Doxorubicin-transferrin conjugate selectively overcomes multidrug resistance in leukaemia cells

Neoplastic cells frequently have an increased number of transferrin receptors. Coupling transferrin to an anti-neoplastic drug has the potential to overcome multidrug resistance (MDR). The purpose of this study was to examine the distribution and action of doxorubicin-transferrin conjugate (DOXTRF) in a leukaemia cell line (HL60), a multidrug-resistant leukaemia cell line (HL60ADR) and a normal tissue cell line (human fibroblasts). The intracellular accumulation of DOX and DOX-TRF was monitored by direct fluorescence. More DOX-TRF than free DOX was delivered to the tumour cells, and consecutively the levels of DNA double-strand breaks and apoptosis increased even in the multidrug-resistant cell line. In the normal tissue cell line, DOX-TRF did not accumulate, and therefore, the levels of DNA double-strand breaks and apoptosis did not increase. Cell viability was determined using the MTT assay. The IC₅₀ for DOX-TRF was lower than the IC₅₀ value for the free drug in both leukaemia cell lines. The IC₅₀ values for the HL60 cells were 0.08 μM for DOX and 0.02 μM for DOX-TRF. The IC₅₀ values for HL60ADR cells were 7 μM for DOX and 0.035 μM for DOX-TRF. In conclusion, DOX-TRF was able to overcome MDR in the leukaemia cell lines while having only a very limited effect on normal tissue cells.     

Occurrence and evolution of homogeneously staining regions may be due to breakage-fusion-bridge cycles following telomere loss

Chromosomes with homogeneously staining regions (HSR) were analysed in a subclone of the H4 rat hepatoma cell line, where they represent amplification of the ribosomal RNA (rRNA) genes. Detailed G-band analysis of the subclone revealed that an HSR on the short arm of chromosome 3 became unstable and changed its position within the chromosome. The evolution of this marker chromosome was associated with the terminal deletion of the normal long arm of the HSR-bearing chromosome 3 and may have involved ring formation as a result of fusion between the HSR on the short arm and the broken end of the long arm. Evidence was obtained for breakage at different sites within the ring, producing chromosomes with HSRs located terminally on either the long arms or both arms. The terminally located HSR underwent elongation in some cells presumably as a result of a breakage-fusion-bridge cycle characteristic of instability due to telomeric loss. It is suggested that terminally located HSRs may generally occur this way.     

Heparin Promotes Suspension Adaptation Process of CHO–TS28 Cells by Eliminating Cell Aggregation

While heparin has been shown to eliminate cell aggregation in suspension adaptations of insect and HEK293 cells for virus-based cell cultures, the role of heparin in long period serum-free suspension adaptation of the anchorage-dependent Chinese hamster ovary (CHO) cell lines remains inconclusive. In this paper, we explore the potential application of heparin in suspension adaptation of CHO cell line which produces an anti-human chimeric antibody cHAb18. Heparin showed a concentration-dependent inhibition of CHO–TS28 cell-to-cell adhesion, with a significant inhibitory effect occurring when the concentration exceeded 250 μg/ml (P < 0.001). Heparin also exhibited a cell aggregation elimination role at all concentrations (P < 0.001). Furthermore, heparin promoted cell growth and antibody secretion, with the highest cell density ((99.83 ± 12.21) × 10⁴ cells/ml, P = 0.034) and maximum antibody yield ((9.46 ± 0.94) mg/l, P < 0.001) both occurring at 250 μg/ml heparin. When agitated, cell aggregates were effectively dispersed by 250 μg/ml heparin and a single-cell suspension culture process was promoted. In suspension adapted CHO–TS28 cells, cell growth rates and specific antibody productivity were maintained; while antigen-binding activity improved slightly. Together, our results show that heparin may promote suspension adaptation of anchorage-depended CHO cells by resisting cell aggregation without reducing cell growth, antibody secretion, and antigen-binding activity.     

