Programmed cell death in neurotumour cells involves the generation of ceramide

Ceramide has been typically thought of as the membrane anchor for the carbohydrate in glycosphingolipids but many studies have suggested that it may cause apoptosis. Apoptosis or programmed cell death (PCD) is thought to be responsible for the death of one-half of neurons surviving the development of the nervous system. The potential involvement of the sphingomyelin-ceramide signaling process as an integral part of PCD was therefore examined in several neurotumour cell lines. We show that synthetic C2-ceramide (N-acetylsphingosine), a soluble ceramide analogue, can rapidly trigger PCD in these cells, characterized by: 1) classic DNA laddering on agarose gels; 2) DNA fragmentation as determined by Hoechst Dye; and 3) cell viability (mitochondrial function and intact nuclei) assays. We report that staurosporine can both activate PCD (by all three criteria above) in neurotumour cells and increase both the formation of ceramide and ceramide mass. Both ceramide formation and the induction of PCD were further enhanced by the co-addition of a ceramidase inhibitor oleoylethanolamine (25 µM). Staurosporine and oleoylethanolamine were similarly effective in inducing ceramide formation and PCD in immortalized hippocampal neurons (HN-2) and immortalized dorsal root ganglion cells (F-11). Our data suggests that formation of ceramide is a key event in the induction of PCD in neuronally derived neurotumour cells.Abbreviations PCD programmed cell death - PKC protein kinase C - HPTLC high-performance thin-layer chromatography - DETAPAC diethylenetriaminepentaacetic acid - DMEM Dubelco's modified Eagle's medium - FCS fetal calf serum - PBS phosphate-buffered saline - DAG diacylglycerol - DDI distilled-deionized - Cer ceramide - SM sphingomyelin Dedicated to Dr Sen-itiroh Hakomori in celebration of his 65th birthday.     

一株海洋链霉菌MMHS020的抗菌活性代谢产物

【背景】海洋微生物因其生存环境的多样性与独特性,已成为天然产物研究的重要来源。【目的】以一株太平洋海泥来源链霉菌MMHS020为出发菌株,筛选可促进其产生丰富代谢产物的发酵条件,挖掘菌株在抗菌抗肿瘤方面的潜力。【方法】采用单菌株多次级代谢产物策略对MMHS020菌株进行培养诱导,使其产生更丰富的活性代谢产物。双层平板法测定发酵产物对6种指示菌的抑菌活性。以硅胶柱层析、葡聚糖凝胶层析和制备层析等方法对代谢产物进行分离纯化,再通过质谱技术和~1H-NMR和~(13)C-NMR对化合物进行结构解析。【结果】链霉菌属MMHS020菌株可在较高浓度盐离子环境中产生丰富的抑菌活性代谢产物,显示出对枯草芽孢杆菌、结核分枝杆菌和藤黄微球菌等多种指示菌的抑制活性。从发酵产物中分离鉴定了3个化合物,分别是诺卡胺素(1)、麦角甾醇(2)和星形孢菌素(3)。其中星形孢菌素表现出白色念珠菌的抑制活性,而诺卡胺素则对其他几个指示菌表现出较强的抑制活性。【结论】海洋链霉菌MMHS020菌株可代谢产生丰富多样的生物活性物质,具有开发成为新型抑菌生物制剂的潜力。     

Cathepsin L silencing enhances arsenic trioxide mediated in vitro cytotoxicity and apoptosis in glioblastoma U87MG spheroids

