CB-RAF600E-1 exerts efficacy in vemurafenib-resistant and non-resistant-melanoma cells via dual inhibition of RAS/RAF/MEK/ERK and PI3K/Akt signaling pathways

Background and AimPredicting novel dual inhibitors to combat adverse effects such as the development of resistance to vemurafenib in melanoma treatment due to the reactivation of MAPK and PI3K/AKT signaling pathways is studied to help in reversal of cancer symptoms.Reversal of cancer symptoms in melanoma associated with vemurafenib resistance is driven by reactivation of MAPK and PI3K/Akt signaling pathways. Novel dual inhibitors targeting these proteins would be beneficial to combat resistance.MethodsHigh-throughput virtual screening of the ChemBridge library against B-RAFV600E and Akt was performed using an automated protocol with the AutoDock VINA program. Luminescence and time-resolved fluorescence kits were used to measure enzyme activities. The MTT assay was used to determine proliferation in normal and vemurafenib-resistant A375 cells. Flow cytometry was used to examine apoptosis, cell cycle, and phosphorylation of ERK/Akt signaling pathway.ResultsHigh-throughput screening from the ChemBridge library identified 15 compounds with high binding energy towards B-RAFV600E; among these, CB-RAF600E-1 had the highest ΔG_binding score −11.9 kcal/mol. The compound also had a high affinity towards Akt, with a ΔG_binding score of −11.5 kcal/mol. CB-RAF600E-1 dose-dependently inhibited both B-RAFV600E and Akt with IC₅₀ values of 635 nM and 154.3 nM, respectively. The compound effectively controlled the proliferations of normal and vemurafenib-resistant A375 cells, with GI₅₀ values of 222.3 nM and 230.5 nM, respectively. A dose-dependent increase in the sub G₀/G₁ phase of the cell cycle and total apoptosis was observed following compound treatment in both normal and vemurafenib-resistant melanoma cells. Treatment with CB-RAF600E-1 decreased the pERK/pAkt dual-positive populations in normal and vemurafenib-resistant A375 cells.ConclusionCB-RAF600E-1, identified as a novel dual inhibitor effective against normal and vemurafenib-resistant melanoma cells, requires further attention for development as an effective chemotherapeutic agent for melanoma management.     

Identification of CED-3 substrates by a yeast-based screening method

Jpk, originally isolated as an associating factor with the position-specific regulatory element of Hoxa-7, was found to be toxic to Escherichia coli (1) and to F9 teratocarcinoma cells (2) when transiently transfected and expressed. To investigate the possibility of tumor gene therapy using Jpk, its effect was tested in B16F10 murine melanoma cells. Because Jpk reduces the viability of B16F10 cells when transiently expressed, the Jpk gene was cloned into a tetracycline-controlled gene expression vector, pRetro-On to circumvent the lethal effect in unwanted situations. The retroviral plasmid pRetroJpk purified from the packaging cell was infected into B16F10 melanoma cells and screened in the presence of puromycin. Out of a total of 53 stable clones selected with puromycin, two clones overexpressed Jpk at more than twice the level when induced by doxycycline, a tetracycline-derivative, which implies the amount of the Jpk exhibiting the toxicity is critical. Although these clones control only low levels of Jpk, overexpression of the established melanoma cell line may help us decipher the function of Jpk and apply it as a tumor therapeutic gene in the future.     

Detailed dosimetry calculation for in-vitro experiments and its impact on clinical BNCT