Cytotoxic activity induced by crude extracts of Ganoderma lucidum (W. Curt.: Fr.) P. Karst. on mouse myeloma cancer cell-line

Ganoderma lucidum powder using hot water and methanol extraction methods indicated a twofold more active cytotoxic activity with IC₅₀ of 44 ± 3.8 μg/ml in the latter method. The representative dose-response curves of the G. lucidum crude extracts on J558 cell-lines revealed that there were great similarities between the curves which reflected rapid killing activities. The percentage viability of the J558 cell exposed to these crude extracts was dose dependent only up to 150 μg/ml. After which, there was no significant reduction when the dose was increased to 200 or 400 μg/ml. The morphological alterations induced by the crude extract were examined under the phase contrast, fluorescent and electron microscopy. When J558 cells were treated with doses higher than 50 μg/ml of the crude extract, obvious morphological changes and apoptosis occurred after 72 h. At 400 μg/ml, most of the cells showed necrosis characterized as small fragments with uniformly stained red nuclei. The apoptotic and necrotic cells increased by 16.5 and 29.1%, respectively whereas the viable cells decreased by as much as 45.6. The mode of cell death via apoptosis was 3.6% higher than necrosis. However, these morphological changes were not observed in the case of 3T3 cells. Results obtained from scanning electron microscopy and transmission electron microscopy further confirmed the occurrence of various apoptotic and necrotic features.     

Cytotoxic activity of pisosterol, a triterpene isolated from Pisolithus tinctorius (Mich.: Pers.) Coker & Couch, 1928

Pisolithus tinctorius (Basidiomycete) is an ectomicorrhizal fungus found in the roots and soil surrounding of many species of eucalyptus and pine trees. The present work verified the cytotoxic potential of pisosterol, a triterpene isolated from P. tinctorius collected in the Northeast region of Brazil, on three different animal cell models: mouse erythrocytes, sea urchin embryos and tumor cells. Pisosterol lacked activity on mouse erythrocytes as well as on the development of sea urchin eggs, but strongly inhibited the growth of all seven tumor cell lines tested, especially the leukemia and melanoma cells (IC50 of 1.55, 1.84 and 1.65 microg/ ml for CEM, HL-60 and B16, respectively). The results found for pisosterol were compared with those of doxorubicin and etoposide.     

Interaction of benzo[c]phenanthridine and protoberberine alkaloids with animal and yeast cells

We compared the effects of four quaternary benzo[c]phenanthridine alkaloids – chelerythrine, chelilutine, sanguinarine, and sanguilutine – and two quaternary protoberberine alkaloids – berberine and coptisine – on the human cell line HeLa (cervix carcinoma cells) and the yeastsSaccharomyces cerevisiae andSchizosaccharomyces japonicus var. versatilis. The ability of alkaloids to display primary fluorescence, allowed us to record their dynamics and localization in cells. Cytotoxic, anti-microtubular, and anti-actin effects in living cells were studied. In the yeasts, neither microtubules nor cell growth was seriously affected even at the alkaloid concentration of 100 μg/ml. The HeLa cells, however, responded to the toxic effect of alkaloids at concentrations ranging from 1 to 50 μg/ml. IC₅₀ values for individual alkaloids were: sanguinarine IC₅₀ = 0.8 μg/ml, sanguilutine IC₅₀ = 8.3 μg/ml, chelerythrine IC₅₀ = 6.2 μg/ml, chelilutine IC₅₀ = 5.2 μg/ml, coptisine IC₅₀ = 2.6 μg/ml and berberine IC₅₀ >10.0 μg/ml. In living cells, sanguinarine produced a decrease in microtubule numbers, particularly at the cell periphery, at a concentration of 0.1 μg/ml. The other alkaloids showed a similar effect but at higher concentrations (5–50 μg/ml). The strongest effects of sanguinarine were explained as a consequence of its easy penetration through the cell membrane owing to nonpolar pseudobase formation and to a high degree of molecular planarity. This revised version was published online in July 2006 with corrections to the Cover Date.     

