Colorimetric determination of certain pteridines and purines

Isoxanthopterin, 7-oxylumazine, guanine, and xanthine in sodium carbonate solution form orange-red derivatives with diazotized sulfanilic acid. This fact forms the basis of a rapid, sensitive, simple, and fairly specific colorimetric procedure for these compounds. The method is accurate and precise, and responds linearly from 0.5 to 500 micrograms of the reactive compounds. Related purines and pteridines, such as uric acid, adenine, pterin and xanthopterin, do not interfere with the method.The procedure has been used alone or in combination with enzymes to specifically analyze guanine, xanthine, 7-oxylumazine and isoxanthopterin in mixtures and biological extracts. In addition, the color test can be used to assay the activity of enzymes which produce or degrade these pteridines and purines.     

Pterins and the regulation of lymphocyte activation on the mode of xanthopterin action

Some intermediates of pterin anabolism amplify the lectin-induced lymphocyte stimulation while the catabolites xanthopterin and isoxanthopterin terminate their proliferation (Ziegler, I. et al., Cancer Res. 43, 5356 (1983). In the present investigation, we analysed the effect of xanthopterin on total RNA synthesis and on DNA synthesis in both concanavalin A-stimulated lymphocytes and in the lymphoblastoid cell line L 1210. The time courses at various inhibitor concentrations indicated that xanthopterin inhibits RNA synthesis prior to DNA synthesis. Further analysis of the RNA species was performed by double-labeling and subsequent polyacrylamide-gel electrophoresis. Pulse and pulse-chase experiments revealed that an inhibition of 45 S pre-RNA is closer to the target of xanthopterin inhibition than is DNA synthesis.     

Decreased expression of the type I isozyme of cAMP-dependent protein kinase in tumor cell lines of lung epithelial origin

A spontaneous transformant derived from a mouse lung epithelial cell line exhibited decreased cAMP-dependent protein kinase (PKA) activity. DEAE column chromatography demonstrated that this was caused by specific loss of the type I PKA isozyme (PKA I). Western immunoblot analysis indicated that indeed several mouse lung tumor-derived cell lines and spontaneous transformants of immortalized, nontumorigenic lung cell lines contained less PKA I regulatory subunit (RI) protein than normal cell lines. PKA II regulatory subunit protein differed only slightly among cell lines and showed no conspicuous trend between normal and neoplastic cells. The decrease in RI was apparently concomitant with decreased catalytic (C) subunit levels in neoplastic cells since no free catalytic subunit activity was detected by DEAE chromatography. Northern blot analysis using RI alpha and C alpha cDNA probes showed that the levels of RI alpha and C alpha mRNAs paralleled their intracellular protein concentrations; neoplastic cell lines contained significantly less RI alpha and C alpha mRNAs than the normal cell line. The decreased expression of both RI and C subunits therefore results in a net decrease of PKA I in neoplastic lung cells, an isozymic difference which may account for the differential effects of cAMP analogs on cell growth and differentiation in normal and neoplastic cells.     

STUDIES ON FINE STRUCTURE AND CYTOCHEMICAL PROPERTIES OF ERYTHROPHORES IN SWORDTAIL, XIPHOPHORUS HELLERI, WITH SPECIAL REFERENCE TO THEIR PIGMENT GRANULES (PTERINOSOMES)

The fine structure and the composition of pteridine pigments of erythrophores in adults of the swordtail fish, Xiphophorus helleri, were studied by means of cytochemistry, paper chromatography, ionophoresis, centrifugal fractionation, and electron microscopy. It was found that water-soluble pigments of erythrophores consisted exclusively of pteridine derivatives including large amounts of drosopterin, isodrosopterin, neodrosopterin, and moderate amounts of sepiapterin. While these substances were responsible for red pigmentation, moderate quantities of colorless pteridines, biopterin, Rana-chrome 3, xanthopterin, isoxanthopterin, and others, were also detectable. The ultrastructure of the erythrophore is characterized by numerous pigment granules and a well developed tubular endoplasmic reticulum. The former consist of a three-layered limiting membrane and inner lamellae which appear to be whorl-like due to a concentric arrangement of parallel membranes. All of the mentioned pteridines are primarily contained in this organelle which is designated, accordingly, "pterinosome." The possible functions of erythrophores and pterinosomes are discussed in the light of their structure and pigmentary constitution.     

