B16-BL6 Melanoma Research Articles

The Role of Nicotinamide Adenine Dinucleotide Phosphate Oxidase-Derived Reactive Oxygen Species in the Acquisition of Metastatic Ability of Tumor Cells

We examined the role of phagocyte-derived oxygen radicals in tumor cell acquisition of metastatic phenotype by comparing gp91(phox-/-) mice and C57BL/6J wild-type (WT) mice. The gp91(phox-/-) mouse is deficient in the gp91(phox) gene, an essential subunit of the phagocyte nicotinamide adenine dinucleotide phosphate oxidase that generates superoxide anion. QR-32 fibrosarcoma cells are nonmetastatic but are converted into metastatic tumors once in contact with foreign body (gelatin sponge)-induced phagocytes in vivo. Compared to QR-32 cells co-implanted with the foreign body in WT mice, those in gp91(phox-/-) mice exhibited reduced metastasis. There was no difference in the incidence of primary tumors after injection of B16BL6 melanoma cells in WT and gp91(phox-/-) mice. However, after resection of the primary tumors, metastases were reduced in gp91(phox-/-) mice. Thymosin beta4 gene expression and cell motility/invasion were seen in the tumors from WT mice but not in those from gp91(phox-/-) mice. Adoptive transfer of phagocytes from WT mice, but not those from gp91(phox-/-) mice, restored the metastatic ability of tumors grown in gp91(phox-/-) mice. These findings show that tumor metastatic behavior can primarily be endowed by phagocyte-derived superoxide anion and its oxidative metabolites, which are generated through activation of nicotinamide adenine dinucleotide phosphate oxidase.

A Disaccharide-Based Inhibitor of Glycosylation Attenuates Metastatic Tumor Cell Dissemination

The binding of hematogenously borne malignant cells that express the carbohydrate sialyl Lewis X (sLe(X)) to selectin adhesion receptors on leukocytes, platelets, and endothelial cells facilitates metastasis. The glycosylation inhibitor, per-O-acetylated GlcNAcbeta1,3Galbeta-O-naphthalenemethanol (AcGnG-NM), inhibits the biosynthesis of sLe(X) in tumor cells. To evaluate the efficacy of AcGnG-NM as an antimetastatic agent, we examined its effect on experimental metastasis and on spontaneous hematogenous dissemination of murine Lewis lung carcinoma and B16BL6 melanoma cells. Tumor cells were treated in vitro with AcGnG-NM, and the degree of selectin ligand inhibition and experimental metastasis was analyzed in wild-type and P-selectin-deficient mice. Conditions were developed for systemic administration of AcGnG-NM, and the presence of tumor cells in the lungs was assessed using bromodeoxyuridine labeling in vivo. The effect of AcGnG-NM on inflammation was examined using an acute peritonitis model. In vitro treatment of Lewis lung carcinoma cells with AcGnG-NM reduced expression of sLe(X)- and P-selectin-dependent cell adhesion to plates coated with P-selectin. Treatment also reduced formation of lung foci when cells were injected into syngeneic mice. Systemic administration of the disaccharide significantly inhibited spontaneous dissemination of the cells to the lungs from a primary s.c. tumor, whereas an acetylated disaccharide not related to sLe(X) in structure had no effect. AcGnG-NM did not alter the level of circulating leukocytes or platelets, the expression of P-selectin ligands on neutrophils, or sLe(X)-dependent inflammation. Taken together, these data show that AcGnG-NM provides a targeted glycoside-based therapy for the treatment of hematogenous dissemination of tumor cells.