Role of ErbB2 mediated AKT and MAPK pathway in gall bladder cell proliferation induced by argemone oil and butter yellow

The effect of noncytotoxic doses of argemone oil (AO) and butter yellow (BY), the common adulterants in edible oil, on free radical generation and signaling pathway for cell proliferation in primary cells of gall bladder (GB) was undertaken. AO and BY showed no cytotoxicity at 0.1 μl/ml and 0.1 μg/ml concentration, respectively. AO caused significant increase in ROS after 30 min and RNS after 24 h in GB cells while no change was observed following BY treatment. Enhanced level of COX-2 was observed following AO (0.1 μl/ml) and BY (0.1 μg/ml) treatment to cells for 24 h. AO treatment caused phosphorylation of ErbB2, AKT, ERK, and JNK along with increased thymidine uptake indicating cell proliferation ability in GB cells. BY treatment also showed significant expression of these proteins with the exception of phosphorylated JNK. These results suggest that AO and BY have cell proliferative potential in GB cells following up-regulation of COX-2 and ErbB2; however, their downstream signaling molecules and free radical generation have differential response, indicating that the mechanism of proliferation is different for both compounds and may have relevance in gall bladder cancer.     

Influence of Plasmid Concentration on DNA Electrotransfer In Vitro Using High-Voltage and Low-Voltage Pulses

DNA electrotransfer in vivo for gene therapy is a promising method. For further clinical developments, the efficiency of the method should be increased. It has been shown previously that high efficiency of gene electrotransfer in vivo can be achieved using high-voltage (HV) and low-voltage (LV) pulses. In this study we evaluated whether HV and LV pulses could be optimized in vitro for efficient DNA electrotransfer. Experiments were performed using Chinese hamster ovary (CHO) cells. To evaluate the efficiency of DNA electrotransfer, two different plasmids coding for GFP and luciferase were used. For DNA electrotransfer experiments 50 μl of CHO cell suspension containing 100, 10 or 1 μg/ml of the plasmid were placed between plate electrodes and subjected to various combinations of HV and LV pulses. The results showed that at 100 μg/ml plasmid concentration LV pulse delivered after HV pulse increased neither the percentage of transfected cells nor the total transfection efficiency (luciferase activity). The contribution of the LV pulse was evident only at reduced concentration (10 and 1 μg/ml) of the plasmid. In comparison to HV (1,200 V/cm, 100 μs) pulse, addition of LV (100 V/cm, 100 ms) pulse increased transfection efficiency severalfold at 10 μg/ml and fivefold at 1 μg/ml. At 10 μg/ml concentration of plasmid, application of four LV pulses after HV pulse increased transfection efficiency by almost 10-fold. Thus, these results show that contribution of electrophoretic forces to DNA electrotransfer can be investigated in vitro using HV and LV pulses.     

Neuroprotective Effects of Chalcones from <Emphasis Type="Italic">Myracrodruon urundeuva</Emphasis> on 6-Hydroxydopamine-Induced Cytotoxicity in Rat Mesencephalic Cells

In the present work, we showed that a chalcone-enriched fraction (CEF) isolated from the stem bark of a Brazilian medicinal plant, Myracrodruon urundeuva, presents neuroprotective actions on 6-hydroxydopamine (6-OHDA)-induced neuronal cell death, in rat mesencephalic cells. In the MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium] assay, which is an index of cell viability, CEF (1–100 μg/ml) reversed in a concentration-dependent manner the 6-OHDA-induced cell death. While cells exposed to 6-OHDA (40 μM) showed an increased concentration of thiobarbituric acid reactive substances (TBARS), the pretreatment with CEF (10–100 μg/ml) significantly decreased the 6-OHDA-induced TBARS formation, indicative of a neuroprotection against lipoperoxidation. Furthermore, the drastic increase of nitrite levels induced by 6-OHDA, indicative of nitric oxide formation and free radicals production, was prevented by CEF. Double staining with acridine orange/ethidium bromide showed that cultures exposed to 6-OHDA (40 and 200 μM) presented an increase of apoptotic and necrotic cell numbers in a concentration-dependent manner. CEF (100 μg/ml) protected cells from apoptosis and necrosis and increased number of cells presenting a normal morphology. The immunohistochemical analysis for tyrosine hydroxylase (TH) positive neurons indicated that 6-OHDA (40 and 200 μM) caused a concentration-dependent loss of TH+ and TH− neurons. CEF protected both cells types from 6-OHDA-induced cell death. All together, our results demonstrated neuroprotective effects of chalcones, which are able to reduce oxidative stress and apoptotic injury caused by 6-OHDA. Our findings suggest that chalcones could provide benefits, along with other therapies, in neurodegenerative injuries, such as Parkinson’s disease.     

