Sulforaphane, a naturally occurring isothiocyanate, induces cell cycle arrest and apoptosis in HT29 human colon cancer cells.

Sulforaphane is an isothiocyanate that is present naturally in widely consumed vegetables and has a particularly high concentration in broccoli. This compound has been shown to block the formation of tumors initiated by chemicals in the rat. Although sulforaphane has been proposed to modulate the metabolism of carcinogens, its mechanism of action remains poorly understood. We have previously demonstrated that sulforaphane inhibits the reinitiation of growth and decreases the cellular viability of quiescent human colon carcinoma cells (HT29). Moreover, the weak effect observed on differentiated CaCo2 cells suggests a specific anticancer activity for this compound. Here we investigated the effect of sulforaphane on the growth and viability of HT29 cells during their exponentially growing phase. We observed that sulforaphane induced a cell cycle arrest in a dose-dependent manner, followed by cell death. This sulforaphane-induced cell cycle arrest was correlated with an increased expression of cyclins A and B1. Moreover, we clearly demonstrated that sulforaphane induced cell death via an apoptotic process. Indeed, a large proportion of treated cells display the following: (a) translocation of phosphatidylserine from the inner layer to the outer layer of the plasma membrane; (b) typical chromatin condensation; and (c) ultrastructural modifications related to apoptotic cell death. We also showed that the expression of p53 was not changed in sulforaphane-treated cells. In contrast, whereas bcl-2 was not detected, we observed increased expression of the proapoptotic protein bax, the release of cytochrome c from the mitochondria to the cytosol, and the proteolytic cleavage of poly(ADP-ribose) polymerase. In conclusion, our results strongly suggest that in addition to the activation of detoxifying enzymes, induction of apoptosis is also involved in the sulforaphane-associated chemoprevention of cancer.

Induction of necrosis in human neutrophils by Shigella flexneri requires type III secretion, IpaB and IpaC invasins, and actin polymerization.

Infection by Shigella flexneri is characterized by infiltration of neutrophils in the intestinal mucosa and by a strong inflammatory reaction. Although neutrophils are constitutively programmed to die by apoptosis, we show that isolated human neutrophils undergo necrosis 2 h after infection with virulent S. flexneri strain M90T but not with the virulence plasmid-cured strain BS176. This was demonstrated by the release of azurophil granule proteins concomitant with the release of lactate dehydrogenase (LDH), disruption of the plasma membrane, and absence of DNA fragmentation. Mutants with the mxiD1 gene, coding for an essential component of the secretion type III machinery, or the genes coding for IpaB or IpaC invasins deleted were not cytotoxic. Neutrophil necrosis occurred independently of the bacterial ability to leave phagosomes, and it involved actin polymerization, as the addition of cytochalasin D after phagocytosis of Shigella inhibited the release of LDH. In conclusion, Shigella kills neutrophils by necrosis, a process characterized by the release of tissue-injurious granular proteins. This probably contributes to disruption of the epithelial barrier, leading to the dysentery observed in shigellosis and allowing Shigella to enter its host cells.

Effects of isoniazid on ultrastructure of Mycobacterium aurum and Mycobacterium tuberculosis and on production of secreted proteins.

Isoniazid (INH), one of the most effective antimycobacterial drugs, specifically inhibits, at an early stage of its action, the biosynthesis of mycolic acids, specific mycobacterial lipids which play a central role in the cell envelope architecture of mycobacteria. In the present study, the consequences of the action of INH on the cell morphology of Mycobacterium tuberculosis and Mycobacterium aurum were examined. Electron microscopy was used to observe bacilli which were previously treated with either subinhibitory concentrations of INH or the MIC of the drug, leading to a decrease of 20 to 35% (by weight) of their mycolic acid contents. The earlier effect of INH on the ultrastructure of mycobacteria, as revealed by negative staining of bacilli, was the alteration of the bacterial poles; this event was observed prior to the bacteriostatic action of the drug and was accompanied by a release of material from the poles into the extracellular medium. In a later stage of the drug's action, cell deformation occurred and more extracellular material was seen. The material released following the action of the drug on susceptible mycobacterial cells was identified as being almost exclusively composed of proteins. Labeling of amino acids with 35S prior to and during the action of INH on M. aurum and subsequent analysis of the labeled proteins led to the conclusion that they consisted of secreted proteins which were up to 20-fold oversecreted in the presence of the drug. Competitive enzyme-linked immunosorbent assay with the secreted 45/47-kDa antigen complex of M. tuberculosis demonstrated up to 20-fold oversecretion of these proteins. Taken together, the production of oversecreted proteins following the decrease of the cell envelope mycolate content by INH strongly suggests that mycolic acids may act as a barrier in the export of proteins secreted by mycobacteria.