Inhibition of angiogenesis and tumor progression by hydrodynamic cotransfection of angiostatin K1-3, endostatin, and saxatilin genes

In vivo expression of angiostatin and endostatin, two different types of endothelial cell growth inhibitor, have been reported to inhibit vascularization in tumor tissues, resulting in tumor growth inhibition. Recently, in vivo expression of saxatilin, a novel disintegrin purified from snake (Gloydius saxatilis) venom, was able to strongly inhibit endothelial cell proliferation and smooth muscle cell migration, resulting in tumor growth inhibition. However, the antitumor efficacy of the individual antiangiogenic molecules expressed in vivo was not sufficiently potent to induce tumor regression in animal models. Therefore, in this study, we have systemically examined how combinational transfer of angiostatin, endostatin, and saxatilin genes affects neovascularization in tumor tissues and tumor progression in a mouse model. In Matrigel-implanted mice, cotransfection with plasmids encoding angiostatin K1-3 (pFLAG-Angio K1/3), endostatin (pFLAG-Endo), and saxatilin (pFLAG-Sax) resulted in the most effective inhibition of angiogenesis. In addition, hydrodynamic cotransfection of the three genes induced more inhibition of B16BL6 melanoma growth and pulmonary metastasis than other combinations of transfected genes. Compared with the empty vector-treated control group, cotreatment with the three plasmids reduced B16BL6 tumor growth by 89% and pulmonary metastasis by 90%. These results provide additional evidence supporting the combined systemic expression of antiangiogenic factors, such as angiostatin K1-3, endostatin, and saxatilin, as an alternative procedure for antiangiogenic cancer therapy.

Preventive effect of oral administration of 6-(methylsulfinyl)hexyl isothiocyanate derived from wasabi ( Wasabia japonica Matsum) against pulmonary metastasis of B16-BL6 mouse melanoma cells

Aim: Effect of oral administration of 6-(methylsulfinyl)hexyl isothiocyanate (6-MITC) or a 6-MITC-containing T-wasabi fraction from wasabi root ( Wasabia japonica Matsum) to inhibit the macroscopic pulmonary metastasis was studied with a murine B16-BL6 melanoma model. Method: Two administration routes, subcutaneous or intravenous, and two administration times, prior to or concomitant with tumor inoculation, of 6-MITC or T-wasabi against the metastatic foci formation in C57BL/6J mouse lungs were compared. Results: The number of metastasized foci per lung in either subcutaneous or intravenous injection was significantly reduced by intake of 6-MITC or a T-wasabi fraction. The maximum reduction by a T-wasabi fraction reached to 82%. Fifty-six percent of foci formation was inhibited by a 2 week-prior administration of 6-MITC (200 μM), whereas only 27% inhibition was obtained by a concomitant administration with tumor inoculation. Neither 6-MITC nor T-wasabi at tested concentrations showed any toxic effects. Discussion: Together with our previous results, a component of the Japanese pungent spice, wasabi appears to inhibit not only tumor cell growth but also tumor metastasis. Therefore, 6-MITC from wasabi is apparently a useful dietary candidate for controlling tumor progression.

Vaccine Efficacy of Fusogenic Liposomes Containing Tumor Cell-Lysate against Murine B16BL6 Melanoma

Recent advances in tumor immunology have facilitated the development of cancer immunotherapy targeting tumor-associated antigens (TAAs). However, because TAAs were identified in only a few types of human cancer, novel vaccine strategies that utilize tumor cell-lysate (TCL), including unidentified TAAs as an antigen source, are needed. Herein, we describe the utility of fusogenic liposomes (FLs) as TCL-delivery carriers for both ex vivo dendritic cell-based vaccination and in vivo direct immunization in the murine B16BL6 melanoma model. As a result, both in vivo direct immunization and ex vivo immunization induced anti-B16 melanoma prophylactic effects. Ex vivo dendritic cell (DC)-mediated vaccination strategy exert more potent anti-tumor effect than direct immunization. Our results suggest that this flexible system is a promising approach for the development of versatile cancer immunotherapy regimes.

