Suppression by antisense mRNA demonstrates a requirement for the glial fibrillary acidic protein in the formation of stable astrocytic processes in response to neurons

The glial fibrillary acidic protein (GFAP) is a glial-specific intermediate filament protein, which is expressed in astrocytes in the central nervous system, as well as in astrocytoma cell lines. To investigate the function of GFAP, we have studied the human astrocytoma cell line, U251, which constitutively expresses GFAP and vimentin in the same 10-nm filaments. These cells respond to neurons in vitro in the same way as primary astrocytes: they withdraw from the cell cycle, support neuronal cell survival and neurite outgrowth, and they extend complex, GFAP-positive processes. To determine the role of GFAP in these responses, we have specifically suppressed its expression by stably transfecting the U251 cells with an antisense GFAP construct. Two stable antisense cell lines from separate transfections were isolated and were shown to be GFAP negative by Northern and Western blot analyses, and by immunofluorescence studies. The antisense cell lines were inhibited in their ability to extend significant glial processes in response to neurons. In culture with primary neurons, the average increase in process length of the U251 cells was nearly 400%, as compared to only 14% for the antisense transfectants. The other neuron induced responses of astrocytes, i.e., proliferative arrest and neuronal support, were not affected in these cell lines. These data support the conclusion that the glial-specific intermediate filament protein, GFAP, is required for the formation of stable astrocytic processes in response to neurons.     

The effect of sodium butyrate on tyrosine aminotransferase induction in primary cultures of normal adult rat hepatocytes

Treatment of primary cultures of adult rat hepatocytes with 5 mM butyrate inhibited the spontaneous decrease in basal activity and mRNA levels of tyrosine aminotransferase (TAT) that occurred during culture (Staecker et al., submitted). We report here that butyrate treatment of primary cultures of rat hepatocytes initially inhibited the induction of TAT. This inhibition was followed by a period of accelerated TAT induction. TAT induction in butyrate-treated primary cultures of adult rat hepatocytes occurred only after metabolism of butyrate by the cultured hepatocytes. The accelerated induction of TAT in hepatocyte cultures treated with sodium butyrate was reflected by increased TAT activity and mRNA levels. Cultured hepatocytes rapidly metabolized butyrate, but the addition of more butyrate into cultures after its initial metabolism resulted in a rapid reduction in TAT activity. These findings indicate that butyrate treatment can affect the expression of TAT in primary hepatocyte cultures in both a positive (increased basal TAT expression) and a negative (inhibition of the induced expression of TAT) manner.     

Sodium butyrate sensitises human pancreatic cancer cells to both the intrinsic and the extrinsic apoptotic pathways

Pancreatic cancer is characterised by a highly malignant phenotype with a marked resistance to conventional therapies and to apoptotic activators. Here, we demonstrate that sodium butyrate (NaBt), an inhibitor of histone deacetylases, sensitises human pancreatic cancer cell lines to both mitochondria- and Fas-mediated apoptosis. The analysis of anti-apoptotic and pro-apoptotic members of the Bcl-2 family in untreated pancreatic cancer cell lines shows a generalised low expression of Bcl-2 and a strong expression of Bcl-xL. NaBt treatment results in a marked down-regulation of Bcl-xL expression, mitochondrial membrane depolarization, cytochrome c release from mitochondria, activation of caspase-9 and -3 and apoptosis induction. Furthermore, NaBt sensitises pancreatic cancer cells to Fas-mediated apoptosis as well. In fact, the combined treatment with NaBt and the agonistic antibody anti-Fas (CH11) is able to induce apoptosis at an early time, in which neither NaBt nor CH11 alone induce apoptosis. Down-regulation of FLIP and activation of caspase-8 allow apoptosis to occur. These findings suggest that sodium butyrate could represent a good candidate for the development of new therapeutic strategies aimed at improving chemotherapy and immunotherapy in pancreatic cancer.     

