Early detection of staurosporine-induced apoptosis by comet and annexin V assays

Comet, TUNEL, and annexin V assays were used to identify DNA fragmentation and plasma membrane alterations occurring during staurosporine-induced apoptosis in Chinese hamster ovary cells. TUNEL assay detected apoptotic cells after 6 h treatment. The occurrence of annexin V immunofluorescence staining after 1 h treatment confirms that exposure of phosphatidylserine (PS) residues is an early biochemical feature of apoptosis. According to intensity, three annexin staining patterns were distinguished, related to different steps in the apoptotic process. The detection of highly damaged cells by the comet assay after 3 h treatment occurred earlier than the detection of DNA modifications by the TUNEL assay, but later than the exposure of PS residues. However, late apoptotic cells, otherwise characterized by plasma membrane disruption and high annexin V staining, were not detected by the comet assay. In this case, comet assay modified by omitting electrophoresis (halo assay) was more sensitive for an accurate quantification of the apoptotic fraction. Accepted: 2 June 1999     

Analysis of radiation-induced apoptosis in human lymphocytes: flow cytometry using Annexin V and propidium iodide versus the neutral comet assay

BACKGROUND: The neutral comet assay was devised to measure double-stranded DNA breaks, but it has also been used to measure apoptosis based on its characteristic DNA fragmentation patterns. There is still uncertainty about the reliability of this method. By comparing the comet assay with a flow cytometry method that uses Annexin V binding to apoptotic cells, we have provided further evidence for evaluating the usefulness of the comet assay for detecting apoptosis. METHODS: Apoptosis was induced in human peripheral blood mononuclear cells (PBMC) by ionizing radiation and measured using the comet assay and a flow cytometry method that measures Annexin V and propidium iodide (PI) staining. RESULTS: The Annexin V flow cytometry assay distinguished among early apoptosis, late apoptosis, and an apoptotic or necrotic phase in which the cells were labeled with both Annexin V and PI. The comet assay detected only the latter two phases of apoptosis. CONCLUSIONS: The comet assay is a useful tool for measuring the late stages of apoptosis whereas the Annexin V assay measures higher amounts of apoptosis because it can detect cells in an earlier stage of the apoptotic pathway.     

Comparison of comet assay, electron microscopy, and flow cytometry for detection of apoptosis.

Differentiating apoptosis from necrosis is a challenge in single cells and in parenchymal tissues. The techniques available, including in situ TUNEL (Terminal deoxyribonucleotide transferase-mediated dUTP-X Nick End-Labeling) staining, DNA ladder assay, and flow cytometry, suffer from low sensitivity or from a high false-positive rate. This study, using a Jurkat cell model, initially evaluated the specificity of the neutral comet assay and flow cytometry compared to the gold standard, electron microscopy, for detection of apoptosis and necrosis. Neutral comet assay distinguished apoptosis from necrosis in Jurkat cells, as evidenced by the increased comet score in apoptotic cells and the almost zero comet score in necrotic cells. These findings were consistent with those of electron microscopy and flow cytometry. Furthermore, using rats with burn or ischemia/reperfusion injury, well-established models of skeletal and cardiac muscle tissue apoptosis, respectively, we applied the comet assay to detect apoptosis in these muscles. Neutral comet assay was able to detect apoptotic changes in both models. In the muscle samples from rats with burn or ischemia-reperfusion injury, the comet score was higher than that of muscle samples from their respective controls. These studies confirm the consistency of the comet assay for detection of apoptosis in single cells and provide evidence for its applicability as an additional method to detect apoptosis in parenchymal cells.     

Measurement of DNA damage associated with apoptosis by laser scanning cytometry.

