Serum-induced chromosome damage and neoplastic transformation of mouse cells in vitro

Summary In previous studies, mouse cells grown in medium supplemented with horse serum (HS) developed more chromosomal aberrations and underwent malignant transformation earlier than cells from the same pool grown with fetal bovine serum (FBS) supplement. In the present study cells derived from C3H_f/HeN mouse embryos were grown in medium NCTC-135 supplemented with various combinations of large- and small-molecule fractions of HS and FBS in an effort to determine the effective components. The results indicate that the large-molecule fraction of HS (mare or stallion) produces alterations in chromosome number and structure. HS is also shown to cause chromatid breaks and exchanges at or near the centromere in contrast to fluorescent-light-induced breaks which occur randomly along the chromatid. However, efforts to control completely chromosome stability and malignant transformation through the use of large-and small-molecule fractions of HS and FBS or combinations thereof were unsuccessful. In comnection with this study, diagnosis of malignant transformation in vitro was made by a direct sampling method based on cytologic criteria previously described and documented. With one exception, the diagnoses of 11 different cell lines were consistent with results of in vivo assays.     

PROTEIN SYNTHESIS IN FRACTIONS FROM ISOLATED BRAIN CELL NUCLEI

Abstract— 1. The incorporation in vivo and in vitro of isotopically labelled leucine into fractions of nuclear proteins from young and adult rat brain was investigated.
2. During post-natal cerebral maturation, the ability of nuclei from brain cells to synthesize proteins decreased. The specific activities of all the fractions of nuclear protein were highest in 3-day-old rats and declined thereafter. Nuclei from adult brain cells exhibited only 10 per cent of the activity found in nuclei from brain cells of 3-day-old rats.
3. The 'residual protein' fraction was most rapidly labelled, peak activity being reached within 30 min after injection. In vitro , the 'residual protein' fraction attained maximum activity within 40 min.
4. The specific activity of the chromatin acidic proteins (HCl-insoluble) was considerably higher than that of the histones both in vivo and in vitro. Histones were the most inert of all the nuclear protein fractions studied.
The possible functional significance of the various protein fractions during the process of cerebral maturation and in the adult brain is discussed.     

Antifilarial activity of marine sponge Haliclona oculata against experimental Brugia malayi infection

The present study incorporates the findings on in vitro and in vivo antifilarial activity in the marine sponge, Haliclona oculata using an experimental rodent infection of human lymphatic filarial parasite, Brugia malayi. The in vitro antifilarial action was determined on both adult female worms as well as microfilariae using two parameters viz. adverse effect on motility and inhibition in MTT reduction by the treated adult parasite over control worm. The antifilarial activity could be located in the methanol extract and one of its four fractions (chloroform). Bioactivity guided fractionation of chloroform fraction led to localization of in vitro activity in one of its eight chromatographic fractions. Methanol extract, chloroform fraction and one of the chromatographic fractions revealed IC(50) values of 5.00, 1.80, and 1.62μg/ml, respectively when adult B. malayi were exposed to these test samples for 72h at 37°C. Under similar exposure conditions, the IC(50) values for microfilariae were 1.88, 1.72 and 1.19μg/ml, respectively. The active test samples were found to be safe revealing >10 selectivity indices (SI) on the basis of cytotoxicity to Vero cells (monkey kidney cells) and therefore selected for in vivo evaluation against primary (adult B. malayi intraperitoneal transplanted jird) and secondary (subcutaneous infective larvae induced mastomys) screens. In primary jird model, the three test samples at 100mg/kg for five consecutive days by subcutaneous route demonstrated significant macrofilaricidal efficacy to the tune of 51.3%, 64% and 70.7% by methanol extract, chloroform and chromatographic fraction, respectively. The three samples demonstrated 45-50% macrofilaricidal activity with moderate embryostatic effect in secondary model at 5×500, 5×250 and 5×125mg/kg by oral route. Chromatographic fraction possessing highest antifilarial action was primarily found to be a mixture of four alkaloids Mimosamycin, Xestospongin-C, Xestospongin-D and Araguspongin-C in addition to few minor compounds.     

