A stereoscopic analysis of the centrosome structure in tissue culture cells under the action of carbonyl cyanide p-trifluoromethoxyphenylhydrazone and ouabain]

The action of carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) and ouabain results in significant increase of the quantity of microtubules with attached and free proximal end around the centrosome. The majority of free microtubules are oriented with their proximal ends towards the heads of pericentriolar satellites or towards the walls of centriolar cylinders. The increasing of total number of microtubules is the result of the increasing of microtubules attached to or oriented towards the pericentriolar satellites. Comparing the action of FCCP and ouabain from one side and taxol from the other side it is possible to conclude that FCCP and ouabain promote the initiation of microtubule growth in the centrosome of they have an influence on the frequency of separation of the microtubules from microtubule nucleating centers.     

The ultrastructure of imaginal disc cells in primary cultures and during cell aggregation in continuous cell lines

We have examined the ultrastructure of cellular vesicles in primary cultures of wing imaginal disc cells of Drosophila melanogaster. These cells maintain the apico-basal polarity characteristic of epithelial cells. The apical surfaces secrete extracellular material into the lumen of the vesicle from plasma membrane plaques at the tip of microvilli. During the course of one passage, cells from the established cell lines grow to confluence and then aggregate into discrete condensations joined by aligned bridges of cells. Cells in these aggregates are tightly packed, and there appears to be a loss of the epithelial polarity characteristic of the vesicle cells. Elongated cell extensions containing numerous microtubules are found in aggregates, and we suggest that these may be epithelial feet involved in the aggregation process. Virus particles are commonly found both within the nucleus and the cytoplasm of cells in the aggregates.     

A stereoscopic analysis of centrosome structure in the cells of a tissue culture under the action of energy metabolism inhibitors. I. 2,4-Dinitrophenol, deoxyglucose, sodium azide and the calcium ionophore A23187]

A 30-min action of energy transfer inhibitors (2,4-dinitrophenol, deoxyglucose, azide and calcium ionophore A23187) on tissue culture cells results in a significant increase in the quantity of microtubules around the centrosome. After the action of all the inhibitors, mostly increases the number of long microtubules with free proximal end oriented towards the centrosome. It is suggested that energy transfer inhibitors may stimulate foundation of microtubules on the centrosome and stabilize free microtubules, while they exert no effect on the frequency of detachment of microtubules from the centrosome.     

Cell cycle analysis of primary sponge cell cultures

Proliferation of sponge cells is generally measured via cell counts or viability assays. However, more insight into the proliferative state of a sponge cell population can be obtained from the distribution of the cells over the different phases of the cell cycle. Cell cycle distribution of sponge cells was measured via flow cytometry after staining the DNA with propidium iodide. The five sponges studied in this paper all showed a large fraction of cells in G1/G0 compared to G2/M and S, indicating that cells were not actively dividing. In addition, some sponges also showed a large apoptotic fraction, indicating cell death. Additional apoptosis measurements, based on caspase activity, showed that harvesting and dissociation of sponge tissue to initiate a primary cell culture was directly correlated with an increase in apoptotic cells. This indicates that for the development of cell cultures, more attention should be given to harvesting, dissociation, and quality of starting material. Finally, cultivation conditions used were ineffective for proliferation, since after 2 d of cultivating Haliclona oculata cells, most cells shifted towards the apoptotic fraction, indicating that cells were dying. For development of in vitro sponge cell cultures, flow cytometric cell cycle analysis is a useful method to assess the proliferative state of a sponge cell culture and can be used to validate improvements in harvesting and dissociation, to select sponges with good proliferative capacities and to study the influence of culture conditions for stimulating cell growth.     

