral agents.     

Biochemical markers of contraction in human myometrial smooth muscle cells in culture

Summary Phosphorylation of a light chain subunit of myosin by Ca²⁺ and calmodulin-dependent myosin light chain kinase is believed to be essential for smooth muscle contraction. The biochemical properties of the myosin phosphorylation system in human myometrial smooth muscle cells in monolayer culture were compared with those of human myometrial tissue and nonmuscle cells in culture. Native myosin was isolated from other cellular proteins of crude homogenates by polyacrylamide gel electrophoresis (in the presence of pyrophosphate) and quantified by densitometry. The myosin content of myometrial smooth muscle cells in culture and that of myometrial tissue were similar and four- to five-fold greater than that of human endometrial stromal cells or skin fibroblasts in culture. The specific activities of myosin light chain kinase in homogenates of myometrial smooth muscle cells that were maintained in culture and in myometrial tissue were similar (2.05±0.18 and 1.60±0.37 nmol phosphate incorporated per min per mg protein, respectively). On the other hand, enzyme activity in skin fibroblasts was only 5% of that in myometrial smooth muscle cells. Myosin light chain kinase activity in myometrial smooth muscle cells was dependent upon Ca²⁺ and was inhibited reversibly by the calmodulin antagonist, calmidazolium. The intracellular Ca²⁺ concentration measured by quin2 fluorescence was 0.12 μM in resting cells and increased in a concentration-dependent manner with KC1 to a maximal value of 0.47 μM. These results indicate that biochemical processes important for smooth muscle contraction are retained in human myometrial smooth muscle cells in culture. This research was supported by grants HL26043, HD11149, and GM07062 from the National Institutes of Health, Bethesda, MD.     

Is the movement of single cells within solid tissue masses induced by trypsinization?

Embryonic chick cells, labeled with tritiated thymidine ([³H]TdR), isolated with trypsin and allowed to “recover” or isolated without trypsin were seeded onto the surfaces of solid tissue masses in culture. Autoradiographs revealed extensive migration of single, labeled cells within the tightly packed cell masses. The ability of single cells to infiltrate solid tissue masses in culture does not, therefore, seem to depend upon prior proteolytic treatment.     

Organ explant culture of adult Syrian golden hamster pancreas

Summary An organ explant culture system has been developed for long term maintenance of adult pancreatic tissue from the Syrian golden hamster. Gastric and duodenal lobe explants of up to 0.5 cm² size were placed in tissue culture dishes (60 mm²) on Gelfoam sponge rafts to which was added 5 ml of CMRL medium 1066 supplemented with heat inactivated newborn bovine serum,l-glutamine hydrocortisone, insulin, and antibiotics. Dishes were placed in a controlled atmosphere chamber, which was gassed with 45% O₂ 50% N₂, and 5% CO₂ and incubated at 36.5°C. Viability of the tissues was determined by light and electron microscopy as well as by [³]thymidine incorporation. Explants were viable for up to 70 d. Zymogen granule-containing cells characteristic of acinar cells and mucuscontaining cells characteristic of ductal cells were present throughout this period. However, endocrine cells were only present for the 1st wk in culture. This work was supported in part by National Cancer Institute Grant CA-19197-06 through the National Pancreatic Cancer Project and is UMP contribution No. 950.     

Cyclic AMP increases the Adhesion of Fibroblasts to Substratum

THE interaction between the cell surface and the substratum is very important in determining several characteristics of cells growing in tissue culture. Transformed cells are less adherent to the substratum than untransformed cells¹ and this reduced interaction with the substratum may be responsible for abnormal properties such as the loss of contact or density dependent inhibition of growth² and the ability to form colonies in agar and to grow in suspension culture.     

Encapsulation of Cardiomyocytes in a Fibrin Hydrogel for Cardiac Tissue Engineering