Effect of sesquiterpene lactone coronopilin on leukaemia cell population growth, cell type-specific induction of apoptosis and mitotic catastrophe

Objectives: The aim of this study was to investigate anti‐leukaemic potential of coronopilin, a sesquiterpene lactone from Ambrosia arborescens, and to characterize mechanism(s) underlying its activity. Materials and methods: The study was conducted on Jurkat and U937, two leukaemia‐derived cell lines. Apoptosis and impairment of cell cycle progression were evaluated by flow cytometry and by microscopic analysis. Changes in protein expression and activation were evaluated by western blot analysis. Coronopilin‐tubulin covalent adducts were demonstrated by mass spectrometry. Results: Coronopilin inhibited (IC₅₀ ≤ 20 μm ) leukaemia cell population growth, but displayed poor cytotoxicity to normal white blood cells. On Jurkat cells, coronopilin exerted cell population growth inhibition activity, mainly by triggering caspase‐dependent apoptosis. Conversely, in U937 cells, coronopilin’s primary response was a robust arrest in G₂/M. Marked increase in mitotic index and presence of activated cyclin B1/Cdk1 complex, phosphorylated histone H3 at Ser10, and hyperpolymerized tubulin indicated that cells accumulated in mitosis. Prolonged mitotic arrest ultimately resulted in U937 mitotic catastrophe, and dying cells exhibited the features of non‐caspase‐dependent death. Conclusions: This study demonstrated that coronopilin efficiently inhibited leukaemia cell population growth by triggering cell type‐specific responses. Moreover, coronopilin‐mediated cell population expansion inhibition was specific to neoplastic cells, as normal white blood cell viability was not significantly affected. Thus, coronopilin may represent an interesting new chemical scaffold upon which to develop new anti‐leukaemic agents.     

Selective COX-2 inhibitor (celecoxib) decreases cellular growth in prostate cancer cell lines independent of p53

Abstract

Celecoxib is a clinically available COX-2 inhibitor that has been reported to have antineoplastic activity. It has been proposed as a preventative agent for several types of early neoplastic lesions. Earlier studies have shown that sensitivity of prostatic carcinoma (PCa) to celecoxib is associated with apoptosis; however, these studies have not demonstrated adequately whether this effect is dependent on p53 status. We studied the relation between sensitivity to celecoxib and the phenotypic p53 status of PCa cells lines, LNCaP (wild type p53), PC3 (null p53) and DU145 (mutated p53). Cellular growth was assessed at 24, 48, 72 and 96 h after celecoxib treatment at concentrations of 0, 10, 30, 50, 70 and 100 μM using an MTT assay. Cellular proliferation (Ki-67 expression) was determined by immunocytochemistry. Phenotypic expression of p53 was analyzed by western blotting. The effects of celecoxib on cellular growth and its association with p53 were assessed after down-regulation of p53 using synthetic interfering RNAs (siRNA) in LNCaP cells. Expression of p53 and COX-2 at mRNA levels was assessed by quantitative real time polymerase reaction (qRT-PCR). We found that celecoxib inhibited cellular growth and proliferation in a dose-dependent manner in all three cell lines; LNCaP cells with a native p53 were the most sensitive to celecoxib. We observed a down- regulation effect on p53 in LNCaP cells exposed to ≥ 30 μM celecoxib for 72 h, but found no significant changes in the p53 levels of DU145 cells, which have a mutated p53. Reduced COX-2 expression was found with decreased p53 in LNCaP and PC-3 cells that were exposed to ≥ 20 μM of celecoxib for 72 h, but COX-2 expression was increased in DU145 cells. All three cell lines demonstrated pan-cytotoxicity when exposed to 100 μM celecoxib. When p53 expression was inhibited using siRNA in LNCaP cells, the inhibitory effects on cellular growth usually exerted by celecoxib were not changed significantly. Celecoxib reduces the growth of prostate cancer cell lines in part by decreasing proliferation, which suggests that the inhibition of growth of LNCaP cells by celecoxib is independent of normal levels of native p53.     