PurposeBoron Neutron Capture Therapy (BNCT) is a form of hadrontherapy based on the selective damage caused by the products of neutron capture in ¹⁰B to tumour cells. BNCT dosimetry strongly depends on the parameters of the dose calculation models derived from radiobiological experiments. This works aims at determining an adequate dosimetry for in-vitro experiments involving irradiation of monolayer-cultured cells with photons and BNCT and assessing its impact on clinical settings.M&MDose calculations for rat osteosarcoma UMR-106 and human metastatic melanoma Mel-J cell survival experiments were performed using MCNP, transporting uncharged particles for KERMA determinations, and secondary particles (electrons, protons, ¹⁴C, ⁴He and ⁷Li) to compute absorbed dose in cultures. Dose-survival curves were modified according to the dose correction factors determined from computational studies. New radiobiological parameters of the photon isoeffective dose models for osteosarcoma and metastatic melanoma tumours were obtained. Dosimetry implications considering cutaneous melanoma patients treated in Argentina with BNCT were assessed and discussed.ResultsKERMA values for the monolayer-cultured cells overestimate absorbed doses of radiation components of interest in BNCT. Detailed dose calculations for the osteosarcoma irradiation increased the relative biological effectiveness factor RBE_1% of the neutron component in more than 30%. The analysis based on melanoma cases reveals that the use of survival curves based on KERMA leads to an underestimation of the tumour doses delivered to patients.ConclusionsConsidering detailed dose calculation for in-vitro experiments significantly impact on the prediction of the tumor control in patients. Therefore, proposed methods are clinically relevant.     

Lentiviral vector expression of tumour antigens in dendritic cells as an immunotherapeutic strategy

Therapeutic cancer vaccines need to stimulate a refractory immune system to make an effective anti-tumour response. We have explored the use of lentiviral vectors to deliver tumour antigen genes to dendritic cells (DC) as a possible mechanism of immune stimulation. Direct injection of a lentiviral vector encoding the melanoma antigen NY-ESO-1 in HLA-A2 transgenic mice primed NY-ESO-1-specific CD8+ cells that could be expanded by boosting with an NY-ESO-1 vaccinia virus. The expanded cells could kill NY-ESO-1_157–165 peptide-pulsed targets in vivo. In order to examine the priming step directly, we constructed another lentiviral vector expressing the melanoma antigen Melan-A (MART-1). Here we show that Melan-A protein is also efficiently expressed after transduction of human DC cultured from peripheral blood mononuclear cells. When these transduced DC are co-cultured with autologous naïve T cells, they cause the expansion of cells that recognise the HLA-A2 restricted Melan-A_27–35 epitope. The expanded cells are functional in that they release IFN-γ upon antigen stimulation. Melan-A lentiviral vector transduced DC caused a similar level of naïve T-cell expansion to Melan-A_27–35 peptide-pulsed DC in four experiments using different HLA-A2 positive donors. These data suggest that a vaccine based either on DC transduced with a lentiviral vector ex vivo, or on direct lentiviral vector injection, should be assessed in a phase I clinical trial.This article is a symposium paper from the “Robert Baldwin Symposium: 50 years of Cancer Immunotherapy”, held in Nottingham, Great Britain, on 30th June 2005.     

CD4+ T cells kill HLA-class-II-antigen-positive melanoma cells presenting peptide in vitro

Purpose: Most melanoma cell lines express HLA class II antigens constitutively or can be induced to do so with interferon γ (IFNγ). We have previously demonstrated that peptide-specific CD4⁺ T cells proliferate in response to HLA-class-II-antigen-mediated peptide presentation by melanoma cells in vitro and produce interleukin-10 (IL-10) and (IFNγ). We asked whether the responding T cells kill the tumor cells and, if so, whether direct cell contact was required. Methods: Two HLA class II⁺ melanoma cell lines derived from metastases were co-cultured with a human CD4⁺ T cell clone specific for influenza hemagglutinin peptide (HA). T cells, melanoma, and HA were co-cultured for 48 h. Melanoma cells with and without HA and/or T cells served as controls. After 36 h, the medium was removed for cytokine analysis by enzyme-linked immunosorbent assay (ELISA). Twelve hours later non-adherent cells were washed away and the adherent melanoma cells were trypsinized and counted. Dual-chamber culture plates were used to determine whether cell contact and/or exposure to cytokine were required for tumor cell death. Results: Melanoma cell counts were over 80% lower in wells containing T cells than in wells with melanoma and peptide alone (P < 0.05). ELISA of supernatants revealed production of IFNγ and IL-10 by the responding T cells. Direct T cell contact with tumor cells was not required for tumor cell death, as melanoma cells were killed when they shared medium but had no contact with T cells responding to peptide presentation by HLA-class-II-antigen-positive melanoma cells in a separate chamber. Blocking antibody to IFNγ but not IL-10 prevented melanoma cell death at levels of cytokine similar to that present in co-culture assays. Conclusions: Peptide-specific CD4⁺ T cells kill melanoma cells in vitro when they recognize peptide presented by the tumor cell in the context of HLA class II antigen. Direct cell contact is not required, suggesting that it is a cytokine-mediated event. Immunotherapy, using primed CD4⁺ T cells and peptide, may be beneficial in patients whose tumors express HLA class II antigens or can be induced to do so with IFNγ. Received: 1 July 1999 / Accepted: 17 September 1999     