Flow cytometric cell cycle analysis of somatic cells primary cultures established for bovine cloning

An important factor governing developmental rates of somatic cloned embryos is the phase of the cell cycle of donor nuclei. The aim of this experiment was to investigate the distribution of cell cycle phases in bovine cumulus and fibroblast cells cultured using routine treatment, and under cell cycle-arresting treatments. The highest percentages of cumulus cells in the G0 + G1 stage were observed in uncultured, frozen/thawed cells originating from immature oocytes (79.8 +/- 2.2%), fresh and frozen/thawed cells from in vitro matured oocytes (84.1 +/- 6.2 and 77.8 +/- 5.7%, respectively), and in cycling cells (72.7 +/- 16.3 and 78.4 +/- 11.2%, respectively for cumulus cells from immature and in vitro matured oocytes). Serum starvation of cumulus cultures markedly decreased percentages of cells in G0 + G1, and prolonged starvation significantly increased (P < 0.05) percentages of cells in G2 + M phase. Culture of cumulus cells to confluency did not increase percentages of cells in G0 + G1. Contrary to findings in cumulus cells, significantly higher percentages of cells in G0 + G1 were apparent when fibroblast cells were cultured to confluency or serum starved, and significantly increased (P < 0.01) as the starvation period was prolonged. It is concluded that for particular cell types specific strategies should be used to attain improvements in the efficiency of cloning procedures.     

Morphological analysis of honeybee antennal cells growing in primary cultures

A culture technique for the in vitro growth of antennal cells from honeybee is described. On the basis of morphological and immunocytochemical criteria, the cultured cells could be classified into neural and non-neural cells. Neural cells (type D) exhibited the main morphological features of insect olfactory receptor neurones (ORNs). Non-neural cells were large, flat cells that could be divided into three main types: Type A, B and C cells. Type A cells were spindle-like cells and resembled insect myocytes in culture. Type B cells were large cells with a veil-like cytoplasm. These cells tended to group and vacuolate towards the center of the cellular aggregate. Type C cells were either bipolar (Type C1) or multipolar (Type C2) flat cells which closely resembled insect glial cells in cultures.     

Regulation of hormone secretion in primary cell cultures of human somatotropinomas]

The effects of somatostatin and thyroliberin (thyrotropin-releasing hormone; TRH) on growth hormone (GH) and prolactin (PRL) secretion were studied in short-term (0.5-3h) or long-term (21-24h) incubations using monolayer cell cultures of somatotropin obtained from surgical material of patients with acromegaly. High sensitivity of both GH and PRL release to inhibitory action of somatostatin (10(-11) M) was established. We could not reveal the unambiguous influence of TRH on somatotropic function in the in vivo and in vitro conditions, as compared to the action of this tripeptide on PRL secretion. The results obtained permit us to propose that cell cultures of pituitary adenomata represent adequate and convenient models for studying the pathogenesis of tumor processes in the pituitary gland and for the development of new procedures of pharmacotherapy.     

简述中心体的结构与功能

中心体是一种重要的细胞器,约由100多种蛋白质所组成,结构上包括中心粒和中心体基质。作为细胞的微管组织中心,决定着细胞微管的极性、数目及分布。中心体通过它对细胞骨架的作用而操纵着细胞的形状、极性和运动以及细胞内物质的运输,在细胞分裂过程中形成确保染色体均匀分配给子细胞的纺锤体。     

Basal cells are the progenitors of primary tracheal epithelial cell cultures.

The goal of this study was to identify the cells from the rat tracheal epithelium which attach and proliferate in primary culture. When cells isolated from tracheas by enzymatic digestion were held in suspension at 37 degrees C for several hours most of the differentiated cells died. The kinetics of this selective cell death were not dependent on the constituents of the holding medium. With time in suspension, the colony forming efficiency of the surviving cells increased two- to threefold. Comparison of the growth curves of cells held or plated directly showed no difference in the number of cells in the proliferating populations. Using two lectins, it was possible to monitor the loss of specific populations in suspension. BS1-B4 is a marker for basal cells and UEA-1 is a secretory cell marker. Only those cells that were BS1-B4 positive survived in suspension. Further, the colonies that formed in primary culture were positive for this marker. Single cell suspensions of cells were sorted by flow cytometry and a fivefold increase in the colony forming efficiency of BS1-B4 positive cells compared to that of the negative cells was observed. These findings suggest that the cells that survived in suspension and proliferated in culture originated from the basal cells of the trachea.     

