Lipid rafts mediate epigallocatechin-3-gallate- and green tea extract-dependent viability of human colon adenocarcinoma COLO 205 cells; clusterin affects lipid rafts-associated signaling pathways.

Epigallocatechin-3-gallate (EGCG) is an important bioactive constituent of green tea extract (GTE) that was widely believed to reduce proliferation of many cancer cell lines. The purpose of this study was to verify the possible pro-apoptotic action of GTE/EGCG in human colon adenocarcinoma COLO 205 cells. The effect of EGCG/GTE treatments on cell viability was studied using methyl thiazolyl tetrazolium (MTT) assay. Cell proliferation was assessed with crystal violet staining, whereas protein expression levels were evaluated by western blotting followed by densitometric analysis. Obtained results were analyzed statistically. Surprisingly, EGCG/GTE dose-dependently up-regulated COLO 205 cells viability and proliferation. Observed effects were mediated by lipid rafts, as cholesterol depletion significantly prevented EGCG/GTE-dependent cell survival. Furthermore, treatment of COLO 205 cells with EGCG/GTE resulted in activation of MEK/ERK1/2, but not Akt1/2/GSK-3ß signaling pathway. The presence of MEK inhibitor - PD98059 but not PI3-K inhibitor - LY294002, both reduced EGCG/GTE-induced ERK1/2 activation and the proliferative effect of catechins. Furthermore, EGCG/GTE stimulated secretory clusterin (sClu) expression level, which underwent complex control through lipid rafts/PKC/Wnt/ß-catenin system. Our studies demonstrated that EGCG and GTE stimulate cell survival and proliferation of COLO 205 cells in a lipid rafts-dependent manner via at least MEK/ERK1/2 signaling pathway. Furthermore, EGCG/GTE mediated positive effects on viability and mitogenicity of COLO 205, while suppression of ß-catenin activity was positively correlated with sClu clusterin expression.

Cigarette smoke-exposed neutrophils die unconventionally but are rapidly phagocytosed by macrophages.

Pulmonary accumulation of neutrophils is typical for active smokers who are also predisposed to multiple inflammatory and infectious lung diseases. We show that human neutrophil exposure to cigarette smoke extract (CSE) leads to an atypical cell death sharing features of apoptosis, autophagy and necrosis. Accumulation of tar-like substances in autophagosomes is also apparent. Before detection of established cell death markers, CSE-treated neutrophils are effectively recognized and non-phlogistically phagocytosed by monocyte-derived macrophages. Blockade of LOX-1 and scavenger receptor A, but not MARCO or CD36, as well as pre-incubation with oxLDL, inhibited phagocytosis, suggesting that oxLDL-like structures are major phagocytosis signals. Specific lipid (ß-carotene and quercetin), but not aqueous, antioxidants increased the pro-phagocytic effects of CSE. In contrast to non-phlogistic phagocytosis, degranulation of secondary granules, as monitored by lactoferrin release, was apparent on CSE exposure, which is likely to promote pulmonary inflammation and tissue degradation. Furthermore, CSE-exposed neutrophils exhibited a compromised ability to ingest the respiratory pathogen, Staphylococcus aureus, which likely contributes to bacterial persistence in the lungs of smokers and is likely to promote further pulmonary recruitment of neutrophils. These data provide mechanistic insight into the lack of accumulation of apoptotic neutrophil populations in the lungs of smokers and their increased susceptibility to degradative pulmonary diseases and bacterial infections.

Cholesterol level determines viability and mitogenicity, but it does not affect sodium butyrate-dependent sensitization of Colo 205 cells to TNF-α-induced apoptosis.