BACKGROUND: Phosphatidylserine (PS) binding by annexin V (AV) is an early membrane marker of apoptosis. Using laser scanning cytometry (LSC) and the comet assay, we showed that the DNA of AV(+) cells is so highly fragmented that it cannot be quantified by the comet assay (Bacso et al.: Cancer Res 60:4623-8, 2000). METHODS: The "halo" assay was used instead of the comet assay to quantify DNA damage associated with apoptosis. The LSC was used to measure both AV fluorescence and DNA damage on the same Jurkat cells following treatment with anti-Fas. The data from both sets of measurements were merged, allowing direct correlation of membrane and nuclear markers of cell death. RESULTS: AV(+) cells had significant DNA damage determined by the ratio between nuclear DNA and peripheral (migrated) DNA. Cells in the early and late stages of apoptosis could be discriminated on the basis of DNA content. In addition, it was possible to distinguish between apoptotic and necrotic cells in the AV(+) propidium iodide-positive population based on DNA content and DNA damage. The addition of specific inhibitors for caspases-8, 9, and 3 blocked both PS externalization and DNA fragmentation, indicating these events are downstream from caspase activation. CONCLUSIONS: This technique allows accurate distinction between apoptotic and necrotic cells and cytometric grading of apoptosis.     

Quantitative image based apoptotic index measurement using multispectral imaging flow cytometry: a comparison with standard photometric methods

Morphological characterization by microscopy remains the gold standard for accurately identifying apoptotic cells using characteristics such as nuclear condensation, nuclear fragmentation, and membrane blebbing. However, quantitative measurement of apoptotic morphology using microscopy can be time consuming and can lack objectivity and reproducibility, making it difficult to identify subtle changes in large populations. Thus the apoptotic index of a sample is commonly measured by flow cytometry using a variety of fluorescence intensity based (photometric) assays which target hallmarks of apoptosis with secondary markers such as the TUNEL (Terminal Deoxynucleotide Transferase dUTP Nick End Labeling) assay for detection of DNA fragmentation, the Annexin V assay for surface phosphatidylserine (PS) exposure, and fluorogenic caspase substrates to detect caspase activation. Here a novel method is presented for accurate quantitation of apoptosis based on nuclear condensation, nuclear fragmentation, and membrane blebbing using automated image analysis on large numbers of images collected in flow by the ImageStream multispectral imaging cytometer. Additionally the measurement of nuclear fragmentation correlates with the secondary methods of detection of apoptosis over time, indicating that it is also an early marker for apoptosis. False-positive and false-negative events associated with each photometric flow cytometry based method are quantitated and can be automatically removed/included where appropriate. Acquisition of multi-spectral imagery on large numbers of cells couples the quantitative advantage of flow cytometry with the accuracy of morphology-based algorithms allowing more complete and robust analysis of apoptosis.     

Detection by the comet assay of apoptosis induced in lymphoid cell lines after growth factor deprivation

Dysregulation of apoptosis contributes to various diseases such as neurodegenerative or aging disorders, autoimmune syndromes or cancers. Numerous experimental paradigms have been explored to characterize molecular and cellular modulators of apoptosis. Similarly, numerous techniques have been described for detecting and/or quantifying accurately cells committed to apoptosis. Besides the conventional techniques, we describe in this report that the comet assay, which detects DNA single- and double-strand breaks in situ, at the cellular level, is relevant for the characterization of apoptotic cells. The comet assay is very sensitive and detects DNA fragmentation occurring in the apoptotic process as early as exposure of phosphatidylserine residues on the outer leaflet. Thus the comet assay can be used for the recognition of apoptosis that follows the death signal caused, for example, by genotoxic stress as well as lack of survival signal as in growth factor deprivation.     

Time-dependent effects of sodium arsenite on DNA breakage and apoptosis observed in the comet assay