In vivo and in vitro lysis of mouse cancer cells by antimetastatic effectors in normal plasma

Summary Results of parallel in vivo (IV. challenge) and in vitro (trypan blue staining) tests suggest that normal molecular factors in mouse blood can rapidly lyse malignant cells that enter the circulation. An inverse relationship was seen between the ability of malignant cells to form metastases after IV. injection and their susceptibility to lysis in vivo and in vitro. A mammary carcinoma lost its susceptibility to lysis and gained an ability to form metastases with conversion to the ascites form. The factor(s) active against tumor cells in vitro was were most evident in whole plasma, less so in serum form. The factors active against tumor cells in vitro globulin fraction of normal serum. Whole serum from tumor hosts had lower activity than whole normal serum, but had gained some activity in the immunoglobulin fraction. Treatment of normal animals with immunogens reduced the antitumor activity of whole serum. Whole-body irradiation, and, to a lesser degree, cyclophosphamide treatment, increased the activity.     

Evidence for the functional binding in vivo of tumor rejection antigens to antigen-presenting cells in tumor-bearing hosts

Spleen cells of BALB/c mice bearing a syngeneic CSA1M fibrosarcoma were treated with anti-Thy-1.2 antibody plus C, yielding a T cell-depleted, APC-containing fraction. The APC-containing fraction was first tested for its capacity to present exogenous modified-self or another tumor (Meth A) Ag after in vitro pulsing. The results showed comparable Ag-presenting capacities to those obtained by APC-containing fraction from normal spleen cells, indicating that APC function is not affected in tumor-bearing mice. We next examined whether APC from CSA1M-bearing mice bind endogenously generated CSA1M tumor Ag onto its surfaces to stimulate tumor-specific T cells. Five rounds of inoculation of APC-containing fraction from CSA1M-bearing mice without further in vitro pulsing resulted in the induction of potent anti-CSA1M immune resistance. The involvement of anti-CSA1M T cells in the induction of anti-CSA1M immunity was excluded by the fact that the in vivo immunity was excluded by the fact that the in vivo immunity was delivered by Thy-1+ cell-depleted, but not by Thy-1+ cell-enriched fractions of spleen cells from CSA1M-bearing mice. Moreover, the failure of Sephadex G10-passed spleen cells to deliver anti-CSA1M resistance demonstrated the absolute requirement of APC for inducing the in vivo immunity. Finally, this in vivo resistance was found to be tumor specific, because APC fractions from CSA1M-bearing and Meth A-bearing BALB/c mice induced immune resistance selective against the corresponding tumor cell challenge. These results indicate that APC from tumor-bearing hosts can not only exert unaffected APC function against exogenous Ag, but also function to present tumor Ag generated endogenously in the tumor-bearing state and to produce tumor-specific immunity in vivo.     

Morphological and functional heterogeneity of rat ascitic hepatoma Zajdela cells

This work is devoted to the study of molecular and cellular mechanisms of disdifferentiation during neoplastic transformation of cells by investigating the malignant tumor cell heterogeneity. We have revealed two cell fractions of hepatoma Zajdela which differ in patterns of growth in primary culture. The cells of one fraction were attached to the culture plastic and grew in a monolayer (S-fraction), whereas cells of another fraction floated in the culture medium (F-fraction). Using method of lifetime supervision of primary culture cells (1-2 passages) at the limit of the resolving power of DIC-microscopy it has been revealed, that both fractions contain cells of several types. Some of them were specific for one of the fractions, and others were found in both fractions, but their frequencies differed. It has been shown by the same method, that long separate cultivation of these fractions in vitro (more than 50 passage) change both cellular structure and the initial ratio of different types of cells in both fractions. According to DNA flow cytometry, the cells of both fractions were hypotetraploid and had insignificant differences in DNA contents. After adaptation to in vitro conditions, S-fraction cells raised their proliferative activity in comparison with the F-fraction cells, and after long cultivation showed 2.3 times higher DNA content. Greater amount of cell surface laminin, a hepatocellular carcinoma marker, was observed on F-fraction cells than on S-fraction cells. Interfractional distinctions were confirmed also by immunologic assessment of hepatoma cells resistance to natural killer lyses: the sensitivity of S-fraction cells in primary culture was 2.4 times higher than F-fraction cells sensitivity, and, after long cultivation, F-fraction cells became practically resistant to cytotoxic action of natural killers. Based on the data obtained, the most probable paths of cell disdifferentiation during hepatoma Zajdela formation and during long cultivation of this tumor cells in vitro are discussed.     