Transient treatment of human adenocarcinoma COLO 205 cells with lipit raft (LR) modulators (MßCD, NY, IMP) was followed by the challenge with metabolic inhibitors and selected anti-cancer drugs. To overturn cholesterol chelation, the MßCD, NY treatment was followed by cholesterol conjugates (CHOL-MßCD or CHOL-PEG). The TNF-α- and P(Ser473)-PKB/Akt1/2-mediated effects initiated at LR were evaluated with regard to cell viability and mitogenicity. Cholesterol chelators reversibly reduced cell survival, whereas some of the tested compounds had weak effects (CIS, CLA), stimulated (EGCG) or reduced (NaB) cell survival. Cellular localizations of LR-associated molecules (ceramides, Gαi-2 heterotrimeric protein, and TNF-R1) in different cellular compartments including the plasma membrane were observed in the respective photographs from TEM and SEM. Evidence from SEM also showed that TNF-R1 is clustered on the surface of COLO 205 cells without presence of cognate ligand but clustering is promoted by TNF-α, while it vanished after IMP treatment. COLO 205 cells remained immune to TNF-α-induced apoptosis unless NaB was added, in which case NaB-induced cell death was further potentiated by TNF-α. Combined NaB and TNF-α treatment was associated with marked changes in the expression of pro- and antiapoptotic proteins. In this study, we demonstrated that initial excess of prosurvival signals could be diminished by cholesterol chelators, whereas LR-independent cell survival could be targeted by NaB. Apparently, lipid rafts do not participate in NaB-dependent cell death.

What can be found inside shunt catheters.

Obstruction of shunt catheters is one of the main causes of shunt malfunction. The fragments of shunts removed from five patients were examined using scanning electron microscopy with a (SEM) JEOL JSM-6390 LV microscope. Fifteen catheters from the brain ventricle, lumbar space, and peritoneal space were studied. SEM studies showed that the catheters' surfaces were not sufficiently smooth. The inner surface was often covered by a web of collagen fibrils. Aggregates of red and white blood cells, platelets, lymphocytes, mast cells, and macrophages were trapped in the collagen web. Such cellular aggregates formed a coherent, delicate web mainly consisting of ultrastructurally unchanged cellular elements and were well preserved. Other types of aggregates contained completely destroyed cells that appeared to be submerged in thick collagen web fibrils.We also found a few ultrastructural abnormalities among morphologically unchanged cellular elements. The presence of abnormal red cells showing unusual variability in their shape and size including spherocytosis (thickened, spheroid, and crenate red cells), elliptocytosis (elongated, rod-shaped, or tear-drop red cells), the thalassaemic phenotype of red cells (with inclusion of precipitated unstable hemoglobin in the form of Heinz bodies distorting the red cells, leading to their lysis) was a striking finding. Under scanning electron microscopy, we also recognized swollen or crumpled red cells that looked like potato crisps. Aggregation of thickened blood platelets and white cells was observed frequently. Our study confirmed the importance of the smoothness of the inner surface of the catheter. Smoothness can prevent the formation of cell and protein deposits.

Bisindolylmaleimides in anti-cancer therapy - more than PKC inhibitors.

Bisindolylmaleimide derivatives were originally described as protein kinase C inhibitors. However, several studies have shown that bisindolylmaleimides target several other signaling molecules. The review presents bisindolylmaleimide-mediated PKC-dependent and PKC-independent biological effects, such as reversal of MDR and modulation of Wnt signaling through GSK-3b and b-catenin. Importantly, the potent proapoptotic properties of bisindolylmaleimides are also described. Bis-IX appears as the most efficient activator of intrinsic apoptotic pathway and additionally, facilitates extrinsic apoptosis. Presented molecular mechanisms indicate that bisindolylmaleimides could be useful agents in anticancer therapy. They repress uncontrolled proliferation and restore the sensitivity to chemotherapy which allows eradication of cancer cells.

Crossroads of cytokine signaling--the chase to stop muscle cachexia.