Three-dimensional multicellular cell culture for anti-melanoma drug screening: focus on tumor microenvironment

AbstractThe development of new treatments for malignant melanoma, which has the worst prognosis among skin neoplasms, remains a challenge. The tumor microenvironment aids tumor cells to grow and resist to chemotherapeutic treatment. One way to mimic and study the tumor microenvironment is by using three-dimensional (3D) co-culture models (spheroids). In this study, a melanoma heterospheroid model composed of cancer cells, fibroblasts, and macrophages was produced by liquid-overlay technique using the agarose gel. The size, growth, viability, morphology, cancer stem-like cells population and inflammatory profile of tumor heterospheroids and monospheroids were analyzed to evaluate the influence of stromal cells on these parameters. Furthermore, dacarbazine cytotoxicity was evaluated using spheroids and two-dimensional (2D) melanoma model. After finishing the experiments, it was observed the M2 macrophages induced an anti-inflammatory microenvironment in heterospheroids; fibroblasts cells support the formation of the extracellular matrix, and a higher percentage of melanoma CD271 was observed in this model. Additionally, melanoma spheroids responded differently to the dacarbazine than the 2D melanoma culture as a result of their cellular heterogeneity and 3D structure. The 3D model was shown to be a fast and reliable tool for drug screening, which can mimic the in vivo tumor microenvironment regarding interactions and complexity.Graphic abstract      

Specific Kilting of Human Melanoma Cells With an Efficient 10B-Compound on Monoclonal Antibodies

We previously established methods which have enabled us to target a sufficient number of ¹⁰B atoms on human melanoma cells to destroy them by thermal neutron irradiation. Monoclonal antibodies were here used as vector of ¹⁰B atoms on the target cell. Thermal neutrons require at least 10⁹¹⁰B atoms to destroy the cell. In order to accumulate an adequate number of ¹⁰B atoms on target cells, our first approach was to make an effective compound that contains 12 atoms of ¹⁰B in a molecule. The second step was to conjugate the compound with an avidin molecule (¹⁰B₁₂-avidin). One molecule of the ¹⁰B₁₂-avidin carries about 30 atoms of ¹⁰B. This ¹⁰B₁₂-avidin can be specifically targeted on human melanoma cells by biotinated monoclonal antibodies specific for the cells. Furthermore, the number of ¹⁰B atoms on target cells can be augmented by a hapten-antihapten monoclonal antibody system. The cultured human melanoma cells treated with these methods were damaged by thermal neutron irradiation. This is the first study that indicates thermal neutrons do injure target cells boronated by monoclonal antibodies.     

α-MSH Receptor Autoradiography on Mouse and Human Melanoma Tissue Sections and Biopsies