Conjugation of 1-naphthol in primary cell cultures of rat ovarian cells

The present study concerns conjugation of 1-naphthol in primary cultures of rat ovarian cells. Two phase II enzymes catalyzing conjugation, i.e. phenol sulfotransferase (P-SULT) and phenol UDP-glucuronosyltransferase (P-UGT), were measured using 1-naphthol as substrate. The rates of conjugation by the different cell types of the rat ovary were the same at low concentrations and short incubation times. However, after 20 h of incubation the rate of conjugation in cells isolated from ovaries enriched in corpora lutea (CL) exceeded the rate in cells isolated from ovaries enriched in preovulatory follicles. In addition, when the granulosa cells were removed from the preovulatory follicles, the rate of conjugation was 1.7-fold higher, i.e. in the theca/stroma cells. When the cells were incubated with 1-[14C]naphthol and conjugates were subsequently separated by thin-layer chromatography, naphthyl glucuronide was the only conjugate observed. Pentachlorophenol (PCP), a commonly used inhibitor of P-SULT, inhibited 1-naphthol conjugation 50% in cell cultures, as well as in microsomal preparations. alpha-Naphthoflavone (ANF) and ellipticine (ELP), both cytochrome P450 (CYP) inhibitors, affected the conjugation of 1-naphthol in different ways; ANF did not affect P-UGT activity in microsomal preparations, but inhibited 1-naphthol conjugation in cell cultures by as much as 90%. On the other hand, ELP inhibited the conjugation of 1-naphthol up to 99% in the cell cultures, but only 75% in microsomal fractions. Testosterone (TST) and estradiol inhibited this activity approximately equal 50% in both of these experimental systems. Clomiphene citrate (CLF), a drug used to induce ovulation and demonstrating both estrogenic and antiestrogenic effects, did not influence the conjugation of 1-naphthol significantly in the cell cultures. The present findings demonstrate that P-UGT is by far the major enzyme conjugating 1-naphthol in the rat ovary and that commonly used inhibitors of P-SULT and CYPs also inhibit P-UGT activity, either directly or via other mechanisms.     

Obtaining and morphological characteristics of primary monolayer cell cultures of human somatotropinomas]

This paper describes the development of method of preparing cell suspension obtained from surgical material of patients with pituitary adenomas and acromegaly as well as the procedure of subsequent long-term cultivation in monolayers of the cells isolated. As judged by visual inspection and measurement of growth hormone and prolactin secretion, tumor pituitary cells kept viability and functional activity for at least 6 days of growing in vitro. Immunocytochemical visualization of somato- and lactotrophs of the same histological preparations permitted us to show that vast majority of cultured cells is represented by somatotrophs; however, a small portion of cell population is represented by lactotrophs and lactosomatotrophs. The peculiarities of cytoarchitectonics in two types of cell cultures of human somatotropinomas were studied.     

Cytogenetic study of continuous pig kidney cell cultures chronically infected with the Kilham virus]

A persistent infection of the continuous embryonal pig kidney cell cultures induced by a rat parvovirus (the Kilhem virus) did not alter morphological or karyological characteristics of the cultures, and caused no transformation of these. The data obtained suggests the resistance of the pig karyotype to the virus under investigation.     

Production of progenitor cells from primary human epithelial cell monolayer cultures

Primary keratinocytes derived from human epidermis are widely used in tissue engineering and regenerative medicine. An important aspect in clinical applications is the preservation of human skin keratinocyte stem cells. However, it is difficult to expand the number of human skin keratinocyte stem cells, which are undifferentiated and highly proliferative in culture by using standard cell culture methods. It is even more difficult to identify them, since universal specific markers for human skin keratinocyte stem cells have not been identified. In this paper, we show a method to produce a large number of primary progenitor human skin keratinocytes by using our novel culture techniques. Primary human skin keratinocyte monolayers are cultured using twice the volume of medium without serum and lacking essential fatty acids. Once the cells reach 70–80% confluence, they begin to float up into the overlying medium and are called “epithelial pop-up keratinocytes (ePUKs)” allowing the cells to be passaged without the use of trypsin. We analyzed the properties of ePUKs by cell size, cell viability, immunocytofluorescence biomarker staining, and cell cycle phase distribution by fluorescence-activated cell sorting (FACS). Our results showed that these ePUKs appear to be progenitor epithelial cells, which are small in size, undifferentiated, and have a high proliferative capacity. We believe that ePUKs are suitable for use in medical applications requiring a large number of primary human progenitor skin keratinocytes.     

