Inhibition of calf thymus DNA polymerase α and of normal and cancer cell growth by butylanilinouracil and butylphenylguanine

6-(p-n-Butylanilino)uracil and N²-(p-butylphenyl)guanine inhibited the activity of DNA polymerase α from calf thymus but had no effect on other eukaryotic polymerases (DNA polymerases β and γ) or Escherichia coli DNA polymerase I. Inhibition was competitive with deoxyguanosine 5′-triphosphate and did not occur in the reaction of DNA polymerase α with a template that did not contain cytosine residues. The results support a mechanism which involves hydrogen bonding of inhibitors with cytosines in the DNA template and binding with an inhibitor specific site on the enzyme. A screen of inhibitor effects on normal and cancer cell growth in culture showed that cells were not uniformly sensitive to these compounds, a mouse lymphoma line being least sensitive and a human lung cancer line being most sensitive. It is suggested that these inhibitors may be useful to probe possible structural differences among DNA polymerases α.     

Effect of 2-deoxy-d-glucose on growth and cell walls of Schizosaccharomyces pombe 972h−

Summary The effect of 2-deoxy-d-glucose on growth of Schizosaccharomyces pombe 972h^–, and on its cell wall composition, structure and susceptibility to enzymatic degradation has been investigated. The growth rate was not markedly affected at below 80 g/ml of the inhibitor, but the increased frequency of appearance of aberrant forms and the reduction in the final population attained varied directly with increased inhibitor concentration. These abnormal cells show localized lesions and, at these points, extrusion of cell contents still enclosed by an inner cell wall layer which is not sensitive to osmotic shock. Cells grown normally yield prosphaeroplasts on treatment with snail digestive enzymes; thiol pretreatment was not necessary but degradation proceeded more rapidly when MgSO₄ was used in place of sorbitol as osmotic stabilizer. Deoxyglucose-grown organisms rapidly yield true osmotically-sensitive sphaeroplasts on similar treatment.Analysis of isolated walls from mechanically disrupted cells showed marked changes in composition; an increase in the total lipid was accompanied by decreased content of both glucose and glucosamine.     

Overexpression of phytosulfokine-α induces male sterility and cell growth by regulating cell wall development in Arabidopsis

Key message

Over-production of functional PSK-α in Arabidopsis caused increases in both plant cell growth and biomass and induced male sterility by regulating cell wall development.

Abstract

Phytosulfokine-α (PSK-α) is a novel disulfated pentapeptide hormone that is involved in promoting plant cell growth. Although a role for PSK-α in stimulating protoplast expansion has been suggested, how PSK-α regulates cell growth in planta remains poorly understood. In this study, we found that overexpression of the normal PSK-α precursor gene AtPSK4, which resulted in high levels of PSK-α, caused longer roots and larger leaves with enlarged cells. As expected, these changes were not observed in transgenic plants overexpressing mutated AtPSK4, which generated unsulfated PSK-α. These findings confirmed the role of PSK-α in promoting plant cell growth. Furthermore, we found that overexpressing AtPSK4, but not mutated AtPSK4, induced a phenotype of male sterility that resulted from the failure of fibrous cell wall development in the endothecium. In addition, overexpressing AtPSK4 enhanced expression of a number of genes encoding expansins, which are involved in cell wall loosening. Accordingly, in addition to its role in cell growth, we propose a novel function for PSK-α signaling in the modulation of plant male sterility via regulation of cell wall development.

     

The influence of β-glucan on the growth and cell wall architecture of Aspergillus spp

β-1,3-glucan is a major component of fungal cell walls with various biological activities, including effects on the production of inflammatory mediators in vivo and in vitro. However, few reports have examined its influence on the fungal cell itself. In this study, the influences of β-1,3-glucan on the growth and cell wall structure of fungi was examined. Aspergillus fumigatus was cultured with a synthetic medium, C-limiting medium, in the presence or absence of β-1,3-glucan. Hyphal growth was promoted in liquid and solid-cultures by adding β-1,3-glucan. Glucose and dextran did not induce growth. The influence on cell wall structure of the β-glucan-added cultures was examined by enzymolysis and NMR spectroscopy and the amount of β-1,3-glucan found to be changed. β-1,3-glucan has been widely detected in the environment. In this study, it was demonstrated that β-1,3-glucan causes promotion of the growth, and a change in the cell wall architecture, of Aspergillus. Unregulated distribution of β-1,3-glucan would be strongly related to the incidence of infectious diseases and allergy caused by Aspergillus spp.     