There is no universal approach to stop muscle cachexia in a number of life-threatening diseases. Accordingly, it is uncertain why the body mass is so critical to keep alive patients with cancer, congestive heart failure (CHF), AIDS or sepsis. At present, it is widely believed that excess muscle wasting diminishes lean body mass to the risky level accompanied by anorexia, anemia, lipolysis, acute phase response and insulin resistance. If missed and/or untreated muscle cachexia inevitably leads to death due to cardiac and respiratory failure (almost one-third of all cancer deaths). This complex metabolic disorder is suited by the elevated levels of inflammatory cytokines (TNF-alpha, IFN-gamma, IL-1-beta, IL-6, IL-2) and low levels of anti-inflammatory/ other cytokines (IL-15, leptin). Concurrently, tissue sensitivity to insulin is considerably reduced. Recent findings indicate that entirely few muscle-specific genes (i.e. MyoD and myosin heavy chain, MyHC) and their products must be targeted to initiate muscle wasting. Muscle atrophy occurs at different levels, starting from repressed gene expression and ended with accelerated protein degradation. Muscle growth (myogenesis) is severely compromised and disruption of sarcomere architecture heralds the proteolysis of contractile apparatus. This review aims to synthesize our present knowledge of intracellular mechanisms and molecular regulation of muscle cachexia with respect to cytokine signaling.

Apoptosis and autophagy in involuting bovine mammary gland is accompanied by up-regulation of TGF-beta1 and suppression of somatotropic pathway.

Regulation of mammary gland remodeling during the lactation cycle in cattle still remains unclear. The present study focused on the role of TGF-beta1 and somatotropic pathways proteins in control of the switch between survival and death of bovine mammary epithelial cells (MEC). Expressions of TGF-beta1, TGF-betaRII, IGF-IRalpha, IGF-IRbeta, GH-R, IGFBP-3, -4, and -5 in mammary tissue explants in Holstein-Fresian heifers (n = 7) and cows (n = 23) in early lactation (1-100 day), late lactation (200-260 day) and drying off (280-340 day) were compared with biochemical indices of apoptosis (caspase 3, 89 kDa fragment of PARP) and autophagy (Beclin1). The results revealed that an increase in apoptosis during the dry period was accompanied by highly significant increases in TGF-beta1 and TGF-betaRII expression. Beside biochemical markers, typical morphological features of apoptosis, such as cell shrinkage, separation from the neighboring cells and condensation of chromatin were observed. TGF-beta1 expression and induction of apoptosis was facilitated by the suppression of somatotropic pathway during drying off, manifested with down-regulation of GH-R and IGF-IRalpha, and up-regulation of IGFBP-4 and -5. This is the first report describing autophagy in the bovine mammary gland. Similarly to apoptosis, the intensity of autophagy was the highest in the dry period, as shown by increased expression of Beclin1 and morphological features, e.g. autophagosomes, autophagic vacuoles. Autophagy observed in the involuting mammary tissue could be the natural cell defense against transient undernourishment and action of apoptogenic peptides (e.g. TGF-beta1, IGFBPs), thus maintaining cellular homeostasis in the dry period.

Molecular basis of sodium butyrate-dependent proapoptotic activity in cancer cells.

This review outlines the molecular events that accompany the antitumor action of sodium butyrate (NaBt). Butyrate, a low-molecular weight four-carbon chain volatile fatty acid (VFA) has been previously shown to withdraw cells from cell cycle or to promote cell differentiation, and finally to induce programmed cell death. Recent advances in molecular biology indicate, that this product of large bowel microbial fermentation of dietary fiber, might evoke the above-mentioned effects by indirect action on genes. NaBt was shown to inhibit histone deacetylase activity, allowing DNA binding of several transcription factors. Higher genomic activity leads to the higher expression of proapoptotic genes, higher level of their protein products and elevated sensitivity to death ligand-induced apoptosis. Cancer cells might be arrested in G1 phase of cell cycle in a p21-dependent manner. Proapoptotic activity of NaBt includes higher expression of membrane death receptors (DR4/5), higher level and activation of Smad3 protein in TGF-beta-dependent apoptotic pathway, lower level of antiapoptotic proteins (cFLIP, XIAP) and activation ofproapoptotic tBid protein. Thus, both intrinsic and extrinsic apoptotic pathways are stimulated to ampify the apoptotic signals. These effects are specific for tumor but not for regular cells. Unique properties of NaBt make this agent a promising metabolic inhibitor to retard tumorigenesis to suppress tumor growth.