Novel peripheral blood-derived human cell lines with properties of megakaryocytes

For 18 mo, we derived 18 cell lines from 11 donors with various clinical profiles ranging from normal to leukemic. Suspension cultures were initiated with 1 X 10(6) mononuclear blood cells/ml of nutrient medium containing 10% human serum and 10% lectin-stimulated human lymphocyte conditioned medium. The cultures were monitored weekly by morphological analyses of Wright-Giemsa-stained cell preparations. All successful cultures showed a significant decline in viability during the first 3-4 wk with rate "lymphoid" cells observed in mitosis. Within the next 2 wk, the proliferating cells gave rise to a rapidly expanding population of mononuclear cells. As the cultures expanded, cell morphology became heterogeneous with respect to cell size and nuclear ploidy, with an accumulation of giant multinuclear cells that were suggestive of megakarocytes. Even though the cells did not have the classical morphology of mature platelet-forming megakaryocytes, 90% of the cells within a cell line were positive by direct or indirect immunofluorescence for the platelet membrane glycoproteins IIb and IIIa; for surface markers HLA-Dr and B2-microglobulin; for intracellular platelet-derived growth factor and platelet factor IV; and for membrane affinity or binding with serum platelet-derived growth factor and platelet factor IV. These results suggest that a blood precursor cell, most likely a primitive megakaryoblast, was isolated from the peripheral blood and was provided with an optimal culture environment for sustained growth. These cells did not mature to a more differentiated stage, perhaps owing to regulatory factor deficiencies in this in vitro system. The remarkable frequency of obtaining cell lines with megakaryocyte properties from normal peripheral blood and the capacity of some normal donors to repeatedly yield these cell lines make this cell culture system indeed unique by being selective for putative megakaryocyte precursors.     

Effect of retinoic acid on the proliferation and phagocytic capability of murine macrophage-like cell lines

Retinoic acid (RA) exerted a variable degree of growth inhibitory activity on the macrophage-like cell lines P388D1, J774.2, WEHI-265, WEHI-3, and PU-5. Comparison of cell proliferation and clonal growth suggests that at concentrations of 10(-9)-10(-6) M the inhibitory activity stems from processes leading to elongation of cell cycle time and not from terminal differentiation processes. RA was shown to be a potent inducer of the development of high-phagocytic phenotypes (assessed by phagocytosis of heat-killed yeast cells) in the P388D1, J774.2, and WEHI-265 cell lines which differ substantially in their proliferative and adherence characteristics. The PU-5 and WEHI-3 cell lines were not induced by RA to express an enhanced phagocytic activity toward heat-killed yeast cells. The augmented phagocytic capability was dose dependent over a wide range of RA concentrations. In P388D1 cells, 2 X 10(-12) M RA already exerted significant phagocytosis augmentation effects, which progressively increased up to 2 X 10(-5) M RA, the highest concentration tested. Retinal, retinyl acetate, and retinol had similar effects to those of RA on both cell adherence and phagocytosis in P388D1 cells, albeit at concentrations four to six orders of magnitude higher. Optimal development of the high-phagocytic phenotype in P388D1, J774.2, and WEHI-265 cells required at least 96 hr of culture in the presence of RA; at 48 hr and 23 hr the effects were already substantial, whereas at 4 hr of exposure to RA no significant enhancement of phagocytosis could be detected. Thus both extended periods of culture in the presence of RA (more than two to three cell cycles) and high concentrations were needed for induction, in more than 90% of the cells, of the expression of a high-phagocytic phenotype. The reversion to a low-phagocytic phenotype upon removal of RA was also rather slow and required several cell cycles. In P388D1 cells RA also enhanced the phagocytosis of latex beads but had no effect on the phagocytosis of starch particles, or the extent of binding of immunoglobulin G-coated sheep red blood cells (SRBC). The expression of receptors for concanavalin A and for nonopsonized SRBC remarkably increased in RA-treated cells, as was the ability to perform Fc-receptor mediated erythrophagocytosis. Both P388D1 cells and WEHI-265 cells were induced by RA to express nitroblue tetrazolium reducing activity. The data suggest that RA induces profound changes in the functional capabilities of macrophage-like cell lines which are apparently not dependent on cessation of growth and terminal differentiation processes.     