A Derivative of Aminopeptidase Inhibitor (BE15) Has a Dual Inhibitory Effect of Invasion and Motility on Tumor and Endothelial Cells

Bestatin is an inhibitor of aminopeptidase N (APN)/CD13 and aminopeptidase B. In our previous report, bestatin inhibited the tumor cell invasion and the angiogenesis induced by the inoculation of B16-BL6 melanoma cells into mice and capillary formation on human umbilical vein endothelial cells (HUVECs) in vitro. The results show that the enzymatic activity of APN is deeply involved in tumor invasion and angiogenesis. We investigated the effect of three bestatin derivatives on A375 human melanoma cells and in vitro. All the derivatives inhibited the activity of APN, but BE15 was most effective and controlled the migration of A375 cells and HUVECs and capillary formation of HUVECs. Furthermore, the bestatin derivatives had an inhibitory effect not only on aminopeptidase activity but also on cell motility. Compared with bestatin and the other derivatives, BE15 had a marked inhibitory effect on the formation of capillary structure by HUVECs in vitro. These results suggest that new anti-metastatic and anti-angiogenic agents, which have a dual inhibitory effect on the degradation of the extra cellular matrix and cell motility, may be developed from bestatin.

Stage-dependent analgesia of electro-acupuncture in a mouse model of cutaneous cancer pain

Acupuncture is one of the most effective alternative medical treatments in pain management with the advantages of simple application, low cost and minimal side effects. However its scientific evidence and laws of action are not very clear in cancer pain relieving. The aim of this study was to examine the immediate and therapeutic anti-hyperalgesic effect of electro-acupuncture (EA) on a mouse model of cutaneous cancer pain. B16-BL6 melanoma cells were inoculated into the plantar region of unilateral hind paw and the thermal hyperalgesia was measured by using radiant heat test and hot plate test. C57BL/6 mice showed moderate and marked hyperalgesia during days 8–12 and from day 14 after the orthotopic inoculation of B16-BL6 melanoma cells into the hind paw. Single EA on day 8 after inoculation showed significant analgesic effect immediately after the treatment, the analgesic effect reached its maximum within 15–30 min and declined to its minimum at 50 min after EA treatment. Single EA treatment on day 20 showed no significant analgesic effect; Repeated EA treatments (started from day 8, once every other day) showed therapeutic analgesic effect, while it showed no therapeutic effect when started from day 16, a relatively late stage of this cancer pain model. The results demonstrated that EA had anti-hyperalgesic effect on early stage of cutaneous cancer pain but not on late stage. These results indicated a tight correlation of EA anti-hyperalgesic effects with the time window of cancer pain.

Inhibition of metastatic tumor growth by targeted delivery of antioxidant enzymes

To develop effective anti-metastatic therapy, targeted or sustained delivery of catalase was examined in mice. We found that mouse lung with metastatic colonies of adenocarcinoma colon26 cells exhibited reduced catalase activity. The interaction of the tumor cells with macrophages or hepatocytes generated detectable amounts of ROS, and increased the activity of matrix metalloproteinases. Hepatocyte-targeted delivery of catalase was successfully achieved by galactosylation, which was highly effective in inhibiting the hepatic metastasis of colon26 cells. PEGylation, which increased the retention of catalase in the circulation, effectively inhibited the pulmonary metastasis of the cells. To examine which processes in tumor metastasis are inhibited by catalase derivatives, the tissue distribution and proliferation of tumor cells in mice was quantitatively analyzed using firefly luciferase-expressing tumor cells. An injection of PEG-catalase just before the inoculation of melanoma B16-BL6/Luc cells significantly reduced the number of the tumor cells in the lung at 24 h. Daily dosing of PEG-catalase greatly inhibited the proliferation of the tumor cells, and increased the survival rate of the tumor-bearing mice. These results indicate that targeted or sustained delivery of catalase to sites where tumor cells metastasize is a promising approach for inhibiting metastatic tumor growth.