Cytotoxic and genotoxic effects of sodium hypochlorite on human peripheral lymphocytes in vitro

Chlorination is widely used method in the disinfection of drinking and utility water worldwide. In this study, cytotoxic and genotoxic effects of sodium hypochlorite were investigated by the cytokinesis-block micronucleus assay and chromosomal aberration analysis on human peripheral lymphocytes in vitro. A significant increase in chromosomal aberration frequency was observed in all treatments of NaOCl (0.030, 0.065, 0.100, 0.25, 0.5, 1, 2, 4 μg/mL) at 24 and 48 h compared with the negative control and mitomycin C (MMC, 0.3 μg/mL), which was used as a positive control. NaOCl significantly increased the frequency of micronuclei in a dose dependent manner. The results showed that there was a significant correlation between NaOCl concentration and chromosomal aberration, micronuclei frequency, necrotic cells, apoptotic cells and binucleated cells.     

Protective Effect of <Emphasis Type="Italic">Nigella sativa</Emphasis> Extract and Thymoquinone on Serum/Glucose Deprivation-Induced PC12 Cells Death

The serum/glucose deprivation (SGD)-induced cell death in cultured PC12 cells represents a useful in vitro model for the study of brain ischemia and neurodegenerative disorders. Nigella sativa L. (family Ranunculaceae) and its active component thymoquinone (TQ) has been known as a source of antioxidants. In the present study, the protective effects of N. sativa and TQ on cell viability and reactive oxygen species (ROS) production in cultured PC12 cells were investigated under SGD conditions. PC12 cells were cultured in DMEM medium containing 10% (v/v) fetal bovine serum, 100 units/ml penicillin, and 100 μg/ml streptomycin. Cells were seeded overnight and then deprived of serum/glucose for 6 and 18 h. Cells were pretreated with different concentrations of N. sativa extract (15.62–250 μg/ml) and TQ (1.17–150 μM) for 2 h. Cell viability was quantitated by MTT assay. Intracellular ROS production was measured by flow cytometry using 2′,7′-dichlorofluorescin diacetate (DCF-DA) as a probe. SGD induced significant cells toxicity after 6, 18, or 24 h (P < 0.001). Pretreatment with N. sativa (15.62–250 μg/ml) and TQ (1.17–37.5 μM) reduced SGD-induced cytotoxicity in PC12 cells after 6 and 18 h. A significant increase in intracellular ROS production was seen following SGD (P < 0.001). N. sativa (250 μg/ml, P < 0.01) and TQ (2.34, 4.68, 9.37 μM, P < 0.01) pretreatment reversed the increased ROS production following ischemic insult. The experimental results suggest that N. sativa extract and TQ protects the PC12 cells against SGD-induced cytotoxicity via antioxidant mechanisms. Our findings might raise the possibility of potential therapeutic application of N. sativa extract and TQ for managing cerebral ischemic and neurodegenerative disorders.     

Amplification of portions of the genome in mammalian somatic cells resistant to colchicine. II. Marker chromosomes with long homogeneously staining regions in colchicine-resistant cells of the Djungarian hamster