Despite improved treatment options, glioblastoma multiforme (GBM) remains the most aggressive brain tumour with the shortest post-diagnostic survival. Arsenite (As₂O₃) is already being used in the treatment of acute promyelocytic leukaemia (APL), yet its effects on GBM have not been evaluated in detail. In U87MG cell monolayers, we have previously shown that arsenite cytotoxicity significantly increases upon transient inhibition of lysosomal protease Cathepsin L (CatL). As multicellular spheroids more closely represent in vivo tumours, we aimed to evaluate the impact of permanent CatL silencing on arsenite treatment in U87MG spheroids. CatL was stably silenced using shRNA expression plasmid packed lentiviruses. By using metabolic- and cell viability assays, we demonstrated that long-term CatL silencing significantly increased arsenite cytotoxicity in U87MG spheroids. Silenced CatL also increased arsenite-mediated apoptosis in spheroids via elevated p53 expression, Bax/Bcl2 ratio and caspase 3/7 activity, though with lower efficacy than in monolayers. Arsenite cytotoxicity was enhanced by lower CatL activity, since similar cytotoxicity increase was also observed using the novel CatL inhibitor AT094. The results have significant translational impact, since stable CatL silencing would enable the application of lower systemic doses of arsenite to achieve the desired cytotoxic effects on GBMs in vivo.     

Signal transduction in blue light‐induced oxygen uptake in Chlorella cells

In DCMU‐poisoned wild‐type and in non‐photosynthetic pigment mutant cells of Chlorella kessleri , grown heterotrophically with glucose as a carbon source and with nitrate as sole nitrogen source, the known blue light‐enhanced uptake of oxygen and breakdown of starch were reduced by staurosporine and K252a, both potent inhibitors of protein kinase C. This corresponded to sensitivity to these inhibitors of blue light‐induced uptake of nitrate of such organisms. Cells grown with ammonia as sole nitrogen source responded to short wavelength visible irradiation with an increase in oxygen uptake, and this, too, was inhibited by staurosporine and K252a. However, these cells did not show any blue light‐enhanced uptake of nitrate. From these results, enhanced consumption of oxygen under blue light cannot be a consequence of blue light‐induced protein phosphorylation involved in the light‐dependent uptake of nitrate. However, existence of a specific protein phosphorylation within the process of enhancement of oxygen uptake under blue light is not yet proven by the data. There might be a master reaction that induces both processes independently, or there may be influences of other light‐induced processes which lead to enhanced starch breakdown, thereby supplying the glucose for oxidative degradation.     

Kinetics of apoptotic markers in exogeneously induced apoptosis of EL4 cells

We investigated the time-dependence of apoptotic events in EL4 cells by monitoring plasma membrane changes in correlation to DNA fragmentation and cell shrinkage. We applied three apoptosis inducers (staurosporine, tubericidine and X-rays) and we looked at various markers to follow the early-to-late apoptotic events: phospholipid translocation (identified through annexin V-fluorescein assay and propidium iodide), lipid package (via merocyanine assay), membrane fluidity and anisotropy (via fluorescent measurements), DNA fragmentation by the fluorescence-labeling test and cell size measurements. The different apoptotic inducers caused different reactions of the cells: staurosporine induced apoptosis most rapidly in a high number of cells, tubercidine triggered apoptosis only in the S phase cells, while X-rays caused a G2/M arrest and subsequently apoptosis. Loss of lipid asymmetry is promptly detectable after one hour of incubation time. The phosphatidylserine translocation, decrease of lipid package and anisotropy, and the increase of membrane fluidity appeared to be based on the same process of lipid asymmetry loss. Therefore, the DNA fragmentation and the cell shrinkage appear to be parallel and independent processes running on different time scales but which are kinetically inter-related. The results indicate different signal steps to apoptosis dependent on inducer characteristics but the kinetics of "early-to-late" apoptosis appears to be a fixed program.     