Blocking tumor cell eicosanoid synthesis by GPx4 impedes tumor growth and malignancy

Using tumor cell-restricted overexpression of glutathione peroxidase 4 (GPx4), we investigated the contribution of tumor cell eicosanoids to solid tumor growth and malignant progression in two tumor models differing in tumorigenic potential. By lowering cellular lipid hydroperoxide levels, GPx4 inhibits cyclooxygenase (COX) and lipoxygenase (LOX) activities. GPx4 overexpression drastically impeded solid tumor growth of weakly tumorigenic L929 fibrosarcoma cells, whereas B16BL6 melanoma solid tumor growth was unaffected. Yet, GPx4 overexpression did markedly increase the sensitivity of B16BL6 tumors to angio-destructive TNF-α therapy and abolished the metastatic lung colonizing capacity of B16BL6 cells. Furthermore, the GPx4-mediated suppression of tumor cell prostaglandin E 2 (PGE 2) production impeded the induction of COX-2 expression by the tumor stress conditions hypoxia and inflammation. Thus, our results reflect a PGE 2-driven positive feedback loop for COX-2 expression in tumor cells. This was further supported by the restoration of COX-2 induction capacity of GPx4-overexpressing L929 tumor cells when cultured in the presence of exogenous PGE 2. Thus, although COX-2 expression and eicosanoid production may be enabled by PGE 2 from the tumor microenvironment, our results demonstrate the predominant tumor cell origin of protumoral eicosanoids, promoting solid tumor growth of weakly tumorigenic tumors and malignant progression of strongly tumorigenic tumors.

Reconstitution of expression of H-2K region-encoded murine MHC class I glycoproteins in MHC class I-deficient B16BL6 melanoma cells affects the expression and function of antigen-processing machinery

We have recently reported that reconstitution of expression of major histocompatibility complex (MHC) class I glycoproteins in MHC-deficient and highly metastatic B16BL6 melanoma cells attenuates their malignant capacities by modulation of compartmentalization and functions of cell membrane receptors for growth factors [Assa-Kunik E, et al. J Immunol 2003;171:2945–52]. Our present study provides evidence that re-expression of an H-2K MHC class I-encoding gene in these cells also augments the expression of the Tap-2 peptide transporter and the inducible proteasome subunits, i.e. Lmp-2, Lmp-7 and Lmp-10. Up-regulation of inducible proteasome subunits was also followed by a significant changed in the proteolytic activity of the proteasome complex. We suggest that, in addition to providing a framework for proper presentation of antigenic peptides, MHC class I glycoproteins may regulate the immune response by modulating the expression and function of other genes, whose products are essential for proper antigen processing and presentation.

Gene silencing in primary and metastatic tumors by small interfering RNA delivery in mice: Quantitative analysis using melanoma cells expressing firefly and sea pansy luciferases

Silencing of oncogenes or other genes contributing to tumor malignancy or progression by RNA interference (RNAi) offers a promising approach to treating tumor patients. To achieve RNAi-based tumor therapy, a small interfering RNA (siRNA) or siRNA-expressing vector needs to be delivered to tumor cells, but little information about its in vivo delivery has been reported. In this study, we examined whether the expression of the target gene in tumor cells can be suppressed by the delivery of RNAi effectors to primary and metastatic tumor cells. To quantitatively evaluate the RNAi effects in tumor cells, mouse melanoma B16-BL6 cells were stably transfected with both firefly (a model target gene) and sea pansy (an internal standard gene) luciferase genes to obtain B16-BL6/dual Luc cells. The target gene expression in subcutaneous primary tumors of B16-BL6/dual Luc cells was significantly suppressed by direct injection of the RNAi effectors followed by electroporation. The expression in metastatic hepatic tumors was also significantly reduced by an intravenous injection of either RNAi effector by the hydrodynamics-based procedure. These results indicate that the both RNAi effectors have a potential to silence target gene in tumor cells in vivo when successfully delivered to tumor cells.