Induction of apoptosis by EGCG in selected tumour cell lines in vitro

One of the best recognised polyphenols of plant origin, epigallocatechin-3-gallate (EGCG) is contained mainly in green tea and in grapes. Studies performed in vivo and in vitro have demonstrated high probability of anti-neoplastic potential of the compound, due to its capacity to induce programmed cell death. The present studies were aimed at evaluation of apoptosis induction in cells of three selected tumour cell lines, subjected to action of various concentrations of EGCG. The experiment was performed on cultures of HEp-2 laryngeal carcinoma cells, LoVo colon carcinoma cells, HeLa cervical carcinoma cells and on normal myoepithelial cell line, HS. EGCG was found to induce apoptosis in cells of the examined neoplastic lines in a dose-related manner. Moreover, effect of EGCG on normal cells of HS line was found to be much less pronounced as compared to effects exerted on sensitive neoplastic cells.     

Epidermal growth factor and thyrotropin-releasing hormone act similarly on a clonal pituitary cell strain. Modulation of hormone production and inhbition of cell proliferation

GH(4)C(1) cells are a clonal strain of rat pituitary cells that synthesize and secrete prolactin and growth hormone. Chronic treatment (longer than 24 h) of GH(4)C(1) cells with epidermal growth factor (EGF) (10(-8) M) decreased by 30-40 percent both the rate of cell proliferation and the plateau density reached by cultures. Inhibition of cell proliferation was accompanied by a change in cellular morphology from a spherical appearance to an elongated flattened shape and by a 40-60 percent increase in cell volume. These actions of EGF were qualitatively similar to those of the hypothalamic tripeptide thyrotropin-releasing hormone (TRH) (10(-7) M) which decreased the rate of cell proliferation by 10-20 percent and caused a 15 percent increase in cell volume. The presence of supramaximal concentrations of both EGF (10(-8)M) and TRH (10(-7)M) resulted in greater effects on cell volume and cell multiplication than either peptide alone. EGF also altered hormone production by GH(4)C(1) cells in the same manner as TRH. Treatment of cultures with 10(-8) M EGF for 2-6 d increased prolactin synthesis five- to ninefold compared to a two- to threefold stimulation by 10(-7) M TRH. Growth hormone production by the same cultures was inhibited 40 percent by EGF and 15 percent by TRH. The half- maximal effect of EGF to increase prolactin synthesis, decrease growth hormone production, and inhibit cell proliferation occurred at a concentration of 5 x 10 (-11) M. Insulin and multiplication stimulating activity, two other growth factors tested, did not alter cell proliferation, cell morphology, or hormone production by GH(4)C(1) cells, indicating the specificity of the EGF effect. Fibroblast growth factor, however, had effects similar to those of EGF and TRH. Of five pituitary cell strains tested, all but one responded to chronic EGF treatment with specifically altered hormone production. Acute chronic EGF treatment with specifically altered hormone production. Acute treatment (30 min) of GH(4)C(1) cells with 10(-8) M EGF caused a 30 percent enhancement of prolactin release compared to a greater than twofold increase caused by 10(-7) M TRH. Therefore, although EGF and TRH have qualitatively similar effects on GH(4)C(1) cells, their powers to affect hormone release acutely or hormone synthesis and cell proliferation chronically are distinct.     

Oestradiol and tamoxifen inhibit murine Colon 38 cancer growth and increase the cytotoxic effect of fluorouracil

The poor efficacy of reference chemotherapy (fluorouracil -FU) in colon cancer has resulted in a constant search for agents which could augment the action of FU. Epidemiological data, such as the decreased risk of colorectal cancer among menopausal women receiving hormonal replacement therapy, indicate the role of oestrogen in the pathogenesis of this disease. The differences between normal and neoplastic colon cells in the expression of oestrogen receptor beta (ERbeta) could confirm this association. However, the direct influence of oestrogen or tamoxifen (SERM, selective oestrogen receptor modulator) on colon cancer growth has rarely been studied. The aim of the present study was to examine the direct effects of various concentrations of oestradiol and tamoxifen (10(-4) to 10(-12) M), applied alone or together with FU, on the growth of murine Colon 38 cancer in vitro as assessed by three colorimetric methods: Mosmann's method, incorporation of BrdU into cell nuclei and the TUNEL method. At high concentrations oestradiol and tamoxifen decreased the cancer growth in a dose- and time-dependent manner (the Mosmann and BrdU methods) and at some concentrations augmented the cytotoxic action of FU (Mosmann's method). Tamoxifen exerted a very early and potent inhibitory effect, inducing even total cancer growth inhibition at the concentration of 10(-4) M (the Mosmann and BrdU methods). All the substances studied at different concentrations and at different incubation time points increased the apoptosis of tumour cells (the TUNEL method). The results indicate that oestradiol and tamoxifen inhibit Colon 38 cancer growth and increase the cytotoxic effect of FU, which confirms the role of sex steroids in colon carcinogenesis and even suggests new therapeutic schemes.     