Involvement of chloroplasts in the programmed death of plant cells

The effect of cyanide, an apoptosis inducer, on pea leaf epidermal peels was investigated. Illumination stimulated the CN^–-induced destruction of guard cells (containing chloroplasts and mitochondria) but not of epidermal cells (containing mitochondria only). The process was prevented by antioxidants (-tocopherol, 2,5-di-tret-butyl-4-hydroxytoluene, and mannitol), by anaerobiosis, by the protein kinase C inhibitor staurosporine, and by cysteine and serine protease inhibitors. Electron acceptors (menadione, p-benzoquinone, diaminodurene, TMPD, DCPIP, and methyl viologen) suppressed CN^–-induced apoptosis of guard cells, but not epidermal cells. Methyl viologen had no influence on the removal of CN^–-induced nucleus destruction in guard cells under anaerobic conditions. The light activation of CN^–-induced apoptosis of guard cells was suppressed by DCMU (an inhibitor of the electron transfer in Photosystem II) and by DNP-INT (an antagonist of plastoquinol at the Q_o site of the chloroplast cytochrome b ₆ f complex). It is concluded that apoptosis initiation in guard cells depends on the simultaneous availability of two factors, ROS and reduced quinones of the electron transfer chain. The conditions for manifestation of programmed cell death in guard and epidermal cells of the pea leaf were significantly different.     

Protein kinase activation and protein phosphorylation in Naegleria fowleri amebae in response to normal human serum

Activation of signal transduction pathways in response to serum complement in Naegleria fowleri amebae was investigated. We examined the activation of protein kinases and changes in the phosphorylation state of proteins in N. fowleri stimulated by normal human serum (NHS). To determine differences in phosphorylation of proteins when amebae were exposed to NHS or heat inactivated serum (HIS) lacking complement, amebae were labeled with [32P] orthophosphate. An increase in phosphorylation of relatively low molecular weight proteins was noted in N. fowleri incubated in NHS with a concomitant decrease in phosphorylation of high molecular mass polypeptides. To investigate whether serine/threonine or tyrosine kinases were stimulated by NHS, amebae were treated with protein kinase inhibitors H7, staurosporine or genistein, prior to serum exposure and examined for susceptibility to complement. Treatment with each of these inhibitors resulted in increased complement lysis. Incubation of N. fowleri with genistein specifically inhibited tyrosine phosphorylation of proteins stimulated by NHS. A tyrosine kinase activity assay using exogenous polyGlu-Tyr substrate demonstrated differential activation of tyrosine kinases in amebae treated with NHS when compared to treatment with HIS. The results suggest that activation of protein kinases and subsequent protein phosphorylation are important in mediating complement resistance in N. fowleri.     

Induction of apoptosis by gemcitabine in BG-1 human ovarian cancer cells compared with induction by staurosporine, paclitaxel and cisplatin

A variety of chemotherapeutic agents induce cell death via apoptosis. We had shown previously that gemcitabine (2,2-difluorodeoxycytidine) induced an atypical apoptosis in BG-1 human ovarian cancer cells; therefore, further studies were conducted to characterize more precisely gemcitabine-induced apoptosis in BG-1 cells compared to a general inducer of apoptosis, staurosporine. BG-1 cells exposed to 0.5, 1.0 and 10 M gemcitabine for 8 h, or staurosporine (1.0 M) for 6 h, exhibited high molecular weight DNA fragmentation (50 kbp); however, only staurosporine treatment produced internucleosomal DNA fragments (200 bp) in a laddered pattern on the agarose gel. Staurosporine (1.0 M) rapidly induced phosphatidylserine plasma membrane translocation that increased linearly with time as measured by annexin V-FITC binding, and similar kinetics were observed for caspase activation by staurosporine in BG-1 cells. In contrast, 10 M gemcitabine increased phosphatidylserine expression in a small fraction of cells (5–10%) vs. untreated controls over the course of 48 h and significant caspase activity was detected within 12 h of drug exposure. Time-lapse video microscopy of BG-1 cells exposed to 1.0 M staurosporine or 10 M gemcitabine for up to 72 h showed that the morphologic changes and kinetics of cell death induced by these agents differed significantly. We also evaluated the apoptosis induced by paclitaxel (a mitotic poison) and cisplatin (an agent not dependent on cell cycle functions) in BG-1 cells by these methods because these drugs are used clinically to treat ovarian cancer. Our findings demonstrate that the kinetics of apoptotic cell death induced by gemcitabine and other chemotherapeutic agents should be taken into account when designing treatment strategies for ovarian cancer.