Translation and identification of the viral mRNA species isolated from subcellular fractions of vesicular stomatitis virus-infected cells.

The cytoplasm of vesicular stomatitis virus (VSV)-infected BHK cells has been separated into a fraction containing the membrane-bound polysomes and the remaining supernatant fraction. Total poly(A)-containing RNA was isolated from each fraction and purified. A 17S class of VSV mRNA was found associated almost exclusively with the membrane-bound polysomes, whereas 14,5S and 12S RNAs were found mostly in the postmembrane cytoplasmic supernatant. Poly(A)-containing VSV RNA synthesized in vitro by purified virus was resolved into the same size classes. The individual RNA fractions isolated from VSV-infected cells or synthesized in vitro were translated in cell-free extracts of wheat germ, and their polypeptide products were compared by sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis. The corresponding in vivo and in vitro RNA fractions qualitatively direct the synthesis of the same viral polypeptides and therefore appear to contain the same mRNA species. By tryptic peptide analysis of their translation products, the in vivo VSV mRNA species have been identified. The 17S RNA, which is compartmentalized on membrane-bound polysomes, codes for a protein of molecular weight 63,000 (P-63) which is most probably a nonglycosylated form of the viral glycoprotein, G. Of the viral RNA species present in the remaining cytoplasmic supernatant, the 14.5S RNA codes almost exclusively for the N protein, whereas the 12S RNA codes predominantly for both the NS and M proteins of the virion.     

Comparison of antitumor activities of different polysaccharide fractions from the stems of Dendrobium nobile Lindl

The antitumor activities of extracted polysaccharide fractions from the stems of Dendrobium nobile Lindl were investigated. Polysaccharides were sequentially extracted from the stems of D. nobile to obtain three fractions, i.e. water extract fraction (DNP-W), 5% NaOH extract fraction (DNP-OH) and 5% HCl extract fraction (DNP-H). Further the DNP-W was isolated to give six sub-fractions (DNP-W1, DNP-W2, DNP-W3, DNP-W4, DNP-W5 and DNP-W6) by anion-exchange chromatography. The monosaccharide profile, protein content, uronic acid content, total carbohydrate content, viscosity and molecular weight of nine polysaccharide fractions were analyzed. Both the in vivo and in vitro antitumor activities of nine polysaccharide fractions were evaluated and compared. Results indicated that DNP-W1 and DNP-W3 exhibited high antitumor activities against Sarcoma 180 in vivo and HL-60 in vitro. The results suggested that DNP-W1 and DNP-W3 could be considered as an effective natural antitumor source.     

Immunodepressive activity of the different fractions of the antilymphocyte serum obtained after separation on DEAE-Sephadex

Three protein fractions were obtained after the separation of the antilymphocytic sera (ALS). The first and the second ones chiefly consisted of gammaglobulins, and the third fraction contained the rest serum proteins. The second fraction possessed the greatest lymphocytotoxic activity in vitro, and also immunodepressive activity in vivo; administration of this fraction to mice caused depression of antibody-producing cells in the spleen to 9.1 +/- 2.8 (90 +/- 28.9 antibody-producing cells per 1 X 10(6) cells in control). The first fraction possessed a much lesser immunodepressive activity, and the third one practically failed to depress the immune response.     