Culturing cells in a three dimensional hydrogel environment is an important technique for developing constructs for tissue engineering as well as studying cellular responses under various culture conditions in vitro. The three dimensional environment more closely mimics what the cells observe in vivo due to the application of mechanical and chemical stimuli in all dimensions ¹. Three-dimensional hydrogels can either be made from synthetic polymers such as PEG-DA ² and PLGA ³ or a number of naturally occurring proteins such as collagen ⁴, hyaluronic acid ⁵ or fibrin ^6,7. Hydrogels created from fibrin, a naturally occurring blood clotting protein, can polymerize to form a mesh that is part of the body''s natural wound healing processes ⁸. Fibrin is cell-degradable and potentially autologous ⁹, making it an ideal temporary scaffold for tissue engineering.Here we describe in detail the isolation of neonatal cardiomyocytes from three day old rat pups and the preparation of the cells for encapsulation in fibrin hydrogel constructs for tissue engineering. Neonatal myocytes are a common cell source used for in vitro studies in cardiac tissue formation and engineering ⁴. Fibrin gel is created by mixing fibrinogen with the enzyme thrombin. Thrombin cleaves fibrinopeptides FpA and FpB from fibrinogen, revealing binding sites that interact with other monomers ¹⁰. These interactions cause the monomers to self-assemble into fibers that form the hydrogel mesh. Because the timing of this enzymatic reaction can be adjusted by altering the ratio of thrombin to fibrinogen, or the ratio of calcium to thrombin, one can injection mold constructs with a number of different geometries ^11,12. Further we can generate alignment of the resulting tissue by how we constrain the gel during culture ¹³.After culturing the engineered cardiac tissue constructs for two weeks under static conditions, the cardiac cells have begun to remodel the construct and can generate a contraction force under electrical pacing conditions ⁶. As part of this protocol, we also describe methods for analyzing the tissue engineered myocardium after the culture period including functional analysis of the active force generated by the cardiac muscle construct upon electrical stimulation, as well as methods for determining final cell viability (Live-Dead assay) and immunohistological staining to examine the expression and morphology of typical proteins important for contraction (Myosin Heavy Chain or MHC) and cellular coupling (Connexin 43 or Cx43) between myocytes.     

Incorporation of tritiated thymidine into mitochondrial DNA of the liver and kidney cells of chickens and mice in tissue culture

Summary ³H-thymidine incorporation into mitochondrial DNA of the liver and the kidney cells of chick embryos and newborn mice in tissue culture was shown by means of electron microscope radioautography with accurate localization. In these cells, about 20% of all the mitochondria were labeled at their matrices between the cristae within 4 hours in contact with the radioisotope, which were removed by DN'ase.From the results, it is clear that the mitochondria of avian and mammalian cells in tissue culture synthesize DNA.     

Does ex vivo labelling of proliferating cells in colonic and vaginal mucosa reflect the S-phase fraction in vivo?

Summary The ex vivo labelling of DNA-synthesizing epithelial cells in colonic and vaginal mucosa was compared with in vivo labelling. For this purpose, in vivo S-phase cells were labelled with [³H]thymidine (Tdr) and ex vivo labelling was continued by culturing tissue specimens in bromodeoxyuridine (BrdU). Various methods of tissue culture were employed in order to improve diffusion of medium (and BrdU) in the tissue. BrdU and ³H-TdR labelling were evaluated by immunohistochemistry and autoradiography respectively. Ex vivo labelling resulted in a patchy distribution of labelled cells, which did not correspond with the ³H-TdR labelling pattern obtained in vivo. Under the described conditions ex vivo labelling does not appear to be a reliable for estimation of the proliferative activities in vivo.     

Incorporation of adenosine into nucleotides of chromaffin cells maintained in primary cultures

Extracellular adenosine was incorporated into nucleotides of bovine chromaffin cells maintained in primary culture. In intact chromaffin tissue, a very low incorporation was found (0.8 pmol/10⁶ cells/h at an adenosine concentration of 11.45 μM), which increased 282 times in freshly isolated chromaffin cells. When maintained in primary culture, this value decreased to a value similar to that of chromaffin tissue, but later on, and in the presence of nerve growth factor (NGF), a time dependent increase of adenosine incorporation was observed which, in 84-h old cells reached up to 54 times more than that found in intact tissue. This incorporation might reflect changes in the adenosine transport at the cell membrane level, furthered by NGF effect. Incorporation, which was time-dependent, was weakly modified by stimulation of cells with 10^?4 M acetylcholine. However, acetylcholine-induced release of labelled nucleotides from chromaffin granules was observed, probably in relation to granule maturation.     