To assess genotoxic effects of sodium arsenite (NaAsO2) the single-cell gel electrophoresis (comet assay) had been conducted in various studies indicating genotoxicity. However, DNA fragmentation due to NaAsO2-induced apoptosis may constitute a bias in the interpretation of the results. Apoptotic cells can show typically large and diffuse comets, which are usually excluded during genotoxicity analysis. It is controversial whether there is a time-window in which the apoptotic process generates comets that would falsely be interpreted to be the result of genotoxic DNA damage. Therefore, we evaluated frequency histograms for single-cell measures of tail DNA (% DNA in comet tail) in 30-min intervals after incubation of mouse lymphoma L5178Y cells with sodium arsenite (NaAsO2). In parallel, we evaluated apoptosis by measuring annexin V-positive cells with flow cytometry, and visualized apoptotic cells on slides by Hoechst bisbenzimide 33258 staining. The first observed effect at 30 min after treatment was an increase in annexin V-positive cells. At about 60 min the number of cells with moderate DNA migration increased in the comet-assay analysis. After 90 min, an increase in the number of cells with high levels of DNA migration was observed, which resulted in a bimodal distribution of cells with moderate and high levels of DNA migration. Hoechst-stained apoptotic cells could only be observed at later times (> or = 120 min). This means that the treatment would have been considered to be genotoxic if analysed at 120 min even if the cells with high levels of DNA migration would have been excluded. The occurrence of annexin V-positive cells preceded the appearance of cells with moderate levels of DNA migration. We hypothesize that these cells were early apoptotic cells and not indicative of genotoxic damage. We conclude that DNA-damaging effects of NaAsO2 cannot adequately be interpreted if the comet assay is not accompanied by separate analysis of early endpoints for induction of apoptosis.     

DNA damage and repair in human peripheral blood lymphocytes following treatment with microcystin-LR

The purpose of this study was to find a possible explanation of the inconsistency of data regarding the genotoxicity of microcystin-LR (MC-LR). We compared the results of the comet assay with the results of the analysis of chromosome aberrations and apoptosis. In order to investigate the influence of MC-LR on DNA damage in human lymphocytes, cells were treated with MC-LR at different concentrations (1, 10 and 25 microg/ml) for 6, 12, 18 and 24 h. Analyses of Olive Tail Moment (OTM) as an indicator of DNA damage showed that MC-LR treatment induced DNA damage in a time-dependent manner, reaching its maximum after 18 h. The lowest values of OTM were observed after 24 h. MC-LR had no effect on the frequency of chromosome aberrations in lymphocytes. Since some data available in the literature indicate that apoptosis may lead to overestimated or false positive results regarding the genotoxicity of mutagens in the comet assay, we measured the frequency of late apoptotic cells by use of the comet assay and the frequency of early apoptotic cells with the TUNEL method. The comet assay results revealed that the highest level of apoptosis was observed after 24 h and the lowest after 18 h. The comparison of the frequency of apoptotic cells determined by the comet assay with DNA damage (OTM) examined by the comet assay revealed a statistically significant, negative correlation. The TUNEL results showed that the frequency of apoptotic cells progressively increased in a dose- and time-dependent manner. The comparison of the frequency of apoptotic cells determined by TUNEL method with DNA damage (OTM) examined by the comet assay showed a significant positive correlation for lymphocytes treated with MC-LR for 6, 12 and 18 h. Therefore, our findings indicate that microcystin-LR-induced DNA damage observed in the comet assay may be related to the early stages of apoptosis due to cytotoxicity but not genotoxicity. In addition, we examined the DNA repair kinetics in lymphocytes following treatment with microcystin-LR and ionizing radiation. Our results indicate that MC-LR has an inhibiting effect on the repair of radiation-induced damage.     

江浙蝮蛇蛇毒蛋白诱导K562细胞调亡的研究

目的：研究江浙蝮蛇蛇毒蛋白诱导K562细胞调亡。方法：通过电镜观察蛇毒蛋白作用后K562细胞的形态变化;MTT检测蛇毒蛋白对细胞增值的影响,同时应用流式细胞仪检测细胞凋亡数及其对细胞周期的影响;采用琼脂糖凝胶电泳观测凋亡片断。结果：蛇毒蛋白作用K562细胞后,能显著抑制细胞增值;LC50为4．96μg／mL,电镜可观察到凋亡形态学改变;电泳呈现典型的阶梯状条带,流式细胞仪检测到凋亡峰。结论：江浙蝮蛇蛇毒蛋白可诱导K562细胞调亡。     