The series of sublines 170-750 times more resistant to colchicine were obtained from 10 independent clones of Djungarian hamster cells possessing 16-22-fold resistance to the drug. From each clone, several sublines with different levels of colchicine-resistance were developed. The drug resistance was unstable. 2,7-4,0% of cells per population doubling lost resistance to selective dosages of colchicine. The loss of resistance was stepwise. The chromosomes stained by trypsin G-banding technique were studied in 17 sublines. 15 sublines derived from 9 independent clones contained chromosomes with long homogeneously staining regions (HSRs). These were, as a rule, primarily localized in the long arm of chromosome 4. During cultivation, HSRs were transferred from chromosome 4 into other chromosomes. Evidently, transposition of HSRs was due to translocations of different chromosomes of HSRs in the chromosome 4 and to subsequent breakages of the resulting dicentrics within HSRs. A great number of different chromosomal rearrangements was also found in the cells containing HSRs. Possibly, formation of HSR leads to destabilization of the karyotype and to the variability of the genome. The length of HSRs varied in different cells of each subline. The levels of colchicine-resistance in different sublines did not correlate with the average length of HSRs in their cells. The lack of connection between the lengths of HSRs and the levels of drug resistance as well as the existence of highly resistant sublines with gene amplification, but without HSRs, suggest that amplified genes are localized in Djungarian hamster colchicine-resistant cells both in chromosomes and extrachromosomally.     

Antibacterial effect of silver nanoparticles on <Emphasis Type="Italic">Staphylococcus aureus</Emphasis>

The antibacterial activity and mechanism of silver nanoparticles (Ag-NPs) on Staphylococcus aureus ATCC 6538P were investigated in this study. The experiment results showed the minimum bactericidal concentration (MBC) of Ag-NPs to S. aureus was 20 μg/ml. Moreover, when bacteria cells were exposed to 50 μg/ml Ag-NPs for 6 h, the cell DNA was condensed to a tension state and could have lost their replicating abilities. When S. aureus cells were exposed to 50 μg/ml Ag-NPs for 12 h, the cell wall was breakdown, resulting in the release of the cellular contents into the surrounding environments, and finally became collapsed. And Ag-NPs could reduce the enzymatic activity of respiratory chain dehydrogenase. Furthermore, the proteomic analysis showed that the expression abundance of some proteins was changed in the treated bacterial cell with Ag-NPs, formate acetyltransferase increased 5.3-fold in expression abundance, aerobic glycerol-3-phosphate dehydrogenase decreased 6.5-fold, ABC transporter ATP-binding protein decreased 6.2-fold, and recombinase A protein decreased 4.9-fold.     

Novel DNA sequences at chromosome 10q26 are amplified in human gastric carcinoma cell lines: molecular cloning by competitive DNA reassociation.

Molecular cloning of genomic sequences altered in cancer cells is believed to lead to the identification of new genes involved in the initiation and progression of the malignant phenotype. DNA amplification is a frequent molecular alteration in tumor cells, and is a mode of proto-oncogene activation. The cytologic manifestation of this phenomenon is the appearance of chromosomal homogeneously staining regions (HSRs) or double minute bodies (DMs). The gastric carcinoma cell line KATO III is characterized by a large HSR on chromosome 11. In-gel renaturation analysis confirmed the amplification of DNA sequences in this cell line, yet none of 42 proto-oncogenes that we tested is amplified in KATO III DNA. We employed the phenol-enhanced reassociation technique (PERT) to isolate 21 random DNA fragments from the amplified domain, and used 6 of them to further clone some 150 kb from that genomic region. While in situ hybridization performed with some of these sequences indicated that in KATO III they are indeed amplified within the HSR on chromosome 11, somatic cell hybrid analysis and in situ hybridization to normal lymphocyte chromosomes showed that they are derived from chromosome 10, band q26. The same sequences were found to be amplified in another gastric carcinoma cell line, SNU-16, which contains DMs, but were not amplified in other 70 cell lines representing a wide variety of human neoplasms. One of these sequences was highly expressed in both KATO III and SNU-16. Thus, the cloned sequences supply a starting point for identification of novel genes which might be involved in the pathogenesis of gastric cancers, and are located in a relatively unexplored domain of the human genome.     