Basic fibroblast growth factor (FGF-2) is addressed to caveolae after binding to the plasma membrane of BHK cells.

bFGF endocytosis in BHK cells was examined by electron microscopy using a conjugate of recombinant human bFGF and digoxigenin (bFGF-DIG). This probe keeps the biological activity of non-labeled bFGF and can be readily detected with anti-digoxigenin antibodies (Gleizes et al., Anal. Biochem. 219, 360-367 (1994)). Time-course studies of bFGF-DIG endocytosis were performed by incubating BHK cells at 4 degrees C in the presence of first 20 ng/ml bFGF-DIG and then antidigoxigenin antibodies adsorbed onto 10-nm gold particles. A semi-quantitative study revealed that caveolae were the main endocytic pathway of bFGF-DIG in these cells, whereas clathrin-coated pits were scarcely labeled. After occurring in caveolae, bFGF-DIG was sequentially detected in tubulovesicular early endosomes, multivesicular late endosomes, and lysosomes. Under the same conditions, low density lipoprotein (LDL)-gold was seen entering the cell exclusively through clathrin-coated pits. However, LDL-gold and bFGF-DIG were colocalized, at least in part, in common endosomal structures. Pretreatment of the cells with phosphatidylinositol-phospholipase C reduced the proportion of membrane-bound bFGF-DIG in caveolae, but did not inhibit bFGF-DIG presence in caveolae. These data suggest that bFGF enters into BHK cells through caveolae and is then shuttled into a degradative pathway similar to that of LDL.

Molecular composition of the outermost capsular material of the tubercle bacillus.

To gain insight into the pathogenesis of tuberculosis, a molecular definition of the tubercle bacillus cell envelope, which is involved in the early stages of the infection, is required. The cell-surface-exposed material of the pathogen was isolated by mechanical means and chemically analysed. It was shown by scanning electron microscopy that the method used for extracting the surface-covering material preserves the integrity of the bacilli. Surprisingly, in view of the current opinion, only small amounts of lipids (1-6%) were present. Polysaccharides and proteins were the main components of the material. The polysaccharides were neutral and lipid-free D-glucan, D-arabino-D-mannan and D-mannan, which were eluted from gel-filtration columns in positions corresponding to molecular masses of 120, 13 and 4 kDa, respectively. Based on NMR spectroscopy and conventional chemical analyses, the major structural motifs of the purified polysaccharides were established as being identical to those of the polysaccharides we previously isolated from the culture filtrate of the tubercle bacillus. Immunocytochemical studies showed that these compounds were not only surface-located but were also present in the inner capsular compartment. The major protein constituents exhibited the same mobilities on SDS-PAGE as those of the culture filtrate on the tubercle bacillus and readily reacted with the monoclonal antibodies directed against these molecules. These proteins included the 19 and 38 kDa lipoproteins, the 30/31 kDa fibronectin-binding proteins and the 40 kDa L-alanine dehydrogenase. These findings suggest that the culture filtrate material represents part of the capsule which, in an in vivo context, could contribute to the electron transparent zone surrounding the tubercle bacillus. The 24 kDa (MPB/T64) protein was found to be a secreted protein, as it was detected almost exclusively in the culture filtrate. Taken together, the data give a new insight into the surface-exposed compounds of the tubercle bacillus and may explain part of the nature and limitation of the host immunity towards the pathogen.

Ethambutol inhibition of glucose metabolism in mycobacteria: a possible target of the drug.

The addition of D-arabinose, D-galactose, D-glucosamine, or D-mannose to the growth medium of Mycobacterium smegmatis suppressed the inhibitory effects of ethambutol both on acetate labeling of cell wall-linked mycolic acids and on the increase in the delipidated cell dry weight. The addition of D-glucose or D-fructose had no effect. It is proposed that ethambutol inhibits an early step of glucose conversion into the monosaccharides used for the biosynthesis of structurally and biologically important cell wall polysaccharides: arabinogalactan, arabinomannan, and peptidoglycan.