Astrocytoma derived short-term cell cultures retain molecular signatures characteristic of the tumour in situ

The heterogeneity of tumours and uncertainties surrounding derived short-term cell cultures and established cell lines fundamentally challenge the research and understanding of tumour growth and development. When tumour cells are cultured, changes are inevitably induced due to the artificial growth conditions. Several recent studies have questioned how representative established cell lines or derived short-term cell cultures are of the tumour in situ. We have characterised gene expression changes induced by short-term culture in astrocytoma in order to determine whether derived short-term cell cultures are representative of the tumour in situ. In comparison to the majority of studies, paired biopsies and derived short-term cultures were investigated to reduce the effects of long-term culture and inter-tumour variability when comparing biopsies and derived cultures from tumours with the same histology from different individuals. We have used the Affymetrix GeneChip^® U133A to generate gene expression profiles of 6 paediatric pilocytic astrocytoma (PA) biopsies and derived short-term cell cultures and 3 adult glioblastoma multiforme (GBM) biopsies and derived short-term cultures. Significant differential gene expression is induced by short-term culture. However, when the biopsy and derived short-term cell culture samples were grouped according to tumour type (PA and GBM) a molecular signature of 608 genes showed significant differential expression between the groups. This gene cohort can distinguish PA and GBM tumours, regardless of the sample source, suggesting that astrocytoma derived short-term cultures do retain key aspects of the global tumour expression profile and are representative of the tumour in situ. Furthermore, these genes are involved in pathways and functions characteristic of adult GBM including VEGF signalling, hypoxia and TP53 signalling.     

Enhanced apoptosis in transformed human lung fibroblasts after exposure to sodium butyrate

Summary Simian virus-transformed human cells, WI-38 VA13A, showed a dose-dependent induction of apoptosis and reduction in cell numbers after exposure to sodium butyrate. Apoptosis was confirmed by ApopTag staining, isolation of apoptotic envelopes, and immunofluorescent staining with an antibody specific for apoptotic envelopes. Examination of the cell cultures by phase contrast and fluorescent microscopy revealed the presence of enlarged cells that displayed a more flattened morphology and morphological changes in the nucleus of cells exposed to sodium butyrate. Cell proliferation assays showed control and sodium butyrate cultures were synthesizing DNA and excluded any cytotoxic effects of sodium butyrate. Flow cytometry results indicated an increase in the number of aneuploid cells following sodium butyrate treatment. There was a decrease in the percentage of cells in G2/M in the diploid populations, but an increase in the percentage of cells in G2/M in aneuploid populations. This humanin vitro model system suggests a mode of action for the therapeutic effects of sodium butyrate, which have been observed in the topical treatment of neoplastic cells and reversal of symptoms in ulcerative colitis: namely, the induction of apoptosis.     

丁酸钠至少部分通过NF-Y 依赖的TXNIP 表达诱导人肺癌细胞A549死亡

组蛋白去乙酰化酶（HDACs）抑制剂丁酸钠调节细胞分化、增殖和抑制肿瘤发生。硫氧还蛋白相互作用蛋白( thioredoxin-interacting protein,TXNIP)通过负性调控硫氧还蛋白的活性,调控细胞内的氧化还原平衡,抑制细胞生长。本研究证明,丁酸钠可通过激活依赖于转录因子NF-Y的TXNIP 表达,诱导人非小细胞肺癌细胞A549死亡。MTT法显示,5 mmol/L丁酸钠处理A549 细胞72 h可显著诱导其死亡;流式细胞分析发现,其中大部分细胞以凋亡形式死亡。表达芯片分析表明,在丁酸钠处理的A549 细胞中,TXNIP 的mRNA 水平显著提高30～50倍;实时定量PCR、免疫细胞化学和蛋白质印迹结果进一步证明,丁酸钠可显著上调TXNIP 表达。荧光素酶报告基因分析证明,与对照细胞比较,丁酸钠刺激的细胞内报告酶活性可提高约10 倍,提示丁酸钠可激活TXNIP 启动子的转录活性。TXNIP 启动子删除突变分析显示,删除NF-Y 结合的DNA 序列显著降低丁酸钠对TXNIP 启动子的激活能力, 表明NF-Y转录因子参与丁酸钠介导的TXNIP基因转录激活。为分析TXNIP 在A549 细胞中的定位和部分功能,在A549细胞 中过表达GFP TXNIP 融合蛋白及其截短突变体融合蛋白;结果显示,野生型和保留N 端1-281aa的截短突变体定位在细胞核,而删除N 端1-200aa 时,其定位在细胞核和细胞质,提示N 端1 200aa 可调节该蛋白质的定位。然而,丁酸钠刺激未发现表达的GFP TXNIP在细胞内定位改变。以上结果表明,丁酸钠可通过激活转录因子NF YC 依赖的TXNIP激活,诱导A549 细胞死亡,但不能改变TXNIP蛋白在细胞内的定位。上述结果还提示,TXNIP 的N 端1-200aa 可能在调节TXNIP 的细胞定位中发挥作用。是否丁酸钠刺激TXNIP表达导致的细胞死亡系通过改变细胞氧化压力,以及TXNIP在细胞中定位的详尽调节机制尚待进一步研究证明。     