Plaque Assay for Murine Norovirus

Murine norovirus (MNV) is the only member of the Norovirus genus that efficiently grows in tissue culture ^{1, 2}. Cell lysis and cytopathic effect (CPE) are observed during MNV-1 infection of murine dendritic cells or macrophages ¹. This property of MNV-1 can be used to quantify the number of infectious particles in a given sample by performing a plaque assay ¹. The plaque assay relies on the ability of MNV-1 to lyse cells and to form holes in a confluent cell monolayer, which are called plaques ³.Multiple techniques can be used to detect viral infections in tissue culture, harvested tissue, clinical, and environmental samples, but not all measure the number of infectious particles (e.g. qRT-PCR). One way to quantify infectious viral particles is to perform a plaque assay ³, which will be described in detail below. A variation on the MNV plaque assay is the fluorescent focus assay, where MNV antigen is immunostained in cell monolayers ⁴. This assay can be faster, since viral antigen expression precedes plaque formation. It is also useful for titrating viruses unable to form plaques. However, the fluorescent focus assay requires additional resources beyond those of the plaque assay, such as antibodies and a microscope to count focus-forming units. Infectious MNV can also be quantified by determining the 50% Tissue Culture Infective Dose (TCID₅₀) ³. This assay measures the amount of virus required to produce CPE in 50% of inoculated tissue culture cells by endpoint titration ⁵. However, its limit of detection is higher compared to a plaque assay ⁴.In this article, we describe a plaque assay protocol that can be used to effectively determine the number of infectious MNV particles present in biological or environmental samples ^{1, 4, 6}. This method is based on the preparation of 10-fold serial dilutions of MNV-containing samples, which are used to inoculate a monolayer of permissive cells (RAW 264.7 murine macrophage cells). Virus is allowed to attach to the cell monolayer for a given period of time and then aspirated before covering cells with a mixture of agarose and cell culture media. The agar enables the spread of viral progeny to neighboring cells while limiting spread to distantly located cells. Consequently, infected cells are lysed and form holes in the monolayer known as plaques. Upon sufficient spread of virus, plaques become visible following staining of cells with dyes, like neutral red, methylene blue, or crystal violet. At low dilutions, each plaque originates from one infectious viral particle and its progeny, which spread to neighboring cells. Thus, counting the number of plaques allows one to calculate plaque-forming units (PFU) present in the undiluted sample ³.     

Loss of p21 expression in senescent cells after DNA damage accompanied with increase of miR-93 expression and reduced p53 interaction with p21 gene promoter

To answer what is a critical event for higher incidence of tumor development in old than young individuals, primary culture of human diploid fibroblasts were employed and DNA damage was induced by doxorubicin or X-ray irradiation. Response to the damage was different between young and old cells; loss of p21^sdi1 expression in spite of p53^S15 activation in old cells along with [³H]thymidine and BrdU incorporation, but not in young cells. The phenomenon was confirmed by other tissue fibroblasts obtained from different donor ages. Induction of miR-93 expression and reduced p53 binding to p21 gene promoter account for loss of p21^sdi1 expression in senescent cells after DNA damage, suggesting a mechanism of in vivo carcinogenesis in aged tissue without repair arrest.     

Method for bulk culture of animal cells on plastic film

A method is described for the culture of anchorage-dependent cells, on rolls of transparent, autoclavable plastic film. The film is wound into the form of a disposable spiral, which is inserted into a culture vessel. A 2 1 plastic vessel contains a spiral of surface 8 000 cm², i.e. ten times the internal surface of a comparable 2.2 1 glass, roller-bottle. Growth tests were performed on primary (mouse whole embryo), and established (BHK) cells. Specific cell yields, per ml of medium, were similar for both methods (5–7 × 10⁵ cells/ml), but the total cell yield from the plastic spiral (10⁹ cells/vessel) was eight times greater than that from the glass roller bottle (1.2–1.5 × 10⁸ cells). The present apparatus seems capable of mass-production as a cheap, disposable vessel for larger-scale tissue culture.     

Alterations in the cell surface proteins of Drosophila during morphogenesis

Summary Unevaginated and evaginated Drosophila imaginal discs were surface-labeled with ¹²⁵I. Relative labeling was greater in eleven peptides and lower in three peptides of evaginated discs compared to unevaginated discs. These results are compared to the effects of 20-hydroxyecdysone (20-HOE) on metabolic labeling of membrane proteins fractionated from imaginal discs, and on cell surface labeling of a hormone-responsive Drosophila tissue culture line. A group of ³⁵S-methionine labeled membrane fraction peptides whose metabolic labeling is 20-HOE dependent have isoelectric points and apparent molecular weights very similar to those of a group of proteins only labeled in iodinated evaginated discs, supporting the conclusion that these are hormone-dependent, cell surface proteins (Rickoll and Fristrom 1983). Based upon two-dimensional gel electrophoretic and immunological criteria three of the proteins showing increased labeling in evaginated discs are related to three proteins induced by 20-HOE in tissue culture cells. Two different subsets of radiolabeled peptides were observed in the imaginal discs based upon detergent solubility. Some of the proteins which are soluble in NP-40 plus urea but insoluble in NP-40 alone may be localized in the basal lamina of the imaginal discs, a structure which labels heavily with ¹²⁵I and is lacking in tissue culture cells. In discs, the majority of hormone-dependent changes in radiolabeled peptides were seen in the fraction solubilized by NP-40 and urea with a sulfhydryl reducing agent, while in tissue culture cells, the majority of differences is seen in the fraction solubilized by NP-40 only. We speculate that these proteins may be involved in similar processes, e.g., cell rearrangement, that occur during both disc morphogenesis and 20-HOE induced aggregation in tissue culture cells.This work was supported by grants CD-205 from the American Cancer Society, RR08132 from NIH to C.A.P. and GM 19937 from NIH to J.W.F.