Ligands of the antiestrogen binding site block endothelial cell proliferation reversibly.

Benzylphenoxyethanamine derivatives are known to display antiproliferative activities on tumor cell lines consistently with their binding affinity to the microsomal antiestrogen binding site. In the present study we show that pyrrolidinobenzylphenoxyethanamine, a new efficient compound of this series, exhibits reversible effects on exponentially growing adult bovine aortic endothelial cells inducing (1) lamellated cytoplasmic inclusions, (2) cell proliferation inhibition, (3) dose-dependent transition delay of cells in the G0-G1 phase of the cell cycle. Complete reversal of these effects is achieved only by withdrawing the drug from the medium. The ultrastructural cellular modifications disappeared, and flow cytometry and thymidine incorporation analysis showed the effect on degree of synchronization of this one-step methodology.

Effects of differentiation-inducing agents on maturation of human MCF-7 breast cancer cells.

The effects of the differentiation inducing agents (DIAS), sodium butyrate (NaBu), retinoic acid (RA), dimethylformamide (DMF), hexamethylene bisacetamide (HMBA), forskolin, and 12-O-tetradecanoylphorbol-13-acetate (TPA), on the growth, morphology, and estrogen receptor (ER) content and epithelial membrane antigen (EMA) expression on a serumless human breast cancer cell line (MCF-7) were compared. All these agents reversibly caused a concentration-dependent growth inhibition in monolayers and markedly reduced colony-forming efficiency in soft agar. A twofold increase in doubling time was obtained with RA (1 microM), but cell replication ceased with NaBu (1 mM), forskolin (50 microM), DMF (1%), HMBA (5 mM), and TPA (8 nM). Total growth arrest induced by these last compounds was preceded by an accumulation of cells in G0/G1 phase observed at 24 h by flow cytometry and accompanied by a change in cell morphology as seen by light and electronic microscopy. An increase in cell volume and the presence of lipid droplets was noted in treated cells that were spread out, as compared with controls. The acquisition of a more mature phenotype was confirmed by an increased expression of EMA monitored by flow cytometry. A specific reduction in the number of ER without any constant dissociation (Kd) modification was also observed after treatment with the 5 DIAs. No modification of morphological or biochemical characteristics, including EMA expression and ER binding, were observed for RA (1 microM)-treated cells. All these results suggest that induction of a more differentiated phenotype is associated with a block in G1 cell cycle phase, resulting in total growth arrest. Apparently, RA (1 microM)-treated cells did not fulfill these criteria, since only a slight accumulation in G1 and a slowed growth rate were evaluated.

Structural and immunological properties of the phenolic glycolipids from Mycobacterium gastri and Mycobacterium kansasii.

Mycobacterial species-specific antigens belong to the three following classes: phenolic glycolipids (Phe Gl), acyltrehalose-containing lipooligosaccharides and polar glycopeptidolipids. These antigens have been chemically defined and alkali-labile epitopes were found to characterize the lipooligosaccharide antigen type. In the present study the major Mycobacterium kansasii phenolic glycolipid epitope namely Phe Gl K-I was delineated as the distal monoacetylated disaccharidic residue: 2,6-dideoxy-4-O-methyl-alpha-D-arabino-hexopyranosyl-(1----3)-2-O-methyl -4-O- acetyl-alpha-L-fucopyranose. This acetoxy group is required for K-I epitope recognition demonstrating that alkali-labile epitopes also occur in the phenolic glycolipid antigen class. Using immunoelectron microscopy, the Phe Gl K-I epitope was localized around the electron-transparent layer on the M. kansasii cell-wall surface. Furthermore, two new phenolic glycolipids namely Phe Gl K-III and Phe Gl K-IV were discovered in minute amounts. They were purified and characterized by their retention time in direct-phase column HPLC. These molecules are also M. kansasii antigens, whose epitopes differ from that of Phe Gl K-I. The complete family of phenolic glycolipids Phe Gl K-I, K-II, K-III and K-IV was found in both rough and smooth variants of both M. kansasii and Mycobacterium gastri species.

The effect of adenosine analogue (DRB) on a major nucleolar phosphoprotein nucleolin.