Amyloid precursor protein is involved in staurosporine induced glial differentiation of neural progenitor cells

Staurosporine (STS) has been reported as not only a pro-apoptotic agent, but also a terminal differentiation inducer in several neuroblastoma cell lines. Here, we report involvement of amyloid precursor protein (APP) in a STS induced astrocytic differentiation of human neural progenitor cells (NT-2/D1). We found that STS-treated NT-2/D1 cells expressed astrocyte-specific glial fibrillary acidic protein (GFAP), aspartate transporter, and glutamate transporter-1 with a distinctive astrocytic morphology. STS treatment increased GFAP promoter activity and increased expression and secretion of APP in NT-2/D1 cell culture. Overexpressed APP enhanced GFAP promoter activity and expression of GFAP, while gene silencing of APP by RNA interference decreased GFAP expression. These results indicate involvement of APP in STS induced astrocytic differentiation of NT-2/D1 cells. Furthermore, suppression of ERK1/2 phosphorylation, which is known to regulate APP expression by a MEK1 inhibitor, PD098059, reduced both APP and GFAP expression in STS treated NT-2/D1 cells. Thus, STS may induce astrocytic differentiation of NT-2/D1 by increasing APP levels associate with activation of ERK pathway.     

Inhibition of sodium butyrate-induced apoptosis in recombinant Chinese hamster ovary cells by constitutively expressing antisense RNA of caspase-3

Sodium butyrate (NaBu) can enhance the expression of genes controlled by some of the mammalian promoters, but it can also inhibit cell growth and induce cellular apoptosis. Thus, the beneficial effect of using a higher concentration of NaBu on a foreign protein expression is compromised by its cytotoxic effect on cell growth. To overcome this cytotoxic effect of NaBu, the expression vector of antisense RNA of caspase-3 was constructed and transfected to recombinant Chinese hamster ovary (rCHO) cells producing a humanized antibody. Using this antisense RNA strategy, rCHO cells (B3) producing a low level of caspase-3 proenzyme were established. When batch cultures of both B3 cells and control cells transfected with antisense RNA-deficient plasmid were performed in the absence of NaBu, both cells showed similar profiles of cell growth and antibody production. Compared with control cell culture, under the condition of 5 mM NaBu addition at the exponential growth phase, expression of antisense RNA of caspase-3 significantly suppressed the NaBu-induced apoptosis of B3 cells and extended culture longevity by >2 days if the culture was terminated at cell viability of 50%. However, compared with control cell culture, the final antibody concentration of B3 cell culture was not increased in the presence of NaBu, which may be due to the loss of cellular metabolic capability resulted from the depolarization of mitochondrial membrane. Taken together, this study suggests that, although expression of antisense RNA of caspase-3 does not improve antibody productivity of rCHO cells, it can suppress NaBu-induced apoptotic cell death of rCHO cells and thereby may reduce problems associated with cellular disintegration.     