CHO cell growth and recombinant interferon-γ production: Effects of BSA, Pluronic and lipids

The role of bovine serum albumin in mammalian cell cultures and the possibility of its substitution by other components in a serum-free medium has been investigated. In this study, BSA was shown to be important for growth and product formation in CHO cells expressing recombinant human interferon-. There were indications that its stimulating growth effect was dependent on the source of BSA used and probably was related to the purification procedure used for the production of the desired albumin fraction. Cell growth did not occur in the absence of BSA but at low concentration (1 mg ml^–1) it was stimulated by the addition of a combination of a commercial lipid mixture plus Pluronic F68. However, under the latter conditions IFN- production was adversely effected. The importance of individual lipid components was investigated using a statistical approach based on a Plackett-Burman design. Linoleic acid was identified as a positive variable for cell growth while cholesterol was identified as a negative variable for both cell growth and IFN- production. When a combination of linoleic acid plus Pluronic F68 was included in the formulation of low BSA medium, cell growth was similar to that at high BSA concentration (5 mg ml^–1) but the IFN- concentration was significantly reduced (ca. 45%).Abbreviations IFN- interferon- - CHO Chinese Hamster Ovary cells - BSA bovine serum albumin - FAF-BSA fatty acid-free bovine serum albumin     

Effects of serum and serum-derived factors on the growth and production of α-fetoprotein and albumin by human hepatoma cell lines

A serum-free culture system of human hepatoma cell lines (HuH-6 and HuH-7) was used to investigate the activity of bovine serum (BS) and of serum-derived factors on the growth and production of -fetoprotein (AFP) and albumin. At higher concentrations, dialyzed BS was inhibitory to the growth of HuH-6 and caused reduction of the level of AFP production by the cells. AFP and albumin levels in HuH-6 and HuH-7 were reduced or unchanged by fetuin, bovine serum albumin (BSA) and transferin (TF), although no cytotoxicity was shown by any of them. Commercial preparations of platelet-derived growth factor exhibited cytotoxicity to HuH-6 and HuH-7 and induced a decrease of AFP and albumin levels in a dose-dependent manner. Transforming growth factor (TGF-) exhibited no cytotoxicity to HuH-6. AFP levels in HuH-6 were unchanged with 1000 pg/ml TGF-, but albumin levels were decreased. TGF-7 at a concentration of 1000 pg/ml was cytotoxic to HuH-7 and AFP levels were a little increased. Albumin levels, however, were unchanged. Following exposure to cycloheximide, AFP and albumin levels in HuH-6 were inhibited.Abbreviations AFP -fetoprotein - BS bovine serum - BSA bovine serum albumin - EDTA ethylenediaminetetraaceticacid - ELISA enzyme-linked immunosorbent assay - HBSS Hank's balanced salt solution - PBS phosphate buffered saline - PDGF platelet-derived growth factor - TF transferrin - TGF-\ transforming growth factor beta     

Wogonin inhibits IGF-1-stimulated cell growth and estrogen receptor α expression in breast adenocarcinoma cell and angiogenesis of chick chorioallantoic membrane

The aim of the present study was to investigate the involvements of insulin-like growth factor-1 (IGF-1) and estrogen receptor α (ERα) in the inhibitory effect of wogonin on the breast adenocarcinoma growth. Moreover, the effect of wogonin on the angiogenesis of chick chorioallantoic membrane (CAM) was also investigated. MCF-7 cells (human breast adenocarcinoma cell line) were subjected to several drugs, including IGF-1, wogonin and ER inhibitor ICI182780, alone or in combination. MTT assay was used to detect breast cancer proliferation. Western blot was used to analyze ERα and p-Akt expression levels. CAM models prepared from 6-day chicken eggs were employed to evaluate angiogenesis inhibition. The results showed wogonin and ICI182780 both exhibited a potent ability to blunt IGF-1-stimulated MCF-7 cell growth. Either of wogonin and ICI182780 significantly inhibited ERα and p-Akt expressions in IGF-1-treated cells. The inhibitory effect of wogonin showed no difference from that of ICI182780 on IGF-1-stimulated expressions of ERα and p-Akt. Meanwhile, wogonin at different concentrations showed significant inhibitory effect on CAM angiogenesis. These results suggest the inhibitory effect of wogonin on breast adenocarcinoma growth via inhibiting IGF-1-mediated PI3K-Akt pathway and regulating ERα expression. Furthermore, wogonin has a strong anti-angiogenic effect on CAM model.     