Induction of tumor growth inhibitory factor (TGIF) in human mononuclear cells by OK-432, a streptococcal preparation

Summary A tumor growth inhibitory factor (TGIF) was induced in the culture supernatant from mixed culture of human peripheral blood mononuclear cells (PBMC) and a streptococcal preparation, OK-432, in vitro. The activity generated in the supernatant increased in a time-dependent fashion and first appeared 6 h after the initiation of culture, reaching its maximum around 48 h. The TGIF was cytostatic against seven of ten human tumor targets, but not against three murine tumor targets. Tumor cell growth was inhibited by a transient contact, i.e., 1 h, with TGIF. The TGIF was produced by lymphocytes but not by monocytes, because the activity was usually enhanced by elimination of plastic-adherent cells from the original PBMC fraction. The TGIF was relatively stable against heating at 56° C for 30 min, but the activity was totally destroyed after heating at 70° C for 5 min. The molecular weight of TGIF was estimated to be about 43×10³ daltons by gel filtration. No interferon (IFN) activity was detected in the TGIF-positive fractions obtained by gel filtration, and the TGIF-positive fractions did not inhibit the growth of tumor necrosis factor (TNF)-sensitive mouse L929 cells. The TGIF activity was not significantly affected in neutralizing tests using specific antibodies against human IFN and TNF. The OK-432 was administered i.p. for management of cancer patients with malignant ascites. Ascites-derived mononuclear cells (ASMC) were obtained before and 3 to 5 days after OK-432 injection. The ASMC obtained after the injection produced TGIF in vitro in the absence of OK-432; the preinjection ASMC showed no such production. A positive correlation was found between TGIF-producing activity by ASMC and the effect of OK-432 injection on ascites volume. These results indicate that TGIF is induced in mononuclear cells by OK-432 not only in vitro but also in vivo and plays an important role in inhibition of tumor growth in cancer patients.     

Requirement of the collagenous domain for carbohydrate processing and secretion of a surfactant protein, SP-A

Two distinct intracellular forms of surfactant protein Mr = 35,000 (SP-A) were demonstrated in both purified type II epithelial cells and rat lung in vivo. High-mannose precursors of Mr = 30,000 and 34,000 comprised a significant fraction of intracellular SP-A in vivo and in vitro. A second intracellular pool was demonstrated in lamellar body enriched fractions, which contained endoglycosidase-H resistant, sialylated forms of SP-A. Intracellular transport and secretion of SP-A was not altered by inhibitors of carbohydrate processing. However, incubation of type II cells with alpha,alpha'-dipyridyl or cis-4-hydroxy-L-proline, agents which disrupt triple-helix formation within collagenous peptide domains, inhibited sialylation, intracellular transport to the lamellar body fraction and secretion. In the presence of either alpha,alpha'-dipyridyl or cis-4-hydroxy-L-proline, high mannose precursors accumulated intracellularly and were not secreted after 16-18 h. Thus, high-mannose precursors in proximal intracellular pool(s) and sialylated forms in lamellar body-enriched fractions represent two major intracellular storage forms of SP-A in vitro and in vivo. SP-A is routed by processes dependent upon the hydroxylation of the collagenous domain of the polypeptide. Transport and secretion of SP-A are not dependent upon the addition or processing of asparagine-linked carbohydrate.     

Human tonsil B lymphocyte function. II. Pokeweed mitogen-induced plasma cell differentiation of B cell subpopulations expressing multiple heavy chain isotypes on their surface