Histone deacetylase inhibitors induce apoptosis in peripheral blood lymphocytes along with histone H4 acetylation and the expression of the linker histone variant, H1 degrees

The results of this study show that H1 degrees can be induced by sodium butyrate and trichostatin A in peripheral blood lymphocytes, a cell system which does not normally express this linker histone variant. Moreover, this induced expression was found to be correlated in a dose-dependent manner with the concomitant induction of apoptosis and increased levels of histone H4 acetylation. Sodium butyrate and trichostatin A, both inhibitors of histone deacetylases, are known to induce terminal differentiation and at the same time the induction of the linker histone variant, H1 degrees, in a number of tissue/cell systems. Moreover, aside from induced expression by histone deacetylase inhibitors, H1 degrees gene expression has also been tightly associated with the process of terminal differentiation in many physiological tissue/cell systems. The concomitant induction of H1 degrees expression along with apoptosis and histone acetylation in the same cell system has not been previously reported. Histone acetylation is known to be involved in chromatin remodelling events. Such events also occur during apoptosis. The association of H1 degrees gene expression with apoptosis, and not with differentiation in these cells, leads to more general implications as to a potential functional role of H1 degrees during chromatin remodelling.     

A cell line of human malignant astrocytoma producing autocrine growth factor

Summary A cell line was established from an anaplastic astrocytoma from a 69-yr-old female. The cells have been serially subcultured over 300 times for 6 yr without showing any sign of cell senescence. Their doubling time is about 36 h. The cells are fusiform and often hexagonal in sparse culture, but become spindle-shaped and formed mosaic structure in confluent culture. Under electron microscopy, intermediate filaments were randomly distributed in the cytoplasma, especially in the perinuclear space. The chromosome number was near tetraploid and varied from 86 to 94 chromosomes with a modal number of 91. The alpha and beta subunits of S-100 protein, vimentin, and glial fibrillary acidic protein (GFAP), which are reliable markers of astrocytic cells, were demonstrated in a large number of cells by immunoperoxidase staining. The results of immunoblotting showed that the expression of vimentin was much higher than that of GFAP. The tumorigenicity of the cells was revealed by xenografting into nude mice, which were X-irradiated before inoculation. Culture medium conditioned by the cells promoted growth of these cells in serum-free conditions and of normal rat glial cells in serum-depleted culture. The growth-promoting effect of conditioned medium was lost by trypsinization and reduced by boiling. These findings suggest that these cells are derived from neoplastic astrocytic cells and secrete a self-acting polypeptide growth-promoting factor into the culture medium. This study was supported in part by a Grant-in-Aid for Scientific Research from the Ministry of Education, Science, and Culture of Japan.     

DISRUPTION OF CELL—CELL ADHESION IN THE PRESENCE OF SODIUM BUTYRATE ACTIVATES EXPRESSION OF THE 92kDa TYPE IV COLLAGENASE IN MDCK CELLS

We have investigated the effects of altered cell shape on the regulation of the 92kDa type IV collagenase. In MDCK cells, anti-E-cadherin antibodies alter cell shape by disrupting normal cell—cell contacts, while sodium butyrate causes a marked flattening and spreading of cells. The disruption of cell—cell contacts led to a faint expression of the 92kDa collagenase. This effect was enhanced by sodium butyrate, which by itself did not induce collagenase expression. In contrast, stromelysin expression was not regulated in these conditions. Although mRNA expression was enhanced, the secreted collagenase activity was not altered in these conditions in either cell line. Examination of cytoskeletal and extracellular matrix proteins and cell—cell and cell—matrix adhesion proteins by immunofluorescence and Western blot revealed a disruption of the actin network, tight junctions, and fibronectin deposition by anti E-cadherin antibodies, and alterations in actin, cytokeratin 8, cytokeratin 14, laminin and β1 integrin induced by sodium butyrate. Thus, the induction of collagenase expression in epithelial cells by disrupted cell—cell adhesion and sodium butyrate is associated with changes in cell shape and structure.     