Antibacterial activity and mechanism of silver nanoparticles on Escherichia coli

The antibacterial activity and acting mechanism of silver nanoparticles (SNPs) on Escherichia coli ATCC 8739 were investigated in this study by analyzing the growth, permeability, and morphology of the bacterial cells following treatment with SNPs. The experimental results indicated 10 μg/ml SNPs could completely inhibit the growth of 10⁷ cfu/ml E. coli cells in liquid Mueller–Hinton medium. Meanwhile, SNPs resulted in the leakage of reducing sugars and proteins and induced the respiratory chain dehydrogenases into inactive state, suggesting that SNPs were able to destroy the permeability of the bacterial membranes. When the cells of E. coli were exposed to 50 μg/ml SNPs, many pits and gaps were observed in bacterial cells by transmission electron microscopy and scanning electron microscopy, and the cell membrane was fragmentary, indicating the bacterial cells were damaged severely. After being exposed to 10 μg/ml SNPs, the membrane vesicles were dissolved and dispersed, and their membrane components became disorganized and scattered from their original ordered and close arrangement based on TEM observation. In conclusion, the combined results suggested that SNPs may damage the structure of bacterial cell membrane and depress the activity of some membranous enzymes, which cause E. coli bacteria to die eventually.     

Cytological, flow cytometric, and molecular analysis of the rapid evolution of mammalian chromosomes containing highly amplified DNA sequences

Transfection of a mouse dihydrofolate reductase (DHFR) cDNA contained in a plasmid "expression vector" into DHFR deficient Chinese hamster cells, followed by progressive selection of cells in increasing concentrations of methotrexate (MTX), leads to marked amplification of the exogenous DHFR sequences in the recipient hamster cells. This gene amplification is evident at the cytological level, in the form of homogeneously staining chromosomal regions (HSRs), at a gene expression level, in the form of fluorescein-methotrexate binding, and at the DNA level. Flow sorting, based on variable fluorescein-MTX binding, or direct cellular cloning, followed by chromosome analysis, revealed intercellular heterogeneity of HSRs in size and distribution. This suggested that there was a rapid evolution of HSRs in MTX-resistant transfectants. Chromosomal analysis of HSR evolution in situ, by examining individual colonies presumably derived from one or a few cells, underscored this impression of chromosome structural fluidity. Rates of HSR change in excess of 0.01 per cell division, increased by low doses of the recombinogen, mitomycin C, were detected. The Chinese hamster DHFR transfectants described should be amenable to detailed, coordinate cytological and molecular characterization. Such an analysis should contribute to an understanding of processes such as homologous recombination in mediating HSR evolution in mammalian chromosomes.     

Response of murine erythroleukemia cells to cis-and trans-diamminedichloro-platinum (II)

Summary Cis-diamminedichloroplatinum II (cis-DDP), an antitumor drug and the inactive trans-isomer were studied to evaluate their effects on cell multiplication, DNA synthesis, and surface morphology of the murine erythroleukemia cells (clone 6A11A). Short-term treatment of cells (1h) with 5 and 10μg/ml of cis-DDP resulted in a significant inhibition of cell multiplication. Continuous treatment with cis-DDP (up to 144 h) significantly arrested cell growth at 1,5, and 10μg/ml. The cells exposed to 10 μg/ml trans-DDP exhibited a slight decrease in cell multiplication; however, the 25-μg/ml treatments showed a modest inhibition of cell growth. Continuous treatment with cis-DDP resulted in a concentrationdependent decrease in DNA synthesis, although low-dose treatment (0.05 and 0.1 μg/ml), with a few exceptions, had no relative inhibitory effect. Likewise, trans-DDP treatments decreased tritiated thymidine incorporation; however, this inhibitory effect was not as drastic as with corresponding concentrations of cis-DDP. Scanning electron microscope studies revealed the formation of many giant cells and blebs at all short-term treatment concentrations of cis-DDP past the 48 h interval. Continuous treatment of cis-DDP at 1 μg/ml concentration produced giant cells with minute holes, whereas the 5 and 10 μg/ml exposure resulted in the formation of blebs and large holes and reduction of microvilli past the 48-h treatment period. At higher concentrations the continuous treatment of cis-DDP completely destroyed the cells. The surface morphology of trans-isomer treated cells, in most instances, resembled the corresponding untreated control cells.     