Caspase Activation Is an Early Event in Anthracycline-Induced Apoptosis and Allows Detection of Apoptotic Cells before They Are Ingested by Phagocytes

An increasing number of methods are being described to detect apoptotic cells. However, attempts to detect apoptotic cells in clinical samples are rarely successful. A hypothesis is that apoptotic cells are cleared from the circulation by phagocytosis before they become detectable by conventional morphological or cytometric methods. Using LR73 adhering cells as phagocytes in a model ofin vitrophagocytosis, we found that phagocytosis of daunorubicin (DNR)-treated U937, HL60, or K562 leukemia cell lines occurred prior to phosphatidylserine externalization, DNA hydrolysis, chromatin condensation, nuclear fragmentation, or mitochondrial potential alteration. Moreover DNR-treated K562 cells were eliminated by phagocytes while apoptosis was never observed by any of the above methods. By contrast, using a fluorometric batch analysis assay to detect caspase activity in ceramide- or DNR-treated cells (fluorogenic substrate for caspase), we found that caspase activity increased in apoptosis-committed cells before they were detected by flow cytometry or recognized by phagocytes. Similarly a caspase activity increase was detected in circulating mononuclear cells of leukemic patients 15 h after the beginning of anthracyclin treatment. We suggest that recent findings on enzymatic events (caspase activation) occurring in the early events of apoptosis must now allow the development of new markers for apoptosis, irrespective of the morphological features or internucleosomal fragmentation which are late events in apoptosis.     

Accurate apoptosis measurement requires quantification of loss of expression of surface antigens and cell fragmentation.

BACKGROUND: The use of ratiometric cell enumeration methods emerges as a more accurate method of measurement of the occurrence of apoptosis in cell cultures. These new flow cytometry methods were used to quantify the impact of cell fragmentation and loss of lineage antigen (LAg) expression on measurement of apoptosis. METHODS: Highly purified human lymphocyte populations were negatively sorted and cultured for 24 h. Apoptotic cells were identified using annexin V, 7-amino-actinomycin D and their LAgs were stained with antibodies. A new indicator, the apoptotic rate, was used to determine apoptosis occurrence and its validity compared with the widely accepted percentage of apoptotic cells (apoptotic index, AI). RESULTS: Loss of LAg expression and cell fragmentation were observed under all conditions assayed and for all cell populations studied. CONCLUSIONS: Current methods for quantifying of apoptosis involving AI systematically underestimate apoptosis occurrence in all populations and conditions, especially among cells undergoing spontaneous apoptosis.     

Assessment of cytogenetic damage in lymphocytes and in exfoliated nasal cells of dental laboratory technicians exposed to chromium,cobalt, and nickel

The alkaline comet assay is able to identify in individual cells DNA strand breaks associated with different processes. Topoisomerase inhibitors, some of which are used as chemotherapeutic agents, stabilise topoisomerase-DNA cleavable complexes by stimulating DNA strand cleavage and inhibiting religation. This can result in the activation of stress-associated signalling pathways, inducing cell cycle arrest and activation of the biochemical cascade of apoptosis. The aim of our study was to assess the ability of the comet assay to detect stabilisation of cleavable complexes and induction of apoptosis by two topoisomerase II inhibitors, etoposide and ellipticine, and two topoisomerase I inhibitors, camptothecin and topotecan. The study was carried out on Chinese hamster ovary (CHO) cells, DC3F cells and DC3F/C-10, its camptothecin-resistant counterpart. The comet assay was able to identify stabilised cleavable complexes through the presence of DNA strand breaks after 1h treatment that disappeared within 24h after drug removal. Kinetics studies allowed to discriminate between these early DNA damages and DNA fragmentation related to apoptosis characterised by reappearance of DNA strand breaks 48h after treatment.     