Sodium butyrate induced keratinocyte apoptosis

Apoptosis of keratinocytes is a key mechanism required for epidermal homeostasis and the renewal of damaged cells. Its dysregulation has been implicated in many skin diseases including cancer and hyperproliferative disorders. In the present study, the effect of sodium butyrate, a histone deacetylase inhibitor, on keratinocyte apoptosis was investigated using the HaCaT human keratinocyte cell line. Sodium butyrate induced morphological changes associated with apoptosis and nuclear fragmentation of HaCaTs. Annexin V staining demonstrated that sodium butyrate induced apoptosis in a dose and time-dependent manner with 50% of HaCaTs apoptotic after exposure to 0.8 mg/ml sodium butyrate for 24 h. Apoptosis was associated with upregulation of cell surface expression of the death receptor Fas and activation of the extrinsic caspase pathway, with induction of caspase 8 activity peaking after 8 h. Caspase 3 activity peaked after 24 h and was associated with cleavage of the caspase 3 substrate, poly (ADP-ribose) polymerase (PARP). The intrinsic caspase pathway was not activated as caspase 9 activity was not detected, and there was no change in the expression of terminal differentiation markers keratin 10 and involucrin following sodium butyrate treatment. Together these results indicate that sodium butyrate is a potent inducer of Fas associated apoptosis via caspase activation in HaCaT keratinocytes, an effect that is independent of the induction of terminal differentiation.     

Sodium butyrate induces apoptosis and cell cycle arrest in primary effusion lymphoma cells independently of oxidative stress and p21CIP1/WAF1 induction

Primary effusion lymphoma, a peculiar type of B cell non-Hodgkin lymphoma, preferentially develops in immunodeficient individuals and its pathogenesis is closely linked with human herpesvirus 8 (HHV-8). HHV-8 is present primarily persistence in primary effusion lymphoma cells, and the lytic cycle of HHV-8 can be induced by sodium butyrate (NaB) treatment. HHV-8 gene expression is affected by NaB in BCBL-1 cells, but the cellular response of BCBL-1 cells upon NaB treatment has not been investigated to date. Using BCBL-1 cells, a HHV-8 harboring cell line, we demonstrated that sodium butyrate could induce the reactive oxygen species generation, apoptosis and cell cycle arrest in BCBL-1 cells. The sodium butyrate-induce cell cycle arrest was associated with the decrease of Cdc2, Cdk4 and cyclin A in BCBL-1 cells without altering the protein levels of p21^CIP1/WAF1. The apoptosis induced by sodium butyrate in BCBL-1 cells was independent of oxidative stress. (Mol Cell Biochem xxx: 1–9, 2005)     

RNA interference-mediated silencing of focal adhesion kinase inhibits growth of human malignant glioma xenograft in nude mice

FAK (focal adhesion kinase), which plays a pivotal role in mediating cell proliferation, survival and migration, is frequently overexpressed in human malignant glioma. The expression of FAK increases with the advance of tumour grade and stage. Based on these observations, we hypothesized that attenuation of FAK expression may have inhibitory effects on the growth of malignant glioma. In the present study, human glioma cell line U251 was transfected with plasmids containing U6 promoter-driven shRNAs (small-hairpin RNAs) against human FAK using cationic liposome. The effects of FAK knockdown in U251 cells in vitro were analysed by using flow cytometry and PI (propidium iodide)-staining assays. Based on the encouraging in vitro results with FAK silencing, plasmids encoding FAK-targeted shRNA were encapsulated by DOTAP (dioleoyltrimethylammonium propane):Chol (cholesterol) cationic liposome and injected via tail vein to evaluate its therapeutic efficiency on suppressing tumour growth in a human glioma xenograft model. PCNA (proliferating-cell nuclear antigen), CD34 immunostaining and TUNEL (terminal deoxynucleotidyl transferase-mediated dUTP nick-end labelling) assay were used to assess the changes in tumour angiogenesis, apoptosis and proliferation respectively. The results indicated that DOTAP:Chol cationic liposome could deliver therapeutic plasmids systemically to tumour xenografts, resulting in suppression of tumour growth. Treatment with plasmid encoding FAK-targeted shRNA reduced mean tumour volume by approx. 70% compared with control groups (P<0.05), accompanied with angiogenesis inhibition (P<0.05), tumour cell proliferation suppression (P<0.05) and apoptosis induction (P<0.05). Taken together, our results demonstrated that shRNA-mediated silencing of FAK might be a potential therapeutic approach against human malignant glioma.     