Nucleolin, a phosphorylated nucleolar protein, of 100 kDa selectively stained with bismuth tartrate and silver nitrate, is implicated in the transcription and maturation of pre-ribosomal RNA. Nucleolin also fulfills a structural function in nucleolar organization. Using immunocytochemistry the action of 5-6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), an inhibitor of hn/RNA synthesis known to modify the organization of the nucleolus, was studied for its effects on the distribution and the amount of nucleolin present. After DRB treatment, the morphology of the nucleolus was rapidly disturbed, but the distribution of the nucleolin remained unchanged: the dense fibrillar and the granular components were always positively immunostained. Thirty min after incubation with the drug, a strong increase of the amount of nucleolin occurred. Prolonged treatment led to a marked loss of label. Silver and bismuth staining showed that DRB does not seem to significantly affect the phosphorylation of nucleolin.

Reversible plasma membrane ultrastructural changes correlated with electropermeabilization in Chinese hamster ovary cells.

Chinese hamster ovary cells (CHO) grown in monolayers were permeabilized to molecules with molecular weight up to 1000 by high intensity 100 mus square wave electric field pulses. This permeability was transient and the cell viability was not affected. It was not possible for molecules with molecular weight larger than 1500 to penetrate inside the cytoplasm if lytic pulsing conditions were not used. In order to investigate the ultrastructural changes associated with this transient and limited permeabilization, cells were chemically fixed a few seconds after their pulsation and observed by electron microscopy. By scanning electron microscopy, numerous microvilli and blebs were observed almost immediately after application of the field. No other membrane changes were observed. Permeabilization of the membrane was visualized at the electron microscopic level by penetration of Ruthenium red. The appearance of osmotic pressure-dependent 'blebs' was indicative of local weakening of the plasma membrane. Most of these effects were fully reversible and disappeared within 30 min at 37 degrees C with the formation of huge polykaryons when cells were in contact before pulsing.

Influence of 12-O-tetradecanoylphorbol-13-acetate on proliferation and maturation of human breast carcinoma cells (MCF-7): relationship to cell cycle events.

Exposure of MCF-7 human mammary carcinoma cells to 12-O-tetradecanoylphorbol-13-acetate (TPA) results in changes in cell morphology and arrest of cell growth. The inhibition of cell proliferation and the increase in cell volume are concentration dependent; these effects are reversible upon removal of the tumor promoting agent. Electron microscopic studies reveal that TPA increases endoplasmic reticulum and induces the appearance of secretory granules. MCF-7 cells treated by TPA therefore present morphological characteristics of secretory cells. These effects of TPA on MCF-7 cells are accompanied by specific disruption of cell cycle events, a block of cells in G1 at the expense of S base, and a delayed passage through G2. Studies in which a cell cycle lock in G1 is produced by tamoxifen show that exposure of such cells to PA produces cell morphological changes and an inability to progress through the cell cycle when estradiol is added.

Megakaryopoiesis disturbances in atherosclerotic rabbits.

Rabbits given a hypercholesterolemic diet (500 mg/day) for 6 months and then maintained for another 6 months on a normal diet were found to have developed fibrous lipidic lesions in the aorta. Although circulating platelet levels in these animals were normal there was a reduction in mean megakaryocyte ploidy. The high concentrations of megakaryoblasts in all the sedimentation fractions collected by the 'STAPUT' system suggested an increase in megakaryocyte turnover with activation of committed stem cells. In addition, other defects in maturation of megakaryocytes were observed, such as abnormalities in the demarcation membrane system and granule number. These data reveal that defects in megakaryocyte maturation and turnover may occur during the process of reparative fibrosis of the arterial tree following a period of moderate hypercholesterolemic diet in the rabbit.

Megakaryocytes separation in homogeneous classes by unit gravity sedimentation: physico-chemical, ultrastructural and cytophotometric characterizations.

Separation by velocity sedimentation at unit gravity according to the STAPUT system of Miller and Phillips was applied to a population of rabbit megakaryocytes previously enriched by density gradient centrifugation. By this means, 80,000 to 100,000 megakaryocytes with 100% purity were collected in eight fractions according to size for a sedimentation velocity of 52 to 30 mm/hr. DNA-Feulgen cytophotometric measurements show significant correlation between megakaryocyte size and ploidy. The study of the eight purified fractions is of particular interest because it reflects megakaryopoiesis evolution. The different stages of megakaryocyte maturation of each fraction were analysed by transmission and scanning electron microscopy and were correlated to ploidy level. Thrombopoietic megakaryocytes with grape-like appearance were found in ploidy fractions 8n to 128n. Cytophotometric determinations of nucleohistones revealed several populations.