Abstract

MSH receptors and their binding characteristics of [¹²⁵I]-labelled derivatives of α-MSH have been studied extensively on various mouse and human melanoma cell lines in culture. The aim of this study was to determine the binding characteristics of α-MSH radioligands to MSH receptors occurring in experimental mouse and human melanoma tumours as well as in human melanoma biopsies. For this reason, solid tumours were grown on experimental animals by inoculation of murine B16-F1 and human D10 and HBL melanoma cells. After excision and cryosectioning of the tumours, frozen tissue sections were incubated with [(¹²⁵I)Tyr²]-α-MSH or [(¹²⁵I)Tyr²,Nle⁴,D-Phe⁷]-α-MSH and specific α-MSH binding sites were visualized by subsequent autoradiography. The presence of increasing concentrations of unlabelled α-MSH during incubation with tracer led to a dose-dependent displacement of the radioligand. Quantitative analysis of the autoradiograms produced dissociation constants which were comparable with those obtained with cell binding assays: K_D = 1.87 and 1.31 nmol/l for B16 tumours and cells, respectively; 0.32 and 0.33 nmol/l for D10, and 2.24 and 1.36 nmol/l for HBL tumours and cells, respectively. This indicates similar binding properties of α-MSH radioligands to both cultured melanoma cells and tissue sections of melanoma tumours from experimental animals. Similar binding characteristics were also observed with human melanoma tissue sections originating from biopsies of melanoma patients.     

Generation of human-melanoma-specific T lymphocyte clones defining novel cytolytic targets with panels of newly established melanoma cell lines

Melanoma is a cancer where the immune system is believed to play an important role in the control of malignant cell growth. To study the variability of the immune response in melanoma patients, we derived melanoma cell lines from several HLA-A2⁺ and HLA-A2^– patients. The melanoma cell lines studied were designated FM3, FM6, FM9, FM28, FM37, FM45, FM55_P, FM55_M1 and FM55_M2 and were established from eight metastatic tumors as well as from one primary tumor from a total of seven different patients. On the basis of the ability of tumor cells to induce specific cytotoxic T lymphocytes (CTL) from peripheral blood lymphocytes (PBL) in mixed lymphocyte/tumor culture with HLA-A2⁺ melanoma cells, the FM3 cell line was characterized as highly immunogenic. To investigate the expression of different melanoma-associated antigens recognized by CTL on different melanoma cell lines, we selected the cell line FM3 for restimulation and further T cell cloning experiments. The lytic activity of CTL clones with good proliferative activity was examined using a panel of HLA-A2⁺ and HLA-A2^– melanoma cell lines. None of the tested HLA-A2^– melanoma cell lines were susceptible to lysis by the CTL clones, whereas allogeneic HLA-A2⁺ melanoma cell lines were lysed only by a few CTL clones. On the basis of their reactivity with different melanoma cell lines, it was possible to divide the present CTL clones into at least four groups suggesting the recognition of at least four different antigens. Three of these target structures probably are different from already-described HLA-A2-restricted melanoma-associated antigens, because their expression in the different melanoma cell lines do not correlate with the recognition of melanoma cells by these CTL. The results first indicate that poorly immunogenic melanoma cells may express melanoma-associated antigens, and also suggest that, by using CTL clones obtained against different HLA-class-I-matched melanoma cells, it is possible to define such antigens.     

Gomisin A ameliorates metastatic melanoma by inhibiting AMPK and ERK/JNK-mediated cell survival and metastatic phenotypes

BackgroundGomisin A (G.A), a lignan compound extracted from the fruits of Schisandra chinensis, is known to exert anti-tumor effects on hepatocarcinoma and colorectal cancer cells. Suppression of proliferation and metastatic abilities of cancer cells are some effective cancer treatment methods.PurposeThe objective of this study is to investigate the effects of G.A on metastatic melanoma, and the mechanism by which it affects metastatic melanoma.Study designThe anti-proliferative and anti-metastatic effects of G.A were observed in in vitro and in vivo.MethodsWST assay and flow cytometry were conducted to investigate the effect of G.A on proliferation, cell cycle arrest, and apoptosis in metastatic melanoma cell lines. Migration and invasion abilities of G.A-treated melanoma cells were observed by wound healing and invasion assays.ResultsG.A (25–100 μM) decreased the viability of melanoma cells by inducing cell cycle arrest and apoptosis. These anti-proliferative effects of G.A were found to be mediated by AMPK, ERK, and JNK activation. G.A (5–20 μM) decreased the migration and invasion of melanoma cells by suppressing epithelial-mesenchymal transition (EMT). Consequently, G.A (2–50 mg/kg) inhibited lung metastasis by suppressing EMT and inducing cell cycle arrest and apoptosis in melanoma cells.ConclusionThese results conclude that G.A has the potential to reduce metastatic melanoma through its anti-proliferative and anti-metastatic effects.     