Apoptosis and autophagy in mammary gland remodeling and breast cancer chemotherapy.

Apoptosis - programmed cell death (PCD) type I is physiological process responsible for cell loss during mammary gland involution after natural weaning or litter removal in rodents, after weaning in sow and during drying off in goat and cow. The regulation of mammary epithelial cell (MEC) apoptosis in bovine mammary gland occurs at three levels. The first level comprises intracellular regulatory proteins, e.g. Bcl-2 family death promoters and inhibitors. The second level is represented by intramammary inductors of apoptosis, e.g. FIL, IGFBPs, Fas ligand, TGF-betas. The expression and activity of these auto/paracrine inductors of apoptosis is controlled and modulated by the third level factors, e.g. systemic galactopoetic hormones, nutrition, reproductive status and milking management. Our recent study proved that apoptosis in involuting bovine mammary gland is accompanied by increased intensity of autophagy, regarded as a cytoprotective process but in advanced stage as a PCD type II. Moreover, we have reported for the first time the ability of TGF-beta(1) to induce both apoptosis and autophagy in bovine BME-UV1 MEC. Much more pronounced heterogeneity of PCD was observed when breast cancer cells were exposed to anticancer drugs. The primary responses of breast cancer MCF-7 cells to camptothecin (CPT) are apoptosis and autophagy (as a cytoprotective process). In this case autophagy occurs in cells which are resistant to apoptosis as a tool of cancer cell survival. The fail-safe responses of breast cancer cells to persisting CPT-induced stress are apoptosis accompanied by morphological and biochemical features of autophagy or type II PCD with advanced subcellular degradation. The threshold between autophagy as a cytoprotective process (reversible) or PCD (irreversible) is difficult to establish and probably depends on the extent of degradation of cellular components. Proapoptotic protein Bid may serve as a molecular switch between apoptosis and autophagy. Bid knock down in MCF-7 cells exposed to CPT leads to a shift of cell death from apoptosis to autophagy. Since bid and other proapoptotic genes undergo mutations in malignant cells, the ability of cancer cells commitment to autophagy may have important therapeutic implications.

Cycloheximide-mediated sensitization to TNF-alpha-induced apoptosis in human colorectal cancer cell line COLO 205; role of FLIP and metabolic inhibitors.

Current efforts are focused on revealing the cellular factors that determine the "immune escape" of cancer cells. As an example in our study human colorectal cancer cell line COLO 205 was resistant to TNF-alpha - a death inducing ligand. Nonetheless, co-incubation TNF-alpha (10 ng/ml) with cycloheximide (5 micro g/ml, CHX) caused time-dependent (6, 12, 24 hours) cell death even though, at that concentration cycloheximide did not exert cytotoxic effect unless 24 hour of treatment. After additional pretreatment it is concluded that CHX sensitizes cells to TNF-alpha-induced apoptosis. The aim of this study was to investigate the role and properties of cellular proteins that granted COLO 205 cells survival as well as to assess the effect of several metabolic inhibitors on cell viability at the above-mentioned time-points. PKCs inhibitor staurosporine (5 microM) did not influence, whereas cPKC activator PMA (100 microM) prevented TNF-alpha-induced apoptosis in the presence of CHX. Although EDTA (2 mM) and to a lesser degree EGTA (5 mM) were individually cytotoxic, they exerted protective effect at 6 and partially at 12 hour of combined TNF-alpha and CHX treatment. Ionophore A23187 (1 microM) protected cells against cell death at 12 and 24 but only partially at 6 hour of treatment. On the other hand, AD (10 ng/ml) acted synergistically with TNF-alpha and CHX at 6 and 12 hour. It appears that resistance of COLO 205 cells is determined on genomic level by a few reaction steps in which both Ca(2+)-dependent and antiapoptotic proteins are involved. Further studies revealed that CHX treatment reduces the level of FLIP but not other members of TNF-alpha-dependent death signalosome.