Human tonsil non-T cells were successfully separated into surface IgM+G-ve (sIgM+G-), sIgM+G+, sIgM-G-, and sIgM-G+ B cell fractions. The two-step separation technique used did not affect the pokeweed mitogen- (PWM) induced plasma cell differentiation of the B cells. The highest percentages of plasma cells after PWM stimulation were found in the sIgM- fractions, and the lowest percentage was in the sIgM+G- fraction (20.8 +/- 2.3%), the latter predominantly cytoplasmic mu-chain-positive (c mu +) (84.1 +/- 3.5%) plasma cells. In this fraction, almost no c gamma + plasma cells were found. The sIgM+G+ produced c mu + (47.5 +/- 7.5%), c gamma + (35.7 +/- 5.8%), and c alpha + (16.8 +/- 4.0%) plasma cells. All three isotypes were found on the surface of the B cells in this fraction before PWM stimulation. The sIgM-G- fraction contained about 10% plasma cells before stimulation, which were predominantly c gamma +. After PWM stimulation, primarily c alpha + (64.2 +/- 4.3%) plasma cells were found. The sIgM-G+ fraction produced both c gamma + (75.0 +/- 2.3%) and c alpha + (24.1 +/- 2.5) plasma cells. A mu to gamma class switch did not occur in vitro in the sIgM+G- fraction on PWM stimulation, and the sIgM+G+ fraction did not complete in vitro the mu to gamma switch it had started in vivo.     

Reconstitution of protein transport from the endoplasmic reticulum to the Golgi complex in yeast: the acceptor Golgi compartment is defective in the sec23 mutant

Using either permeabilized cells or microsomes we have reconstituted the early events of the yeast secretory pathway in vitro. In the first stage of the reaction approximately 50-70% of the prepro-alpha-factor, synthesized in a yeast translation lysate, is translocated into the endoplasmic reticulum (ER) of permeabilized yeast cells or directly into yeast microsomes. In the second stage of the reaction 48-66% of the ER form of alpha-factor (26,000 D) is then converted to the high molecular weight Golgi form in the presence of ATP, soluble factors and an acceptor membrane fraction; GTP gamma S inhibits this transport reaction. Donor, acceptor, and soluble fractions can be separated in this assay. This has enabled us to determine the defective fraction in sec23, a secretory mutant that blocks ER to Golgi transport in vivo. When fractions were prepared from mutant cells grown at the permissive or restrictive temperature and then assayed in vitro, the acceptor Golgi fraction was found to be defective.     

Cell cycle specific plasmid DNA replication in the nuclear extract of Saccharomyces cerevisiae: modulation by replication protein A and proliferating cell nuclear antigen

Plasmid DNA replication in nuclear extracts of Saccharomyces cerevisiae in vitro has been shown to be S-phase specific, similar to that observed in vivo. We report here a reconstituted in vitro system with partially purified replication proteins, purified replication protein A (RPA), and recombinant proliferating cell nuclear antigen (PCNA). Nuclear extracts from S-phase, G(1)-phase, and unsynchronized yeast cells were fractionated by phosphocellulose chromatography. Protein fraction (polymerase fraction) enriched with replication proteins, including DNA polymerases (alpha, delta, etc.), was isolated, which was not capable of in vitro replication of supercoiled plasmid DNA. However, when purified yeast RPA and recombinant PCNA together were added to the polymerase fraction obtained from S-phase synchronized cells, in vitro plasmid DNA replication was restored. In vitro plasmid DNA replication with polymerase fractions from unsynchronized and G(1)-phase cells could not be reconstituted upon addition of purified RPA and PCNA. RPA and PCNA isolated from various phases of the cell cycle complemented the S-phase polymerase pool to the same extent. Reconstituted systems with the S-phase polymerase pool, complemented with either the RPA- and PCNA-containing fraction or purified RPA and recombinant PCNA together, were able to produce replication intermediates (ranging in size from 50 to 1500 bp) similar to that observed with the S-phase nuclear extract. Results presented here demonstrate that both RPA and PCNA are cell cycle-independent in their ability to stimulate in vitro plasmid DNA replication, whereas replication factors in the polymerase fractions are strictly S-phase dependent.     

Inhibition of microsomal lipid peroxidation by glutathione and glutathione transferases B and AA. Role of endogenous phospholipase A2.