The levels of DNA repair in the cells of diploid and tetraploid cell cultures]

Levels of unscheduled DNA synthesis after UV-irradiation were investigated in addition to the activities of DNA-repair enzyme uracil-DNA glycosilase in cells of both diploid (XC-D) and tetraploid (XC-T) cell cultures. It was shown that repair levels were increasing directly and proportionally to the cell ploidy.     

The centrosome reaction in tissue-culture cells to depolarization of the cell membranes

Carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP), ouabain and calcium ionophore A23187 caused a centrosome restructuring expressed in mean number increase of satellites on the active (mother) centriole, in an increase of the mean slope of centrioles to the substrate surface and in the more frequent occurrence of primary cilia. In the presence of FCCP the effect appeared only in 10 min and retained for 2 h. The ouabain caused the separation of active and inactive centrioles in more than in a half of the cells. The data obtained permit to conclude that depolarization of the plasmatic membrane only is needed for the initiation of centrosome restructuring. The authors propose that this reaction of centrosome is a component of the cell overall response to nonspecific lesions.     

Critical variables controlling cell proliferation in primary cultures of rat tracheal epithelial cells

Summary The purpose of our experiments was to examine variables affecting early events in the establishment of rat tracheal epithelial (RTE) cultures as well as factors regulating long-term RTE cell growth. The experiments showed that when RTE cells were seeded into complete serum-free medium between 13 and 30% of the seeded cells attached. Of the seeded cells, only ∼2% entered into DNA synthesis and underwent repeated cell divisions to form colonies containing >20 cells. Coating the dishes with extracellular matrix components had little effect on cell attachment or colony forming efficiency (CFE). However, coating the dishes with fetal bovine serum markedly increased CFE. The media components bovine serum albumin and bovine pituitary extract were shown to be important in promoting cell attachment as well as CFE. Cholera toxin on the other hand had no effect on cell attachment but significantly increased CFE. These and other studies showed that cell attachment and cell proliferation are independently regulated. Studies on long-term culture growth indicated that the number of progeny produced per colony forming unit (CFU) is inversely proportional to the number of CFUs seeded. Inasmuch as the cultures did not become confluent under any of the culture conditions tested and media obtained from high density cultures were shown to be growth inhibitory, these findings suggest that a diffusible growth restraining factor is being produced by the cultures limiting clonal expansion. Experiments showing growth inhibitory effects of media conditioned by high cell density cultures support this interpretation. The putative factor reaches critical concentrations earlier in cultures seeded with high numbers of CFU than in cultures seeded with low numbers of CFU. Because the cultures are known to produce transforming growth factor-beta, this growth regulator probably plays a role in controlling RTE cell proliferation. However, it is likely than other events, such as depletion of growth factors from the media, also are significant in regulating the growth of the cultures.     

Energetic analysis of the growth of Methanobrevibacter arboriphilus A2 in hydrogen-limited continuous cultures

Hydrogen-limited chemostat cultures of Methanobrevibacter arboriphilus A2 were carried out. The available electron balance and carbon balance in M. arboriphilus A2 and other methanogenic strains grown on various substrates were well satisfied. This indicates that no extracellular organic products were formed during methanogenic growth. The molar growth yields for methane (Y(X/CH(4) )) were calculated as 1.06-1.42 g cell/mol CH(4) at dilution rate (0.21-0.43 day(-1)). The smaller Y(X/CH(4) ) of M. arboriphilus A2 compared with that of the other methanogenic strains was probably owing to the low growth rate of M. arboriphilus A2. The low value of Y(X/CH(4) ) may be favorable for methane fermentation because less sludge accumulation is expected. The efficiency of free energy transduction to ATP during methane formation from H(2) + CO(2) was 12-17% at the dilution rate (0.21-0.43 day(-1)) assuming that Y(ATP) was 6.5 g/mol and the free energy change of CO(2) reduction to methane with H(2) was -62.8 kJ/mol under physiological conditions.