Position of STAT-1 alpha in cycloheximide-dependent apoptosis triggered by TNF-alpha in human colorectal COLO 205 cancer cell line; role of polyphenolic compounds.

"Immune escape" is a crucial instrument used by carcinoma cells to overcome numerous strategies of immune system to delete transformed cells. Cellular factors that make cancer cells immune to defence mechanisms are incompletely understood while some remain ambiguous. Up to date evidence points to some proteins and/or signaling molecules that might be a basis for unusual behavior of cancer cells. In particular STAT kinases are currently in the main focus of attention since they were both shown to accelerate and/or to inhibit apoptosis. In our studies we observed that human colorectal COLO 205 cancer cells were resistant to TNF-alpha- or cycloheximide-induced cytotoxicity. However, when TNF-alpha (10 ng/ml) has been given along with cycloheximide (5 micro g/ml, CHX) COLO 205 cells died extensively from apoptosis. Apparently, cycloheximide sensitized cells to TNF-alpha-induced programmed cell death. To investigate the role of STAT-1 alpha in CHX-mediated TNF-alpha-induced COLO 205 cell death certain polyphenolic compounds were studied if they modulate STAT-1 alpha phosphorylation status and STAT-1 alpha-protein interaction at the level of TNF-alpha signalosome in the 6(th), 12(th), and 24(th) hour of experiment. Neither of phenolic compound, namely PI-3K inhibitor (LY294002, 20 microM) nor MEK inhibitor (PD98059, 50 microM), nor flavonol quercetin or kaempferol (10, 100 microM) in contrast to apigenin (20 microM) influenced COLO 205 cell viability during individual or combined treatment with TNF-alpha and CHX. We conclude, that some antiapoptotic proteins were involved but not STAT-1 alpha kinase to resist TNF-alpha-dependent cell death promoting activity. Summing up, except apigenin, the above-mentioned polyphenolic compounds were unable to modulate survival signal in COLO 205 cells initially believed to be suppressed by STAT-1 alpha.

Apoptosis and autophagy induced by TGF-B1 in bovine mammary epithelial BME-UV1 cells.

Mammary gland growth and involution is based on a dynamic equilibrium between proliferation and apoptosis of mammary gland epithelial cells (MEC). TGF-beta1 is an important antiproliferative and apoptogenic factor for mammary gland epithelial cells, acting in auto/paracrine matter and thus considered an important local regulator of mammary tissue involution. So far the studies on mammary gland involution concerned only apoptosis as a type I of MEC programmed cell death (PCD). Autophagy is known to be type II of PCD and this paper is the first, supporting evidence for the TGF-beta1-induced autophagy in bovine mammary epithelial cell line BME-UV1, as a distinct to apoptosis type of PCD. Laser scanning cytometry and confocal microscopy were used for analysis of MAP1 LC3 and Beclin 1 expression - two proteins considered being the most reliable biochemical markers of autophagy. The significant increase of MAP1 LC3 and Beclin 1 expression in cells treated with TGF-beta1 (2 ng/ml) was observed. Ultrastructural observation in electron microscopy revealed that autophagy is not only alternative, but also complementary to apoptosis type of cell death in TGF-beta1-treated bovine MEC. It was manifested by typical morphological features of apoptosis (cell shrinkage, margination and condensation of chromatin) and autophagy (autophagosomes, autophagic vacuoles) in the same cell.

Cathepsins and BID are involved in the molecular switch between apoptosis and autophagy in breast cancer MCF-7 cells exposed to camptothecin.