Lipid peroxidation in vitro in rat liver microsomes (microsomal fractions) initiated by ADP-Fe3+ and NADPH was inhibited by the rat liver soluble supernatant fraction. When this fraction was subjected to frontal-elution chromatography, most, if not all, of its inhibitory activity could be accounted for by the combined effects of two fractions, one containing Se-dependent glutathione (GSH) peroxidase activity and the other the GSH transferases. In the latter fraction, GSH transferases B and AA, but not GSH transferases A and C, possessed inhibitory activity. GSH transferase B replaced the soluble supernatant fraction as an effective inhibitor of lipid peroxidation in vitro. If the microsomes were pretreated with the phospholipase A2 inhibitor p-bromophenacyl bromide, neither the soluble supernatant fraction nor GSH transferase B inhibited lipid peroxidation in vitro. Similarly, if all microsomal enzymes were heat-inactivated and lipid peroxidation was initiated with FeCl3/sodium ascorbate neither the soluble supernatant fraction nor GSH transferase B caused inhibition, but in both cases inhibition could be restored by the addition of porcine pancreatic phospholipase A2 to the incubation. It is concluded that the inhibition of microsomal lipid peroxidation in vitro requires the consecutive action of phospholipase A2, which releases fatty acyl hydroperoxides from peroxidized phospholipids, and GSH peroxidases, which reduce them. The GSH peroxidases involved are the Se-dependent GSH peroxidase and the Se-independent GSH peroxidases GSH transferases B and AA.     

Regulation of cell proliferation inhibitory and stimulatory factors diffused by 3T3 cultured cells

The growth rate of normal cells multiplied in vitro decreases as the cell density of the culture increases. Previous results suggested that this density-dependent inhibition of growth in nontransformed cells was due to the diffusion of growth inhibitory substances in the medium of dense cultures. In this paper, we demonstrate that dense cultures of 3T3 cells secrete inhibitory and stimulatory factors. Macromolecules of conditioned medium were fractionated on Biogel P150 and the different fractions were tested on quiescent cultures of 3T3 cells stimulated or not to proliferate by addition of alpha globulin. When target cells were not stimulated to proliferate by addition of exocrine growth factors, we observed the inhibitory activity of a large molecular weight inhibitor (IDF45) and the stimulatory activity of autocrine growth factors (fraction about 35 and 10 K molecular weight), on the incorporation of 14C inosine into nucleotide pool and RNA. However, DNA synthesis was significantly stimulated with fraction 10 K only. This discrepancy between the stimulation of RNA and DNA synthesis may be explained by the presence, simultaneously, of inhibitory and stimulatory factors in fraction 35 and 10 K molecular weight. The presence of inhibitory factor was demonstrated when the fractions were tested on target cells stimulated to proliferate by alpha globulin addition and labeled with 14C thymidine. In these conditions, the stimulatory activity of autocrine growth factors was not observable, and only the inhibitory activity on DNA synthesis of fractions 35 and 10 K appeared. It is tempting to assume that the regulation of in vitro cell proliferation is determined by the balance between these antagonist stimulatory and inhibitory autocrine growth factors.     

Detection of apoptosis and phagocytosis in vitro in C6 rat glioma cells treated with tiazofurin

Tiazofurin, an anticancer drug which inhibits IMP dehydrogenase activity and decreases GTP concentration in various malignant cells, induced inhibition of growth and apoptosis in C6 rat glioma in vitro. The effects of tiazofurin were significantly blocked by addition of exogenous guanosine, suggesting the role of decreased GTP in triggering specific signal transduction pathways involved in apoptosis of C6 cells. The most interesting result of this study was the evidence of phagocytosis of apoptotic cells in vitro by neighbouring cells, a phenomenon considered to occur only in apoptosis in vivo. The possibility of observing phagocytosis in C6 glioma cells suggests that this cell system could be a good model for studying mechanisms of phagocytosis in vitro.     

Further purification of bovine spleen inhibitors of lymphocyte DNA synthesis (chalones).