Apoptosis can be detected in attached colonic adenocarcinoma HT29 cells using annexin V binding, but not by TUNEL assay or sub-G0 DNA content

BACKGROUND: Induction of apoptosis in adherent cell lines is associated with cell loss from the substratum. In this study the adenocarcinoma cell line, HT29, treated with indomethacin (400microM) has been employed as a model system to demonstrate how flow cytometric analysis can be used to quantify the changes that occur during this process. METHODS: Adherent and floating cell populations have been analyzed independently for effects on cell number, cell cycle characteristics and apoptosis using TUNEL assay and Annexin V binding. In addition apoptosis has been assessed using DNA laddering and morphology. RESULTS: Apoptosis was detected in adherent cells treated with indomethacin using Annexin V binding but not by other techniques employed in this study. In contrast, analysis of "floating" cells revealed the presence of apoptotic cells both in control and indomethacin treated cells using all the techniques employed. However quantification by flow cytometry showed that a significantly higher proportion of control "floaters" were late apoptotic/necrotic rather than apoptotic. DISCUSSION: The data here illustrate the need to interpret measures of apoptosis in adherent cell lines with care and the value of using flow cytometric techniques in the quantitative evaluation of the process.     

A comparison of three flow cytometry methods for evaluating mitochondrial damage during staurosporine-induced apoptosis in Jurkat cells.

Measuring cytochrome c release during apoptosis provides valuable information about the nature and extent of apoptosis. Several years ago a flow cytometric method (based on selective permeabilization of the plasma membrane with digitonin) was developed that has advantages over other techniques. These experiments describe a comprehensive evaluation of that method. Apoptosis was triggered in Jurkat cells with staurosporine and then flow cytometry was used to measure three aspects of mitochondrial damage: (1) cytochrome c release (with the digitonin assay and a commercially available kit based on the same principle), using a DNA-binding dye to define cell cycle stage; (2) loss of mitochondrial cardiolipin, assessed by a decrease in 10 N-nonyl acridine orange (NAO) binding; and (3) loss of mitochondrial membrane potential, assessed by a decrease in tetramethylrhodamineethylester (TMRE) binding. The results from these three assays were compared with an antibody-based assay for cleaved caspase 3. The digitonin assay and the commercially available kit gave comparable results, showing that staurosporine caused cytochrome c release in all phases of the cell cycle and clearly defining those cells that had lost DNA due to internucleosomal DNA fragmentation. The pattern of fluorescence demonstrated that the mitochondrial apoptotic pathway was either the sole or the predominant pathway to be activated and that cytochrome c release in an individual cell was all-or-nothing. However, comparison with the other assays showed that the cytochrome c release assay underestimated the true extent of apoptosis. This was caused by the selective loss of some digitonin-treated apoptotic cells. The flow cytometry assay for cytochrome c release provides valuable information but it underestimates the percentage of apoptotic cells.     

Coffee-mediated protective effects against directly acting genotoxins and gamma-radiation in mouse lymphoma cells

The cytokinesis-block micronucleus test was performed using L5178Y mouse lymphoma cells to ascertain whether or not standard (caffeinated) instant coffee, the commonly consumed polyphenolic beverage with antioxidant activity can protect against chromosomal damage induced by the directly acting agents N-methyl-N-nitro-N-nitrosoguanidine (MNNG), mitomycin C (MMC), methyl methanesulfonate (MMS) and gamma radiation. Our results demonstrated significant reductions in the in vitro genotoxic effects of MNNG, MMC, and MMS following co-treatment of mouse lymphoma cells with standard instant coffee. Subsequently, the comet assay was carried out to assess the effect of coffee co-treatment on the level of DNA damage induced by MMS in mouse lymphoma cells. The results demonstrated a significant reduction in MMS-induced DNA damage following co-treatment with standard instant coffee. Protective effects were observed in mouse lymphoma cells which were treated with coffee immediately after exposure to gamma radiation (1 and 2 Gy). Another experiment showed protection when the mammalian cells were irradiated (0.5 and 1 Gy) midway (at 2 h) during a 4 h coffee treatment. However, the protective effect against the lower dose (0.5 Gy) was not significant. In addition we assessed the modulatory effect of coffee on MNNG-induced apoptotic frequency by flow cytometry. The results revealed only a minor influence of coffee on the frequency of apoptotic cells induced by the test compounds, rendering an increase in sensitivity for apoptosis as a reason for the reduced genomic damage an unlikely or at least incomplete explanation.     