Attenuation of the Fas-L independent b16bL6 melanoma lymphocidic capacity by H-2K class I molecules

We have previously reported that the capacity of highly malignant B16BL6 murine melanoma cells to induce cell death in naive syngeneic lymphocytes stems from the absence of major histocompatibility complex (MHC) class I glycoproteins in these melanoma cells. Our present study provides evidence that the above-mentioned lymphocidic activities of B16BL6 cells are selectively attenuated when the expression of H-2K (but not H-2D or H-2L) MHC class I glycoproteins is reconstituted in these cells. The induction of apoptosis in naive lymphocytes by H-2K-deficient melanoma cells does not involve the Fas ligand (Fas-L)/FAS signaling module, as demonstrated by employing lymphocytes derived from Fas-L(gld)- or Fas(lpr)-deficient mice in co-culture experiments. Furthermore, these tumor cells fail to induce Fas-L-mediated fratricide in co-cultured lymphocytes and do not express Fas-L either when grown alone or co-cultured with lymphocytes. These findings explain the previously widely reported selective down-regulation of certain MHC class I-encoded glycoproteins (H-2K, bur not H-2D or H-2L) during tumor progression. Namely, the initiation of an effective immune response against H-2K-deficient cells could be abrogated at very early steps, as the result of the induction of Fas-L/Fas-independent cell death among naive lymphoid cells.

71. Intratumoral Delivery of Small Interfering RNA for Inhibition of Tumor Progression in Mice

RNA interference (RNAi) is a post-transcriptional gene silencing event in which short double-stranded RNA (siRNA) degrades target mRNA in a sequence-specific manner. Silencing oncogenes or other genes contributing to tumor cell malignancy or progression by siRNA or siRNA-expressing vector offers a therapeutic treatment for cancer patients. For treating cancer patients with RNAi effector, its delivery to tumor cells is one of the key factors, because the gene silencing event is limited in the cells reached by the RNAi effector. To examine whether siRNA or siRNA-expressing vector is effective in reducing target gene expression in tumor cells in vivo, we developed tumor cell lines that stably express reporter genes for a convenient, sensitive and quantitative evaluation of the RNAi effect. Namely, mouse melanoma B16-BL6 cells were stably transfected with firefly (model target gene of RNAi) and sea pansy (indicator of tumor cell number) luciferases to obtain B16-BL6/dual Luc cells. We found that the ratio of the luciferase activities in the tumor cells can be used as an indicator of RNAi. When the siRNA-expressing plasmid DNA (pDNA) was added to the cells, the luciferase activity decreased with time and reached a trough level at 2 days. Then, the activity returned to the initial level at 12 days. siRNA also showed a similar inhibitory profile, but the decrease and recovery in the luciferase activity were faster than those of siRNA-expressing pDNA. Then, the B16-BL6/dual Luc cells were inoculated into the footpad of mice to examine whether the luciferase expression is suppressed by the delivery of RNAi effectors in vivo. A single injection of either siRNA or siRNA-expressing pDNA into the tumor tissue followed by electroporation (1000 V/cm, 5 ms, 4 Hz, 12 pulses) reduced the luciferase activity to about 30% of the control value. Next, we investigated whether silencing the expression of genes related to tumor cell progression by RNAi can inhibit the tumor cell growth. To this end, |[beta]|-catenin and hypoxia-inducible factor 1|[alpha]|(HIF1|[alpha]|) were selected as the target. Transfection of siRNA-expressing pDNA targeting to b-catenin or HIF1a reduced each target gene expression in cultured B16 cells to about 20% (|[beta]|-catenin) and 25% (HIF1|[alpha]|) at mRNA level compared with those in B16 cells transfected with pDNA expressing no effective siRNA. In addition, the treatment resulted in the decrease in the number of B16 cells to about 50% (|[beta]|-catenin) and 70% (HIF1|[alpha]|) of a control value at 3 days. Then we investigated whether the intratumoral delivery of siRNA-expressing pDNA targeting to |[beta]|-catenin or HIF1|[alpha]| can be a therapeutic treatment against the proliferation of the tumor cells in mice. To investigate this possibility, we administered the siRNA-expressing pDNA targeting to |[beta]|-catenin or HIF1|[alpha]| to the tumor-bearing mice by the same procedure as above. As a result, we found that the intratumoral delivery of siRNA-expressing pDNA targeting |[beta]|-catenin or HIF1|[alpha]| inhibited the tumor growth.