Synthesis,inhibition of NO production and antiproliferative activities of some indole derivatives

The synthesis and the biological evaluation of pyrano[3,2-e]indoles and their reaction intermediates are described. The compounds prepared were evaluated for their inhibition of NO production, antioxidant activity and also for their ability to inhibit in vitro the growth of four human tumor cell lines: large lung carcinoma (COR-L23), alveolar basal epithelial carcinoma (A549), amelanotic melanoma (C32) and melanoma (A375). The two reaction intermediates, 5a and 5b, showed the highest inhibition of NO production in murine monocytic macrophage (IC₅₀?=?1.1?μM and IC₅₀?=?2.3 μM respectively). Compound 5a was the most active against melanotic melanoma (IC₅₀?=?11.8?μM) while the other compounds exhibited weak cytotoxicity with IC₅₀ values >50?μM on all cell lines.     

Anti-tumor effects of canine adipose tissue-derived mesenchymal stromal cell-based interferon-β gene therapy and cisplatin in a mouse melanoma model

Background aimsAdipose tissue (AT)-derived mesenchymal stromal cells (MSC) (AT-MSC) represent a novel tool for delivering therapeutic genes to tumor cells. Interferon (IFN)-β is a cytokine with pleiotropic cellular functions, including anti-proliferative, immunomodulatory and anti-angiogenic activities. The purpose of this study was to engineer canine AT-MSC (cAT-MSC) producing IFN-β and to evaluate the anti-tumor effect of cAT-MSC–IFN-β combined with cisplatin in mouse melanoma modelMethodscAT-MSC engineered to express mouse IFN-β were generated using a lentiviral vector (cAT-MSC–IFN-β) and the secreted IFN-β-induced inhibition of tumor cell growth and apoptosis on B16F10 cells was investigated in vitro prior to in vivo studies. Melanoma-bearing mouse was developed by injecting B16F10 cells subcutaneously into 6-week-old C57BL/6 mice. After 14 days, cisplatin (10 mg/kg) was injected intratumorally, and 3 days later the engineered cAT-MSC were injected subcutaneously every 3 days to death. Tumor volume and survival times were measuredResultsThe combination treatment of cAT-MSC–IFN-β with cisplatin was more effective in inhibiting the growth of melanoma and resulted in significantly extended survival time than both an unengineered cAT-MSC–cisplatin combination group and a cisplatin-alone group. Interestingly, subcutaneously injected cAT-MSC–IFN-β were migrated to tumor sitesConclusionsOur data suggest that canine AT-MSC could serve as a powerful cell-based delivery vehicle for releasing therapeutic proteins to tumor lesions. Maximal anti-tumor effects were seen when this therapy was combined with a DNA-damaging chemotherapeutic agent. This study demonstrates the possible applicability of AT-MSC-mediated IFN-β in treating canine and human cancer patients.     

Melanin Biosynthesis Inhibitors from Tarragon Artemisia dracunculus

The EtOH extract of tarragon Artemisia dracunculus, a perennial herb in the family Asteraceae, was found to potently inhibit α-melanocyte-stimulating hormone (α-MSH) induced melanin production in B16 mouse melanoma cells. Bioassay-guided fractionation led to the isolation of two alkamide compounds, isobutyl (1) and piperidiyl (2) amides of undeca-2E,4E-dien-8,10-dynoic acid. The respective EC₅₀ values for melanin biosynthesis inhibition were 1.8 and 2.3 μg/mL for 1 and 2.     