Effects of environmental conditions on cell growth and poly-β-hydroxybutyrate accumulation in Alcaligenes eutrophus

Influences of the control of glucose and oxygen concentrations on cell growth and poly--hydroxybutyrate (PHB) accumulation in Alcaligenes eutrophus were studied. Glucose affects both biosynthesis and glycolysis directly and the other pathways indirectly. PHB accumulation could also be stimulated under oxygen limitation conditions, but the final PHB content within the cells was less than in the case of nitrogen limitation. When the culture was shifted from the PHB accumulation state to balanced growth conditions, PHB degradation occurred in the cells. The cell growth was inhibited by high PHB content within the cells.     

TSC1-2 tumour suppressor and regulation of mTOR signalling: linking cell growth and proliferation?

Understanding the relationship between growth and proliferation in multicellular organisms requires identification of the key regulators of growth control, and an understanding of how they regulate growth and how growth is linked to cell proliferation. Recent progress in understanding the mechanisms of growth control indicates that the tuberous sclerosis complex tumour-suppressor TSC1-2 serves as a point of integration between growth-stimulatory and growth-suppressive signalling upstream of a small GTPase, Rheb. However, Rheb-induced growth might not explain the additional effects of TSC1-2 upon cell proliferation.     

The duality of epidermal growth factor receptor (EGFR) signaling and neural stem cell phenotype: cell enhancer or cell transformer?

Recruitment of neural stem cells (NSCs) represents an elegant strategy for replacing adult central nervous system (CNS) cells lost to injury or disease. However, except in the rostral migratory stream to the olfactory bulb, the adult CNS harbors a relatively non permissive environment for motility of neural stem cells. This opens the possibility of therapeutic enhancement of NSC motility towards sites of CNS injury or disease. The Epidermal Growth Factor Receptor (EGFR) is involved in the activation of a number of downstream pathways that regulate the phenotype of progenitor cells. Activated EGFR tyrosine kinase activity enhances NSC migration, proliferation, and survival. However, EGFR signaling is also known to play a role in the most malignant and highly invasive of human tumors, glioblastoma multiforme (GBM). Recent evidence supports the theory that GBM derives from a 'cancer stem cell' and that EGFR signals are commonly altered in these precursor cells. This article will review the role of EGFR signaling as it relates to neural stem cell motility and invasion. The duality of altered EGFR signaling in neural progenitor cells is discussed and opportunities for enhancing the recruitment of adult progenitors, and consequences of altering EGFR signaling in progenitor cells will be highlighted.     

Computational modelling and analysis of mechanical conditions on cell locomotion and cell–cell interaction

Between other parameters, cell migration is partially guided by the mechanical properties of its substrate. Although many experimental works have been developed to understand the effect of substrate mechanical properties on cell migration, accurate 3D cell locomotion models have not been presented yet. In this paper, we present a novel 3D model for cells migration. In the presented model, we assume that a cell follows two main processes: in the first process, it senses its interface with the substrate to determine the migration direction and in the second process, it exerts subsequent forces to move. In the presented model, cell traction forces are considered to depend on cell internal deformation during the sensing step. A random protrusion force is also considered which may change cell migration direction and/or speed. The presented model was applied for many cases of migration of the cells. The obtained results show high agreement with the available experimental and numerical data.     

Estrogen receptor β agonists affect growth and gene expression of human breast cancer cell lines

Expression of estrogen receptor β (ERβ) has been described to reduce growth of cancer cell lines derived from hormone-dependent tumors, like breast cancer. In this study we tested to what extent two ERβ agonists, androgen derivative 3β-Adiol and flavonoid Liquiritigenin, would affect growth and gene expression of different ERβ-positive human breast cancer cell lines. Under standard cell culture conditions, we observed 3β-Adiol to inhibit growth of MCF-7 cells in a dose-dependent manner, whereas growth of BT-474 and MCF-10A cells was suppressed by the maximum concentration (100 nM) only. When treated in serum-free medium, all cell lines except of MDA-MB-231 were responsive to 1 nM 3β-Adiol, and ZR75-1 cells exhibited a dose-dependent antiproliferative response. Providing putative mechanisms underlying the observed growth-inhibitory effect, expression of Ki-67 or cyclins A2 and B1 was downregulated after 3β-Adiol treatment in all responsive lines. In contrast, treatment with lower doses of Liquiritigenin did not affect growth. In MCF-7 cells, the highest dose of this flavonoid exerted proliferative effects accompanied by increased expression of cyclin B1, PR and PS2, indicating unspecific activation of ERα. In conclusion, the ERβ agonists tested exerted distinct concentration-dependent and cell line-specific effects on growth and gene expression. The observed inhibitory effects of 3β-Adiol on breast cancer cell growth encourage further studies on the potential of this and other ERβ agonists as targeted drugs for breast cancer therapy.     