経皮的磁気刺激の印加がマウス腫ようおよび免疫機能に与える影響

We investigated the effects of repetitive magnetic stimulation on tumor development processes and immune functions. A circular coil (inner diameter = 15 mm, outer diameter = 75 mm) was used in experiments. The stimulus conditions were as follows: peak magnetic field = 0.25 T (at the center of the coil), frequency = 25 pulses/sec, 1000 pulses/sample/day. Magnetically induced eddy currents in mice = 0.25 T: 0.79−1.54 A/m2. B16-BL6 melanoma model mice were exposed to the magnetic stimulation for 16 days from the day after the injection of cancer cells. Tumor growth study revealed a significant decrease in the tumor weight of the stimulated group (56% vs. a sham group, 41% vs. a controls). B16-BL6 cells were also exposed to the magnetic stimulation (1000 pulses/sample). However, magnetically induced eddy currents had no effect on B16-BL6 cell viabilities. Contrary to the cell viability study, proliferation activities of mice spleen cells were up-regulated by the magnetic stimulation. TNF-α production was also activated in the stimulated mice. These results indicate that the immune functions were up-regulated by the magnetic stimulation, resulting in decreased tumor weight in the tumor model mice. And they also show the potential for therapeutic use of magnetic stimulation in cancer treatment.

Effects of pulsed magnetic stimulation on tumor development and immune functions in mice

We investigated the effects of pulsed magnetic stimulation on tumor development processes and immune functions in mice. A circular coil (inner diameter = 15 mm, outer diameter = 75 mm) was used in the experiments. Stimulus conditions were pulse width = 238 micros, peak magnetic field = 0.25 T (at the center of the coil), frequency = 25 pulses/s, 1,000 pulses/sample/day and magnetically induced eddy currents in mice = 0.79-1.54 A/m(2). In an animal study, B16-BL6 melanoma model mice were exposed to the pulsed magnetic stimulation for 16 days from the day of injection of cancer cells. A tumor growth study revealed a significant tumor weight decrease in the stimulated group (54% of the sham group). In a cellular study, B16-BL6 cells were also exposed to the magnetic field (1,000 pulses/sample, and eddy currents at the bottom of the dish = 2.36-2.90 A/m(2)); however, the magnetically induced eddy currents had no effect on cell viabilities. Cytokine production in mouse spleens was measured to analyze the immunomodulatory effect after the pulsed magnetic stimulation. tumor necrosis factor (TNF-alpha) production in mouse spleens was significantly activated after the exposure of the stimulus condition described above. These results showed the first evidence of the anti-tumor effect and immunomodulatory effects brought about by the application of repetitive magnetic stimulation and also suggested the possible relationship between anti-tumor effects and the increase of TNF-alpha levels caused by pulsed magnetic stimulation.

Potential Ability of Hot Water Adzuki (Vigna angularis) Extracts to Inhibit the Adhesion, Invasion, and Metastasis of Murine B16 Melanoma Cells

The 40% ethanol eluent of the fraction of hot-water extract from adzuki beans (EtEx.40) adsorbed onto DIAION HP-20 resin has many biological activities, for example, antioxidant, antitumorigenesis, and intestinal alpha-glucosidase suppressing activities. This study examined the inhibitory effect of EtEx.40 on experimental lung metastasis and the invasion of B16-BL6 melanoma cells. EtEx.40 was found significantly to reduce the number of tumor colonies. It also inhibited the adhesion and migration of B16-BL6 melanoma cells into extracellular matrix components and their invasion into reconstituted basement membrane (matrigel) without affecting cell proliferation in vitro. These in vivo data suggest that EtEx.40 possesses a strong antimetastatic ability, which might be a lead compound in functional food development.