Analysis of pteridines in Pyrrhocoris apterus (L.) (heteroptera,pyrrhocoridae) during development and in body-color mutants

By using thin-layer chromatography (TLC) and high-performance liquid chromatography (HPLC), five different pteridines have been quantified in extracts from Pyrrhocoris apterus: neopterin, isoxanthopterin, isoxantholumazine (violapterin), 7-methylxanthopterin, and erythropterin. Biopterin was also detected using HPLC. Pteridines have been analyzed separately in bodies and eyes of the wild type regarding developmental stage and sex. The pteridine content in both bodies and eyes increased from nymphs to 2-day-old adults. After this period, the concentration of pteridines in the eyes of adults remained approximately constant, while in the bodies isoxantholumazine, 7-methylxanthopterin, and isoxanthopterin kept increasing until 20 days. Considering the total amount of pteridines per insect, no qualitative or quantitative differences between males and females have been observed except a lower concentration of erythropterin in female bodies. But when pteridines are analyzed per unit body weight, a lower amount of pteridines is always detected in females due to its bigger size. A new body-color mutant, the yolk body mutant, that goes through developmental colour changes, was also analyzed during development, showing a general deficient accumulation of all pteridines, especially of 7-methylxanthopterin and isoxantholumazine in adult bodies. The effect on pteridine content of three other recessive (white, yellow, mosaic) and two dominant (Pale and Apricot) body-color mutations, has also been studied. A specific pteridine pattern different from the wild type was obtained for each mutant. © 1997 Wiley-Liss, Inc.     

In vitro anti-tumour effect of 1,10-phenanthroline-5,6-dione (phendione), [Cu(phendione)3](ClO4)2.4H2O and [Ag(phendione)2]ClO4 using human epithelial cell lines

The anti-cancer chemotherapeutic potential of 1,10-phenanthroline-5,6-dione (phendione), [Cu(phendione)(3)](ClO(4))(2).4H(2)O and [Ag(phendione)(2)]ClO(4) were determined using four human cells lines, i.e. two neoplastic (A-498 and Hep-G2) and two non-neoplastic (CHANG and HK-2). All of the phendione derivatives induced a concentration-dependant decrease in the viability of the four cell lines, with [Cu(phendione)(3)](ClO(4))(2).4H(2)O displaying greatest activity. In comparative studies, IC(50) values obtained with the two neoplastic cell lines showed a cytotoxic response which was between 3 and 35 times greater than that observed for the metal-based anti-cancer agent, cisplatin. Furthermore, metal-phendione complexes, rather than simple solvated metal ions, were responsible for the observed cytotoxicity. Despite the high level of potency associated with these compounds they did not display an apparent cyto-selective profile, as they reduced the viability of both neoplastic and non-neoplastic cells. However, selected mechanistic studies showed that phendione and its metal complexes inhibited DNA synthesis which did not appear to be mediated through intercalation. Ames testing highlighted that all three compounds and their phase I metabolites were non-mutagenic, unlike cisplatin. Taken together, these results suggest that phendione and its Cu(II) and Ag(I) complexes may be capable of acting as highly effective anti-cancer therapies, which with careful administration could provide very potent and effective alternatives to cisplatin.     