Use of cell cycle analysis to characterise growth and interferon-γ production in perfusion culture of CHO cells

The importance of cell cycle analysis in cell culture development has been widely recognised. Whether such analysis is useful in indicating future performance of high cell density culture is uncertain. Using flow cytometric approach to address this question, we utilised the fraction of cells in the S phase to control specific growth rate and productivity in spin filter perfusion cultures and found a significant increase in the accumulated interferon-γ over that obtained from the nutrient-based controlled fed culture. While a general decrease with time exists in both percentage of S phase cells and specific growth rate, a clear oscillatory behaviour of both parameters is found in perfusion cultures. This revised version was published online in July 2006 with corrections to the Cover Date.     

Inhibition of proliferation of retrovirus-immortalized macrophages by LPS and IFN-γ: Possible autocrine down-regulation of cell growth by induction of IL1 and TNF

The GG₂EE macrophage tumor cell line was previously established by immortalization of C3H/HeJ mouse bone marrow cells with the J2 retrovirus which contains the v-myc and v-raf oncogenes. Studies on the control of GGZEE cell proliferationin vitro have recently been performed. We observed that the combination of 5–25 U/ml recombinant mouse interferon- (rmIFN-) plus 0.03 – 0.3 µg/ml lipopolysaccharide (LPS) markedly inhibited the proliferation of GG₂EE cells (by >95%)in vitro, while either agent alone inhibited only by <40% and 0–10%, respectively. Subsequent studies established that biologically active ILI-like (2–4 U/ml) and TNF-like (50–100 U/ml) activities were released into the supernatants of LPS-treated GG₂EE cells. The combination of IFN- + LPS induced more (6–8 U/ml) ILI release. These results suggested that the inhibition of proliferation of GG₂EE cells by IFN- + LPS could have been mediated in part by cytokines produced by the cells themselves. rhIL1 at a concentration of 10 U/ml inhibited GG₂EE proliferation by 25–30%, while rmIFN- (25 U/ml) + rhIL1 (10 U/ml) inhibited proliferation by 98%. Thus, 10 U/ml rhIL1 could completely replace LPS in the LPS + rmIFN- combination. Further, the combination of low doses of rhIL1 (0.1 to 1 U/ml) plus rmTNF (250 U/ml), which together inhibited proliferation by <20% synergized with doses of 5 to 25 U/ml rmIFN- to inhibit proliferation of GG₂EE cells by 98–99%. These results suggest that cytokines produced by the cells themselves can synergize with rmIFN- to inhibit the oncogene-driven proliferation of GG₂EE cells.     

Effects of transforming growth factor-β1 and activin-A on in vitro porcine granulosa cell steroidogenesis

The mammalian ovarian cycle is a strictly regulated process that is dependent on the intimate interactions among the 3 cell types in the follicle — theca, granulosa, and oocyte. The cycle has been shown to be controlled by gonadotropins as well as locally produced peptide factors. In this study, an in vitro culture system was used to study the roles of 2 locally produced ovarian peptide factors, transforming growth factor-β₁ (TGF-β₁) and activin-A, on porcine granulosa cell steroidogenesis. Gonadotropin stimulated cultured porcine granulosa cells (from medium-sized follicles) were pretreated with 100 ng/ml follicle-stimulating hormone (FSH) for 48 h and then treated with 1 ng/ml TGF-β₁, 100 ng/ml activin-A, TGF-β₁ plus activin-A, or received no treatment (control) for 48 h, From our previous studies, the concentrations of the 2 growth factors were determined to produce maximal antisteroidogenic effects in porcine granulosa cells. Progesterone (P₄) production, estradiol-17β (E₂) production, and aromatase activity for gonadotropin-stimulated porcine granulosa cells treated with TGF-β₁, activin-A, and TGF-β₁ plus activin-A were significantly (P < 0.05) reduced fromthat of the control. The same procedures were conducted on basal steroidogenesis studies in which no pretreatment with FSH was performed. Both P₄ and E₂ production and aromatase activity for porcine granulosa cells treated with TGF-β₁, activin-A and TGF-β₁ plus activin-A were significantly (P < 0.05) inhibited compared with the control. Our results indicate that both TGF-β₁ and activin-A can inhibit FSH-stimulated and basal steroidogeneses in porcine granulosa cells and, thus, may act as local atretic factors during follicular development. When the 2 growth factors were given in combination at concentrations that would produce maximal steroidogenic inhibition, they were not able to produce a synergistic effect. These results are consistent with the current theory that TGF-β₁ and activin-A may act via the same messenger system, a serine-threonine kinase.