Partially purified lymphocytic factors were obtained from boving spleen; these factors are non-cytotoxic and biologically active in vitro and in vivo: [3H]Thymidine incorporation into DNA of mitogen-stimulated mouse spleen cells in culture is inhibited; similar results are obtained with phytohaemagglutinin-stimulated peripheral human lymphocytes, where blast cells transformation is blocked. [3H]Thymidine incorporation into DNA of mitogen stimulated lymphocytes withdrawn from in vivo treated mice, is also reduced. The two factors in vitro and in vivo seem to act preferentially on mouse spleen cells compared to their action on liver, kidney and testicle cells in cluture, as far as thymidine incorporation into DNA is concerned. The following techniques were applied for their purification: 1. Homogenization of the fresh tissue in water, centrifugation, dialysis of the supernatant, centrifugation, fractionation of the supernatant by alcoholic precipitation and finally concentration in vacuo and lyophilization of the material soluble at 75% of alcohol yielded fraction F. 2. Preparation of an acetone powder from the spleen, extraction of the dry powder with water, then high speed centrifugation, followed by lyophilization of the supernatant produced fraction F'. Both fractions F and F' were further fractionated by chromatography on a Sephadex G75 column: 7 peaks were obtained (F1--F7). Biological activity was found in fraction F1, corresponding to high molecular weight material, and in fraction F6, corresponding to low molecular weight substances. By rechromatography on Sephadex G 75, it is easy to dissociate from F1 a small molecular weight fraction which might be similar to F6 as far as elution volume and biological properties are concerned.     

Bioactivity of nacre water-soluble organic matrix from the bivalve mollusk Pinctada maxima in three mammalian cell types: fibroblasts, bone marrow stromal cells and osteoblasts

In vivo and in vitro studies provide strong evidence of the osteogenic activity of nacre obtained from Pinctada maxima. The in vitro studies indicate that diffusible factors from nacre are involved in cell stimulation. The water-soluble matrix (WSM) was extracted from nacre by a non-decalcifying process, and four fractions (SE(1)-SE(4)) were separated by SE-HPLC. Those fractions were tested in vitro on MRC5 fibroblasts. Alkaline phosphatase (ALP) activity was measured as a marker of osteoblastic differentiation. The anti-apoptotic protein Bcl-2 was also immunodetected in cultured osteoblasts from rat calvaria. WSM and fraction SE(4) increased ALP activity. BMP-2 had the same effect on the cells as WSM and SE(4). WSM greatly increased the amount of Bcl-2 in the cytoplasm and nucleus of osteoblasts. These in vitro studies support our initial hypothesis that nacre organic matrix (WSM) of a bivalve mollusk contains signal-molecules that can stimulate the osteogenic pathway in mammalian cells that are targets for bone induction.     

In vitro and in vivo leishmanicidal activity of Dysoxylum binectariferum and its fractions against Leishmania donovani

The leishmanicidal effect of crude ethanolic extract of stem bark of Dysoxylum binectariferum and its fractions has been investigated against Leishmania donovani, the causative agent of visceral leishmaniasis. Ethanolic extract was lethal to promastigotes as well as amastigote forms in macrophage system at the concentration of 100 microg/ml. Chloroform fraction significantly inhibited promastigote multiplication and was also active against amastigotes in infected J774A.1 macrophages at 100 microg/ml. Hexane fraction was moderately active and the other fractions were inactive against both the forms. When tested in vivo in hamsters, ethanolic extract was toxic at 500 mg/kg whereas exhibited marginal activity (67.7+/-5.3%) at 250 mg/kg x 5, p.o. on day 7 post treatment (p.t.) which increases slightly (69+/-4.7) by day 30 p.t. Chloroform and n-hexane fractions exhibited 64.3+/-4% and 47.8+/-4.6% parasite inhibition at the dose of 100 mg/kg x 5 p.o., respectively. The pure compound, rohitukine, obtained from chloroform fraction showed weaker in vitro activity and was ineffective in infected hamsters. The lead potential of this plant need further investigations.