The details of molecular switching points between apoptosis and autophagy in tumor cells have still not been fully elucidated. This study focused on the role of cathepsin B and its substrate, BID as molecular links between apoptosis and autophagy in human breast cancer MCF-7 cells exposed to camptothecin. Apoptosis occurred rapidly with a peak in 60 min after drug administration, whereas autophagy developed at a much slower rate with continuous progression during 24 h of cell exposure to the drug. CPT induced very rapid activation of cathepsin B. Inhibition of cathepsins by E64d prevented CPT-induced BAX and BID aggregation on mitochondria and reduced significantly reduced apoptotic cell number. The above effects were accompanied by an increase in autophagosome formation, measured by expression of MAP I LC3. BID knock down resulted in strong suppression of CPT-induced apoptosis and a shift of cell death towards autophagy, manifesting with an increase of Beclin 1 and MAP I LC3 cellular content.

Intracellular calcium pool emptying induces DNA synthesis in HaCaT keratinocytes.

Calcium signaling provides a central control mechanism for growth, differentiation and apoptosis of epidermal keratinocytes. Moreover, calcium signaling is important for carcinogenesis in view of the observations suggesting that emptying of intracellular stores in keratinocytes [e.g. by a selective blocker of calcium pump in the endoplasmic reticulum (ER), thapsigargin] facilitates skin cancer development. In this work, we analyzed whether calcium content in the intracellular stores is linked to HaCaT keratinocyte growth and apoptosis control. Treatment with thapsigargin caused calcium release from the intracellular pool and permanent pool depletion (up to 24 h) could be achieved using a high dose (1 micro M) of this inhibitor. HaCaT cells cultured in these conditions exhibited an increased rate of DNA synthesis, assessed by the BrdU incorporation assay. Moreover, a weak stimulation of involucrin (terminal differentiation marker) was observed. Studies where intracellular free calcium (Cai2+) was chelated with BAPTA [1,2-bis(o-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid] revealed that abrogation of thapsigargin-induced Cai2+elevation did not counteract its effects on DNA synthesis, but blocked thapsigargin-induced involucrin expression. Apoptosis was readily achieved by extracellular calcium chelation using EGTA [ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid], but was not observed after thapsigargin or BAPTA alone or in combination. In conclusion, depletion of intracellular calcium stores causes stimulation of keratinocyte proliferation independently of the elevation of Cai2+.

Antiproliferative and apoptotic effect of TGF-beta 1 in bovine mammary epithelial BME-UV1 cells.

Transforming growth factor beta1 (TGF-beta(1)) is regarded as an important auto/paracrine regulator of mammary gland involution, however, its apoptotic effect and inhibition of growth in bovine mammary epithelial cells (MEC) has not been documented. In the present study, laser scanning cytometry, confocal and immunoelectron microscopy techniques were used for quantitative and qualitative analyzes of apoptosis, cell cycle and expression, subcellular redistribution and interactions of apoptosis-related proteins in bovine BME-UV1 MEC exposed to TGF-beta(1). TGF-beta(1) exerted both antiproliferative and apoptotic action. The antiproliferative effect was manifested by increase of cell number in G1 phase with simultaneous decrease of cell number in S and G2/M phases. It resulted in significant increase of G1/S ratio in TGF-beta(1) treated cells, indicating partial cell cycle arrest at the G1-S transition. Apoptosis induced by TGF-beta(1) manifested by characteristic morphological changes. Among biochemical features of TGF-beta(1)-induced apoptosis in BME-UV1 cells we found: (1) an increase of cell number with lowered DNA content and condensed chromatin, (2) enhanced expression of caspase-3 and m-calpain, (3) elevated number of 89 kDa PARP degradation fragments, and (4) aggregation of Bax and its interactions with voltage dependant anion channel-1. In conclusion, antiproliferative and apoptotic action of TGF-beta(1), observed in the culture of BME-UV1 cells, suggests an essential role of this cytokine in the regulation of mammary gland involution in cow.