Deoxyribonucleoside triphosphate pools and differential thymidine sensitivities of cultured mouse lymphoma and myeloma cells

The effects of various concentrations of thymidine on DNA synthesis and deoxyribonucleoside triphosphate contents of a highly thymidine-sensitive cultured mouse lymphoma cell line (WEHI-7) and a relatively resistant mouse myeloma cell line (HPC-108) have been studied by 32P-labelling techniques. DNA synthesis in the myeloma cells was inhibited by thymidine at concentrations of 10(-3) M or greater, while DNA synthesis in the lymphoma cells was inhibited by concentrations 30-fold lower, consistent with the 25-fold difference between the two cell lines in sensitivity to growth inhibition by thymidine. Thymidine caused marked elevation of the dTTP and dGTP pools, slight elevation or no change in the dATP pool and a marked decrease in the dCTP pool in cells of both lines. The greater resistance of HPC-108 cells to thymidine inhibition was related to the finding that they normally contained a much higher concentration of dCTP than did the WEHI-7 cells. Pool size measurements on thymidine-treated (10(-4) M) cells of an additional seven sensitive lymphoma and six relatively resistant myeloma cell lines indicated that in all 15 lines studied, with one exception, a critical concentration of dCTP of about 32 nmol per ml of cell volume was required for the maintenance of normal rates of DNA synthesis. The dCTP content found normally in the lymphoma cells was only a little above this concentration. Amongst the myeloma lines, three contained similarly low levels of dCTP, but were more resistant to thymidine inhibition probably because of their inefficient production of dTTP from thymidine. Cells of the other four myeloma lines (including HPC-108) normally contained much higher dCTP concentrations. The mechanism of thymidine action was explained by reference to the known allosteric properties of ribonucleotide reductase.     

The PI3-kinase/mTOR-targeting drug NVP-BEZ235 inhibits growth and IgE-dependent activation of human mast cells and basophils

The phosphoinositide 3-kinase (PI3-kinase) and the mammalian target of rapamycin (mTOR) are two major signaling molecules involved in growth and activation of mast cells (MC) and basophils (BA). We examined the effects of the dual PI3-kinase/mTOR blocker NVP-BEZ235 on growth of normal and neoplastic BA and MC as well as immunoglobulin E (IgE)-dependent cell activation. Growth of MC and BA were determined by measuring (3)H-thymidine uptake and apoptosis. Cell activation was determined in histamine release experiments and by measuring upregulation of CD63 and CD203c after challenging with IgE plus anti-IgE or allergen. We found that NVP-BEZ235 exerts profound inhibitory effects on growth of primary and cloned neoplastic MC. In the MC leukemia cell line HMC-1, NVP-BEZ235 showed similar IC(50) values in the HMC-1.1 subclone lacking KIT D816V (0.025 μM) and the HMC-1.2 subclone expressing KIT D816V (0.005 μM). Moreover, NVP-BEZ235 was found to exert strong growth-inhibitory effects on neoplastic MC in a xenotransplant-mouse model employing NMR1-Foxn1(nu) mice. NVP-BEZ235 also exerted inhibitory effects on cytokine-dependent differentiation of normal BA and MC, but did not induce growth inhibition or apoptosis in mature MC or normal bone marrow cells. Finally, NVP-BEZ235 was found to inhibit IgE-dependent histamine release in BA and MC (IC(50) 0.5-1 μM) as well as anti-IgE-induced upregulation of CD203c in BA and IgE-dependent upregulation of CD63 in MC. In summary, NVP-BEZ235 produces growth-inhibitory effects in immature neoplastic MC and inhibits IgE-dependent activation of mature BA and MC. Whether these potentially beneficial drug effects have clinical implications is currently under investigation.     

Effect of exogenous gangliosides on human neural cell division

Human neural cells in exponential growth phase were transferred to a serum-free medium and maintained for 72 hr without any detectable loss in viability. The two normal fetal cell lines (CH_I and CH_II) showed a serum-dependent cell proliferation, but the glioblastoma multiforme cells (12–18) were able to continue proliferating in this totally synthetic medium. The incorporation of [³H] thymidine into the acid-precipitable fraction of both normal and neoplastic human neural cells was assayed in the presence and the absence of exogenous gangliosides by a convenient new method. In serum-free medium, gangliosides (50 μM) inhibited the thymidine incorporation into the normal fetal cells within 24 hr and, in serum containing medium, reduced their proliferation within 48 hr. No such effects were detectable in the glioma cells. The inhibition of thymidine incorporation in the normal cells was reversible upon removal of the gangliosides. These results indicate a role of gangliosides in the postmitotic phase of normal human neural cells resulting in the regulation of cell proliferation.     