Inhibition of Metastatic Tumor Growth in Mouse Lung by Repeated Administration of Polyethylene Glycol-Conjugated Catalase

To develop a novel and effective approach to inhibit tumor metastasis based on controlled delivery of catalase, we first evaluated the characteristics of the disposition and proliferation of tumor cells. Then, we examined the effects of polyethylene glycol-conjugated catalase (PEG-catalase) on tumor metastasis. On the basis of the results obtained, PEG-catalase was repetitively administered to completely suppress the growth of tumor cells. Murine melanoma B16-BL6 cells were stably transfected with firefly luciferase gene to obtain B16-BL6/Luc cells. These cells were injected intravenously into syngeneic C57BL/6 mice. PEG-catalase was injected intravenously, and the effect was evaluated by measuring the luciferase activity as the indicator of the number of tumor cells. At 1 hour after injection of B16-BL6/Luc cells, 60 to 90% of the injected cells were recovered in the lung. The numbers decreased to 2 to 4% at 24 hours, then increased. An injection of PEG-catalase just before inoculation significantly reduced the number of tumor cells at 24 hours. Injection of PEG-catalase at 1 or 3 days after inoculation was also effective in reducing the cell numbers. Daily dosing of PEG-catalase greatly inhibited the proliferation and the number assayed at 14 days after inoculation was not significantly different from the minimal number observed at 1 day, suggesting that the growth had been markedly suppressed by the treatment. These findings indicate that sustained catalase activity in the blood circulation can prevent the multiple processes of tumor metastasis in the lung, which could lead to a state of tumor dormancy.

Apoptosis of murine melanoma B16-BL6 cells induced by quercetin targeting mitochondria, inhibiting expression of PKC-α and translocating PKC-δ

In our previous study, quercetin was found to induce apoptosis of murine melanoma B16-BL6 cells. The cellular and molecular mechanism of quercetin-induced apoptosis was investigated in the present study. Nuclear morphology was determined by fluorescence microscopy. DNA fragmentation was analyzed by electrophoresis and quantified by the diphenylamine method. The transmembrane potential of mitochondria was measured by flow cytometry. Bcl-2, Bcl-X(L), PKC-alpha, PKC-beta, and PKC-delta were detected by Western blotting. Caspase activity was determined spectrophotometrically. Quercetin induced the condensation of nuclei of B16-BL6 cells in a dose-dependent pattern as visualized by Hoechst 33258 and propidium iodide dying. Phorbol 12-myristate 13-acetate (PMA), a PKC activator, significantly enhanced apoptosis induced by quercetin, while doxorubicin, a PKC inhibitor, markedly decreased it. Both PMA and doxorubicin showed a consistent effect on the fragmentation of nuclear DNA caused by various dosages of quercetin. Quercetin dose-dependently led to loss of the mitochondrial membrane potential, which was also significantly reinforced or antagonized by PMA and doxorubicin, respectively. Moreover, PMA showed reinforcement, while doxorubicin showed significant antagonization, of the quercetin-mediated decrease in the expression of Bcl-2. Quercetin promoted caspase-3 activity in a dose-dependent manner, which was also regulated by PMA and doxorubicin with a pattern similar to that seen in their effect on apoptosis, mitochondrial membrane potential and Bcl-2 expression, but none of these were directly affected by PMA and doxorubicin. Free fatty acid and chlorpromazine, a PKC activator and inhibitor, respectively, did not interfere with these effects of quercetin. B16-BL6 cells expressed PKC-alpha, PKC-beta, and PKC-delta. Quercetin dose-dependently inhibited the expression of PKC-alpha but not that of PKC-beta and PKC-delta. Doxorubicin almost completely blocked the effect of quercetin on the expression of PKC-alpha. Quercetin was also involved in the translocation of PKC-delta from the cytosol to the nucleus. PMA enhanced the effect of quercetin on the translocation of PKC-delta. These results indicate that quercetin induced apoptosis of murine melanoma B16-BL6 cells by injuring their mitochondria, increasing the activity of caspase-3, inhibiting the expression of Bcl-2 and PKC-alpha, and inducing the translocation of PKC-delta. Doxorubicin inhibited these effects of quercetin by blocking the decreased expression of PKC-alpha induced by quercetin while PMA increased these effects by enhancing the translocation of PKC-delta induced by quercetin.