Immunohistochemical analysis of bFGF, TGF-beta1 and catalase in rectus abdominis muscle from cattle foetuses at 180 and 260 days post-conception.

The potential for muscle growth depends on myoblast proliferation, which occurs essentially during the first two thirds of the foetal period in cattle. Thereafter, myofibres acquire their contractile and metabolic properties. Proliferation is regulated by molecular growth factors and by the tissue oxidative activity. The aim of this study was the quantification by immunochemistry of basic fibroblast growth factor (bFGF) and transforming growth factor beta 1 (TGF-beta1) and also of enzyme catalase (CAT) activity in rectus abdominis muscle. Samples were collected from cattle foetuses of different growth potential at 180 and 260 days post-conception (dpc). One major conclusion from this work is that protein contents of the muscle tissue bFGF and, to a lower extent, CAT activity decreased with increasing age during the foetal life. No differences were found between the different genotypes of cattle. However, the CAT to bFGF ratio tended to be lower in fast-growing cattle and increased with foetal age. TGF-beta1 did not change with age and was localised mostly at the vascular bed. CAT was detected in smooth and rough reticulum in striated muscles at 180dpc, and additionally in mitochondria at 260dpc. In conclusion, the balance between intracellular growth factors (bFGF and TGF-beta1) and the activity of antioxidant enzyme CAT may participate in the regulation of the transition from myoblast proliferation to differentiation. Thus, increased ratio of CAT to bFGF might be a good index indicating initiation of muscle maturation in cattle foetus prior to birth.

A novel embedment-free immunoelectron microscopy technique reveals association of apoptosis-regulating proteins with subcellular structures.

By employing two electron microscopy techniques, postembedding double- and triple immunocytochemical gold-labelling combined with embedment-free electron microscopy (EF-EM), we have detected previously unreported nuclear and cytoplasmic complexes between different proapoptatic proteins in a human cancer cell line COLO 205 stimulated to apoptosis by nimesulide, a specific cyclooxygenase-2 inhibitor. Experiments with the use of double- and triple immunolabelling visualized the colocalization of proapoptotic proteins such as Bax with Bid, Bax with Bid and voltage-dependent anion channel protein (VDAC-1), and Bax with Bid and caspase-8, on organellar membranes and within the nucleus. Application of this technique in combination with EF-EM technique augments our knowledge on the precise identification and relationship of subcellular structures containing Bax, Bid, VDAC-1 and caspase-8.

Subcellular redistribution of BAX during apoptosis induced by anticancer drugs.

BAX is the 192-amino acid, 21-kDa protein which is ubiquitously distributed in normal tissues and is regarded as a tumor suppressor sensitizing malignant cells to anticancer drugs. In spite of many studies, the molecular mechanism of BAX action is still obscure. In the present study subcellular BAX translocations in human colon adenocarcinoma COLO 205 cells exposed to various anticancer drugs [camptothecin (CPT), etoposide (ETO), staurosporine (STP), 2-chloro-2'-deoxyadenosine (2CdA) and nimesulide (NIM)] was examined. Cells were grown on coverslips under optimal conditions (10% FCS/DMEM) or were stimulated to apoptosis with the drugs examined. Laser scanning cytometry was applied for the quantitative analysis of BAX expression, and distribution in the cytoplasmic (BAX Cf) and nuclear (BAX Nf) area. BAX maximal pixel (BAX MP), the parameter corresponding to aggregation of BAX in the cell, was also measured. All examined drugs increased the number of cells with high BAX MP, reaching the peak at 60 min after drug administration. The most pronounced effect was in the case of 2CdA, CPT and STP. The increase in BAX MP was observed only when antibody recognizing the 43-61 amino acid sequence was used. When antibody binding the N-terminal epitope (11-30 amino acid sequence) was applied, the number of cells expressing high BAX MP significantly decreased. These results indicate that apoptotic stimuli delivered by anticancer drugs led to aggregation of BAX in cancer cells, which is dependent on BAX activation by its cleavage at the N-terminal epitope and exposure of the BH3 domain. It was shown that BAX Nf increased in cells treated with CPT, STP, ETO, 2CdA and NIM, whereas BAX Cf rose after STP and NIM. The increase in BAX Nf and, occurring in most treatments, the increase in the BAX Nf:Cf ratio indicates a BAX shift from the cytoplasm to the nucleus. Furthermore, staining with different antibodies showed that only the activated form of BAX was translocated to the nucleus. Immunoelectron microscopy revealed that CPT-induced apoptosis was associated with translocation of BAX from the cytosol to organellar membranes (mitochondrial, Golgi apparatus and endoplasmic reticulum) and via nuclear envelope pores to the nucleus, occurring within 60-180 min of cell exposure to the drug. The subcellular translocations of BAX preceded in time the appearance of morphological symptoms of apoptosis. In conclusion, (i) in spite of different molecular mechanisms of apoptosis induction by the anticancer drugs examined, BAX remains a common link in the chain of reactions leading to cell death, and (ii) BAX activation and subcellular translocations from the cytosol to organellar membranes and nucleus are key cellular responses to drugs bearing proapoptotic properties.