Identification of cytotoxic mediators and their putative role in the signaling pathways during docosahexaenoic acid (DHA)-induced apoptosis of cancer cells

Docosahexaenoic acid (DHA), an important w-3 fatty acid exhibits differential behavior in cancer cells of neural origin when compared to that in normal healthy astrocytes. Treatment of C6 glioma and SH-SY5Y cell lines and primary astrocytes, representing the neoplastic cells and normal healthy cells respectively, with 100 µM DHA for 24 h showed significant loss of cell viability in the both the cancer cells as determined by MTT assay, whereas the primary astrocytes cultures were unaffected. Such loss of cell viability was due to apoptosis as confirmed by TUNEL staining and caspase-3 activation in cancer cells. Proteomic approach, employing 2-dimensional gel electrophoresis (2DE), difference gel electrophoresis (DIGE), and MALDI-TOF-TOF analysis identified six proteins which unlike in the astrocytes, were differently altered in the cancer cells upon exposure to DHA, suggesting their putative contribution in causing apoptosis in these cells. Of these, annexin A2, calumenin, pyruvate kinase M2 isoform, 14-3-3ζ were downregulated while aldo keto reductase-1B8 (AKR1B8) and glutathione–S-transferase P1 subunit (GSTP1) showed upregulation by DHA in the cancer cells. siRNA-mediated knockdown of AKR1B8 and GSTP1 inhibit DHA-induced apoptosis confirming their role in apoptotic process. Furthermore, western blot analysis identified upregulation of PPARα and the MAP kinases, JNK and p38 as well as increased ROS production selectively in the cell lines. Results suggest that DHA selectively induces apoptosis in the neural cell lines by regulating the expression of the above proteins to activate multiple apoptotic pathways which in association with excess ROS and activated MAPKs promote cell death.     

Retinoic acid inhibits phospholipid turnover and protein kinase C activity in RA-sensitive but not in RA-resistant cells

Treatment with 10(-5) M retinoic acid causes loss of anchorage-independent growth in src-transformed RR1022 cells but not in ras-transformed KNRK cells. In an effort to elucidate the mechanisms underlying this difference, we investigated the effect of RA on phospholipid turnover and PKC activity in these two cell lines. 10(-5) M RA treatment caused a drastic inhibition of 32P incorporation into PI and PA and a large increase in 32P incorporation into PC in RR1022 cells. Similar treatment of KNRK cells yielded no change in PC or PA labelling and a much smaller decrease in PI labelling. Furthermore, 10(-5) M RA treatment causes a large decrease in PKC activity in RR1022 cells (35% of control) but only a small decrease in KNRK cells (78% of control). We suggest that these effects are part of an altered signal transduction pathway which mediates the differential effects of RA on anchorage-independent growth in these two cell lines.     

Transformed cells have lost control of ribosome number through their growth cycle.

Previous studies on the synthesis and function of the protein synthetic machinery through the growth cycle of normal cultured hamster embryo fibroblasts (HA) were extended here to a series of four different clonal lines of polyoma virus-transformed HA cells. Under our culture conditions, these transformed cells could enter a stationary phase characterized by no mitotic cells, very low rates of DNA synthesis, and arrest in a post-mitotic pre-DNA synthetic state. Cellular viability was initially high in stationary phase but, unlike normal cells, transformed cells slowly lost viability. The rate of protein synthesis in the stationary phase of the transformed cells fell to 25-30% of the exponential rate. Though this reduction was similar to that seen in normal cells, it was accomplished by different means. The specific reduction in the ribosome complement per cell to values below that of any cycling cell seen in normal cells, was not seen in any of the transformed lines. This observation, which implies a loss of normal control of ribisome synthesis through the growth cycle after transformation, was confirmed in normal Chinese hamster embryo fibroblasts and transformed CHO cell lines. Normal control of ribosome synthesis was restored in L-73 and LR-73, growth control revertants of one of the transformed CHO lines. The transformed lines reduced their protein synthetic rates in stationary phase either by a greater reduction in the proportion of functioning ribosomes than that seen in normal cells or by a decrease in the elongation rate of functioning ribosomes; the latter effect was not seen in the normal cells. A model for growth control of normal cells and its derangement in transformed cells is presented.