The relationship of glial fibrillary acidic protein to the shape,motility, and differentiation of human astrocytoma cells

Glial fibrillary acidic protein (GFAP), a protein largely limited to astrocytes, was studied in relation to the shape, motility, and differentiation and malignancy of astrocytoma cells in tissue culture by use of time-lapse photography and the immunoperoxidase method.A relationship was observed between the shape of astrocytes and the distribution of GFAP. Spindle-shaped cells showed abundant GFAP in the cell body and processes. In round or polyhedral cells without well developed processes the GFAP was largely perinuclear. As processes developed, GFAP extended out from the nucleus iri dense parallel arrays that radiated into the developing processes. Fully differentiated cells with stellate shape had abundant GFAP throughout.A relationship was also observed between the motility of astrocytes and GFAP. Stellate-shaped cells, showing paucity of locomotion and relatively rigid postures of processes, contained an abundance of GFAP which tended to form dense parallel arrays extending into the processes during their development. Spindle-shaped cells with extending and retracting processes and active migration also contained an abundance of GFAP but not organized into parallel arrays. Bulbous dilatations at the tips of processes (growth cones) contained abundant GFAP. There was also abundant GFAP in the intermittent dilatations along the processes of stellate cells. In contrast to these observations, a retraction of processes, a high degree of plasticity (undulating motion) and multidirectional locomotion were often associated with a paucity of GFAP in less differentiated cells. We hypothesize that GFAP filaments may be inhibitory to great plasticity of motion but not to extension-retraction movements.During mitosis GFAP was sparse at the spindle and in intercellular bridges. Colcemid caused GFAP to disappear from processes and peripheral parts of the cell and to become concentrated near the nucleus.In cultures derived from malignant tumors, undifferentiated and large multinucleated cells usually showed sparsity of GFAP, but occasional well differentiated stellate or spindle-shaped cells containing abundant GFAP were seen. Conversely, although cultures derived from benign tumors may have scattered less well differentiated cells, the differentiated cells with well developed processes were most densely stained and account for the high concentration of GFAP in tissue from these tumors.     

Intercellular contacts of astroglial cells in vitro in the presence of PGE2. SEM, TEM and immunocytochemical studies

The investigations were performed on 32 tumors of the CNS of fibrillary and gemistocyte type of astrocytoma from which the cultures were derived. The dissociated culture was used and the cells were seeded direct on glass. The MEM was supplemented with calf serum and embryonal extract. The cells maintained in culture for 21 days. They developed multiple or single long and delicate processes which originated a network of relative high density. SEM observations indicate that the cell established intercellular connections through spikes and surfaces of the processes and cell bodies. TEM studies have shown that the cell to cell connections are very tight but the contacts between the cell processes are similar to those described by DUFFY as punctate connections. The addition of PGE2 does not disturb the reconstruction of intercellular communication. The estimation of GFAP antigenicity of the investigated cells proved their astrocytic origin and revealed that the intermediate fibres are in the cell processes, and in the location of the contacts between cells.     

Effect of sodium butyrate on S-100 protein levels and the cAMP response

Sodium butyrate (NaB), when added to cell cultures, produces a variety of morphological and biochemical changes. We examined its effects, in nM concentrations, on the expression of two glioma cell-associated proteins, glial fibrillary acidic protein (GFAP) and S-100 protein in human glioma-derived cell line (RF), and of S-100 protein in the C6 rat glioma cell line. GFAP levels decreased by about 50% in the RF cell line, and S-100 protein levels decreased protein levels decreased by about 40% after treatment with 1 mM NaB for 48 h. In the C6 rat glioma cell line, isoproterenol with theophylline was found to increase S-100 levels by two-fold over basal levels. NaB was found to inhibit the induction of S-100 protein but exhibited no effect on the basal levels of the protein. Other short chain fatty acids, including sodium propionate and sodium isobutyrate, exhibited partial inhibitory activity. NaB, at an EC50 of 1 mM, was also found to inhibit both the beta-adrenergic and the forskolin-mediated increase in cAMP levels in these cells. This suggests that NaB may inhibit cells from expressing S-100 protein by attenuating cAMP levels.