The integrity of cholesterol-enriched microdomains is essential for the constitutive high activity of protein kinase B in tumour cells

A deregulated activity of PKB/Akt (where PKB stands for protein kinase B) renders tumour cells resistant to a variety of apoptosis-inducing stimuli. Elucidation of the mechanisms responsible for this deregulation is of prime importance for the development of novel anti-cancer drugs. Results of the present study demonstrate that the constitutive activity of PKB/Akt in B16BL6 melanoma cells depends on the integrity of cholesterol-enriched membrane microdomains, since the exposure of cells to cholesterol-depleting agents decreases the phosphorylation of this enzyme, with no change in its total protein level. Inhibitors of Hsp90 (heat-shock protein 90) decreased phosphorylation of PKB/Akt with a similar pattern. Dephosphorylation of the enzyme, as a consequence of raft disintegration, could be precluded by inhibition of serine/threonine (but not tyrosine) phosphatases. Our results imply that destabilization of lipid rafts seemingly affects the association of Hsp90 with the respective serine/threonine phosphatases, thereby increasing the accessibility to PKB/Akt to deactivating phosphatases. We have found recently that reconstituted expression of H-2K class I glycoproteins in class I-deficient B16BL6 cells also decreases the phosphorylation of PKB/Akt. Therefore it is possible that raft-associated regulation of this important enzyme involves both H-2K glycoproteins and Hsp90.

Immunological properties and vaccine efficacy of murine dendritic cells simultaneously expressing melanoma-associated antigen and interleukin-12.

Interleukin (IL)-12 is a key factor for inducing cellular immune responses, which play a central role in the eradication of cancer. In the present study, in order to create a dendritic cell (DC)-based vaccine capable of positively skewing immune response toward a cellular immunity-dominant state, we analyzed immunological characteristics and vaccine efficacy of DCs cotransduced with melanoma-associated antigen (gp100) and IL-12 gene (gp100+IL12/DCs) by using RGD fiber-mutant adenovirus vector (AdRGD), which enables highly efficient gene transduction into DCs. gp100+IL12/DCs could simultaneously express cytoplasmic gp100 and secretory IL-12 at levels comparable to DCs transduced with each gene alone. In comparison with DCs transduced with gp100 alone (gp100/DCs), upregulation of major histocompatibility complex class I, CD40, and CD86 molecules on the cell surface and more potent T-cell-stimulating ability for proliferation and interferon-gamma secretion were observed as characteristic changes in gp100+IL12/DCs. In addition, administration of gp100+IL12/DCs, which were prepared by a relatively low dose of AdRGD-IL12, could induce more potent tumor-specific cellular immunity in the murine B16BL6 melanoma model than vaccination with gp100/DCs. However, antitumor effect and B16BL6-specific cytotoxic T-lymphocyte activity in mice vaccinated with gp100+IL12/DCs diminished with increasing AdRGD-IL12 dose during gene transduction, and paralleled the decrease in presentation levels via MHC class I molecules for antigen transduced with another AdRGD. Collectively, our results suggested that optimization of combined vector dose was required for development of a more efficacious DC-based vaccine for cancer immunotherapy, which relied on genetic engineering to simultaneously express tumor-associated antigen and IL-12.