Cytological,flow cytometric,and molecular analysis of the rapid evolution of mammalian chromosomes containing highly amplified DNA sequences

Summary Transfection of a mouse dihydrofolate reductase (DHFR) cDNA contained in a plasmid expression vector into DHFR deficient Chinese hamster cells, followed by progressive selection of cells in increasing concentrations of methotrexate (MTX), leads to marked amplification of the exogenous DHFR sequences in the recipient hamster cells. The gene amplification is evident at the cytological level, in the form of homogeneously staining chromosomal regions (HRSs), at a gene expression level, in the form of fluorescein-methotrexate binding, and at the DNA level. Flow sorting, based on variable fluorescein-MTX binding, or direct cellular cloning, followed by chromosome analysis, revealed intercellular heterogeneity of HSRs in size and distribution.This suggested that there was a rapid evolution of HSRs an MTX-resistant transfectants. Chromosomal analysis of HSR evolution in situ, by examining individual colonies presumably derived from one or a few cells, underscored this impression of chromosome structural fluidity. Rates of HSR change in excess of 0.01 per cell division, increased by low doses of the recombinogen, mitomycin C were detected. The Chinese hamster DHFR transfectants described should be amenable to detailed, coordinate cytological and molecular characterization. Such an analysis should contribute to an understanding of processes such as homologous recombination in mediating HSR evolution in mammalian chromosomes.     

Regulation of growth and differentiation by vitamin a in a cloned fetal lung epithelial cell line cultured on collagen gell in hormone-supplemented medium

Summary Proliferative and differentiative responses to various doses of vitamin A (VA) were studied in the predifferentiated cells of a fetal Syrian hamster pulmonary epithelial line (M3E3/C3), which were cultured on a collagen gel in a hormone-supplemented medium. These predifferentiated cells possessed well-developed endoplasmic reticulum (ER) and Golgi apparatus. At VA doses higher than 8 μg/ml, periodic acid Schiff and slightly alcian blue positive mucuslike granules were produced, which were also detectable electron microscopically. These mucuslike products were rich in sialic acid and resembled quite well those from primary cultures of tracheal epithelial cells of Syrian hamster sucklings when analyzed by column chromatography on various types of gel. At all VA doses studied (2.4, 8, 24 μg/ml), cells grew exponentially with an average population doubling time of around 74 h, whereas in the absence of VA they had a linear growth rate and a population doubling time of 158 h between Days 4 and 11. The uptake of [³H]glucosamine into the whole cell homogenates showed a peak at Day 8, irrespective of VA doses (0 to 24 μg/ml), and at the highest VA dose (24 μg/ml) it exceeded by twofold the control (0 μg/ml) level. At the same time, [¹⁴C]thymidine demonstrated a high peak of uptake on Day 8 at 8 and 24 μg/ml VA. There was virtually no difference between 0 and 2.4 μg/ml VA, with both doses yielding much lower peaks. Based on the results currently presented and previously reported, three successive stages were hypothesized for the mucous differentiation processes in M3E3/C3. The process from the first undifferentiated stage to the second predifferentiated stage with well-developed ER and Golgi apparatus requires both collagen gels and hormones. Differentiationn from the second stage to the third secretory stage with mucous granules is stimulated by VA. These observations indicate that the cell line M3E3/C3 could provide a new system for investigating the mechanisms of mucus differentiation by VA. This study was partly supported by a grant for Humanisierung des Arbeitslebens from Bundesministerium für Forschung und Technologie     

A novel bacterial pathogen (Enterobacter sp.) isolated from the leaf roller, Caloptilia theivora of tea of Darjeeling foothills

Enterobacter sp. was isolated from the diseased and dead caterpillars of the tea leaf roller (Caloptilia theivora) from the Darjeeling foothill region. When the vegetative form of the bacterium was applied via food, mortality of C. theivora showed an LC₅₀ value at 363.1 μg/ml (bacterial wt./vol. of water) with fiducial limits 363.25 and 362.94 μg/ml respectively. The LT₅₀ values for C. theivora were 6 days for 100 μg/ml, 5.96 days for 300 μg/ml, 5.81 days for 500 μg/ml, 4.96 days for 750 μg/ml and 4.61 days for 1,000 μg/ml concentrations. The finding would enable one to contemplate development of a microbial pesticide using this novel Enterobacter sp. DD01 for control of the leaf rolling pest.