Expression of BAX in cell nucleus after experimentally induced apoptosis revealed by immunogold and embedment-free electron microscopy.

The unique combination of immunocytochemistry with embedment-free electron microscopy was applied for precise and specific localisation of BAX in the human colon adenocarcinoma COLO 205 cell line stimulated to undergo apoptosis by camptothecin (DNA topoisomerase I inhibitor). Camptothecin-induced apoptosis was associated with redistribution of BAX from cytosol to organelle membranes: mitochondria, Golgi apparatus, endoplasmic reticulum and via nuclear envelope pores to the nucleus, occurring within 60-180 min of cell exposure to the drug. An increase in BAX immunoreactivity on fine filaments and the lamina-pore complex of the nuclear matrix was also observed. The increase in BAX expression in the nuclear area of camptothecin-treated COLO 205 cells was confirmed by quantitative analysis using laser scanning cytometry. The subcellular translocations of BAX preceded the appearance of any morphological symptoms of apoptosis.

The changes in the ultrastructure of the cerebrovascular junction after traumatic injury of the cerebral cortex in rats.

OBJECTIVES: The effect of the traumatic injury of the cerebral cortex on the ultrastructure of the cerebrovascular junction was studied in rats. The aim of the present study is to describe the ultrastructural alterations in the cerebrovascular junction in rat cerebral cortex after traumatic injury. We were particularly interested in the alterations in endothelium, pericytes and the differentiated population of cerebral macrophages. MATERIAL AND METHODS: The observations were conducted four days (group I-five animals) and seven days (group II-five animals) after induction of cortical trauma. Traumatic injury was induced in the fronto-temporal region of cerebral cortex in general anesthesia with 20 mg/kg ketamine hydrochloride. RESULTS: In the first group we found the features of damage of the blood-brain barrier and migration of the morphological blood components to the perivascular space. The trauma caused necrosis and apoptosis within brain tissue. An important observation was the presence of numerous brain macrophages that participated in phagocytosis of damaged cellular elements. Additionally, we found an increase in the connective tissue ground substance around brain capillaries. In the second experimental group we noted an increased number of pericytes (1-3) near capillary walls. In some instances, the basement membrane surrounding the pericytes was interrupted and these cells were also located beyond the rim of the vessel wall. Some pericytes showed numerous phagolysosomes indicating that these cells belonged to perivascular macrophages. Moreover, we observed a population of phagocytes residing in close contact with neurons. These cells were different from the typical perivascular macrophages. CONCLUSIONS: These observations indicate that the traumatic injury of the brain results in mobilization of a heterogeneous population of brain macrophages. This study indicates that different subpopulations of macrophages emerge in the region of traumatic brain damage, and that the morphology and dynamics of these phagocytes changes and depends on the time elapsed after the initial traumatic incident.