Ganoderma lucidum total triterpenes prevent radiation-induced DNA damage and apoptosis in splenic lymphocytes in vitro

The development of radioprotective agents has been the subject of intense research, especially in the field of radiotherapy. In this study, we examined the radioprotective activity of the total triterpenes isolated from Ganoderma lucidum (Fr.) P. Karst in mouse splenic lymphocytes in vitro. Using the MTT assay, Ganoderma triterpenes were found to have no effect on cell viability, indicating that they are non-toxic to splenic lymphocytes. The effect of the total triterpenes on DNA damage and apoptosis induced by radiation was analyzed using the comet assay, DNA ladder assay and flow cytometric analysis. Total triterpenes were found to be highly effective in preventing DNA laddering, even at low concentrations (25μg/ml). The comet assay demonstrated that the G. triterpenes effectively prevented DNA damage, and flow cytometry revealed a reduction in apoptotic cells. The effect of the total triterpenes on intracellular reactive oxygen species (ROS) level and endogenous antioxidant enzyme activity in splenic lymphocytes were determined to elucidate possible radioprotective mechanisms. Total triterpenes successfully reduced the formation of intracellular ROS and enhanced endogenous antioxidant enzyme activity in splenic lymphocytes following irradiation. Thus, these findings indicate that the total triterpenes isolated from G. lucidum have a remarkable ability to protect normal cells from radiation-induced damage, which suggests therapeutic potential.     

Single-cell gel electrophoresis assay monitors precise kinetics of DNA fragmentation induced during programmed cell death.

BACKGROUND: Single-cell gel electrophoresis, or the comet assay, a technique widely used for DNA damage analysis, has been used recently for detecting DNA fragmentation in cells undergoing apoptosis. However, the number of variants of this assay used thus far primarily detected the late stages of DNA fragmentation. Therefore, monitoring the progression of DNA fragmentation, which could greatly improve the analysis of cell death induction and progression at the single-cell level, has not been possible with this assay. METHODS: In the present study, a modification of the original neutral comet assay developed by Ostling and Johanson (Biochem Biophys Res Commun 123:291-298, 1984) was used to detect various stages of DNA fragmentation. This assay involves cell lysis with anionic detergents at nearly neutral pH (9.5) and does not include high salt concentration, unlike most other published methods. BMG-1 human glioma cells were induced to undergo programmed cell death by treating with a large dose (100 microM) of etoposide, and comets were prepared after different durations (1-24 h) of treatment. RESULTS: In contrast to results of previously published studies, comets with different shapes reflecting progressive stages of DNA fragmentation were observed. Of these, six distinct shapes were identified and divided into three different categories based on the extent of fragmentation. Type A comets had a large head separated by a narrow "neck" region from an oval bulging tail that indicated initiation of fragmentation. Type B and C comets had a constantly diminishing head associated with a corresponding expansion of the tail and reflected intermediate and late stages of fragmentation, respectively. Type A and B comets appeared at a high frequency during early time points (1-6 h), whereas type C comets that indicated late stages of fragmentation were observed only after extended treatment (24 h). As a result, an elaborate kinetics of the progression of DNA fragmentation could be obtained. CONCLUSION: The present single-cell gel electrophoresis assay offers a significant improvement in monitoring the kinetics of DNA fragmentation induced during programmed cell death. Coupled with its simplicity and the ability to detect responses of small cell subpopulations, this method can be used for a reliable and sensitive analysis of the progression of cell death in different cell types and treatment conditions.     

Contribution of apoptosis to responses in the comet assay

Apoptosis, a physiological process of selected cell deletion, leads to DNA fragmentation in typical segments of 180 base pairs. DNA strand breaks are also an effect induced by genotoxic compounds. The aim of this study was to compare these two types of damaging potentials by a known genotoxic substance and an apoptosis-inducing agent in HT-29 colon adenocarcinoma cells. The cells were incubated for 24h with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), a potent DNA damage-inducing agent, staurosporine, an inhibitor of protein kinase C and apoptosis-inducing agent, and hydrogen peroxide, a source of reactive oxygen species. Apoptosis was measured with the Annexin V affinity assay which detects the translocation of phosphatidylserine (PS) from the inner to the outer leaflet of the cytoplasmic membrane, an early event in the apoptotic process. DNA damage as an end point of genotoxicity was detected by single cell microgel electrophoresis, also called "comet assay". The results show that apoptosis does not necessarily need to correlate or coincide with DNA damage observed with genotoxic substances in the comet assay. The representative apoptosis-inducing agent (staurosporine) did not induce strand breaks in the tested concentrations (0.5 and 1.0microM); genotoxic doses of the strand break inducing agent MNNG did not induce apoptosis. Therefore, the comet assay can be used as a specific test for detecting genotoxicity, and the results are not necessarily confounded by concomittant processes leading to apoptosis.     

Recombinant Galectins of <Emphasis Type="Italic">Haemonchus contortus</Emphasis> Parasite Induces Apoptosis in the Peripheral Blood Lymphocytes of Goat

The effect of Haemonchus contortus galectin peptides rHco-gal-m/f to induce apoptosis in the peripheral blood lymphocytes (PBLCs) of goats was investigated. Analysis of apoptosis was carried out with agarose gel electrophoresis, flow cytometry and transmission electron microscopy. The results indicated that there were visible apoptosis bodies and typical DNA ladders by genomic DNA fragmentation. The quantitative analysis of apoptosis by flow cytometry indicated that rHco-gal-m/f peptides induced apoptosis was time and dose dependent. Ultrastructural studies of the PBLCs revealed that a large number of apoptotic cells were present in galectin-treated cells, which had the typical morphologic changes of apoptosis such as reduction of the cytoplasmic volume, loss of cell surface microvilli, chromatin condensation and fragmentation of the apoptotic cells into small apoptotic bodies.     

Cytotoxicity and apoptosis induction of some selected marine bacteria metabolites

AIMS: To study the potential apoptosis effects of cytotoxic marine bacterial metabolites on human HeLa cell line. METHODS AND RESULTS: After HeLa cells were routinely cultured, tetrazolium-based colorimetric assay for cytotoxicity was performed to screen the marine bacteria extracts showing 12 strains active. To find the potential active strain with apoptosis mechanism, a battery of apoptosis assays, including AO/EB staining, TUNEL assay (terminal-deoxynucleotidyl transferase mediated nick end labelling), gel electrophoresis and flow cytometry, were used to determine whether apoptosis was involved in HeLa cell cytotoxicity of marine bacterial extracts. The results indicated that four strains could induce cell shrinkage, cell membrane blebbing, formation of apoptotic body and DNA fragmentation. CONCLUSIONS: Crude extracts of 12 of 153 strains of marine bacteria showed cytotoxic effects with ID50 ranged from 77.20 to 199.84 microg ml(-1), in which eight strains of bacteria were associated bacteria. The metabolites in the strains of QD1-2, NJ6-3-1, NJ1-1-1 and SS6-4 were able to induce HeLa cells apoptosis. Furthermore, the assessment by flow cytometry indicated that the hypodiploid apoptotic cells increased in a time-dependent manner, suggesting that induced apoptosis occurred from 24 h to 48 h after the extracts treatment. SIGNIFICANCE AND IMPACT OF THE STUDY: Our results suggested that the compounds from fermentation in these four marine bacterial strains could be candidates for developing apoptosis specific anti-tumour agents with lower toxicity. This study indicated that associated marine bacteria could be good source to find cytotoxic metabolites, and some cytotoxic marine bacterial metabolites could have apoptosis mechanisms.