Protection of pulmonary epithelial cells from oxidative stress by hMYH adenine glycosylase

BackgroundOxygen toxicity is a major cause of lung injury. The base excision repair pathway is one of the most important cellular protection mechanisms that responds to oxidative DNA damage. Lesion-specific DNA repair enzymes include hOgg1, hMYH, hNTH and hMTH.MethodsThe above lesion-specific DNA repair enzymes were expressed in human alveolar epithelial cells (A549) using the pSF91.1 retroviral vector. Cells were exposed to a 95% oxygen environment, ionizing radiation (IR), or H₂O₂. Cell growth analysis was performed under non-toxic conditions. Western blot analysis was performed to verify over-expression and assess endogenous expression under toxic and non-toxic conditions. Statistical analysis was performed using the paired Student''s t test with significance being accepted for p < 0.05.ResultsCell killing assays demonstrated cells over-expressing hMYH had improved survival to both increased oxygen and IR. Cell growth analysis of A549 cells under non-toxic conditions revealed cells over-expressing hMYH also grow at a slower rate. Western blot analysis demonstrated over-expression of each individual gene and did not result in altered endogenous expression of the others. However, it was observed that O₂ toxicity did lead to a reduced endogenous expression of hNTH in A549 cells.ConclusionIncreased expression of the DNA glycosylase repair enzyme hMYH in A549 cells exposed to O₂ and IR leads to improvements in cell survival. DNA repair through the base excision repair pathway may provide an alternative way to offset the damaging effects of O₂ and its metabolites.     

Sawhorse-type diruthenium tetracarbonyl complexes containing porphyrin-derived ligands as highly selective photosensitizers for female reproductive cancer cells

Diruthenium tetracarbonyl complexes of the type [Ru₂(CO)₄(μ₂-η²-O₂CR)₂L₂] containing a Ru–Ru backbone with four equatorial carbonyl ligands, two carboxylato bridges, and two axial two-electron ligands in a sawhorse-like geometry have been synthesized with porphyrin-derived substituents in the axial ligands [1: R is CH₃, L is 5-(4-pyridyl)-10,15,20-triphenyl-21,23H-porphyrin], in the bridging carboxylato ligands [2: RCO₂H is 5-(4-carboxyphenyl)-10,15,20-triphenyl-21,23H-porphyrin, L is PPh₃; 3: RCO₂H is 5-(4-carboxyphenyl)-10,15,20-triphenyl-21,23H-porphyrin, L is 1,3,5-triaza-7-phosphatricyclo[3.3.1.1]decane], or in both positions [4: RCO₂H is 5-(4-carboxyphenyl)-10,15,20-triphenyl-21,23H-porphyrin, L is 5-(4-pyridyl)-10,15,20-triphenyl-21,23H-porphyrin]. Compounds 1–3 were assessed on different types of human cancer cells and normal cells. Their uptake by cells was quantified by fluorescence and checked by fluorescence microscopy. These compounds were taken up by human HeLa cervix and A2780 and Ovcar ovarian carcinoma cells but not by normal cells and other cancer cell lines (A549 pulmonary, Me300 melanoma, PC3 and LnCap prostate, KB head and neck, MDAMB231 and MCF7 breast, or HT29 colon cancer cells). The compounds demonstrated no cytotoxicity in the absence of laser irradiation but exhibited good phototoxicities in HeLa and A2780 cells when exposed to laser light at 652 nm, displaying an LD₅₀ between 1.5 and 6.5 J/cm² in these two cell lines and more than 15 J/cm² for the others. Thus, these types of porphyric compound present specificity for cancer cell lines of the female reproductive system and not for normal cells; thus being promising new organometallic photosensitizers.     

Method of evaluating respiratory induced organ motion by vector volume histogram

PurposePublished organ motion data have been collected from measurements of a limited number of points within the organ, the centroid, or the edge of the organ. These are derived from the spatial characteristics of respiratory induced motion; however, this approach does not consider non-rigid organ deformation. We propose a novel quantitative method for evaluating respiratory induced organ motion using Deformable Image Registration (DIR).MethodTwo phases from a 4-dimensional computed tomography (4D CT) dataset at maximum inspiration and expiration were each taken from five patients. The left and right lungs, esophagus, stomach, spinal cord, and liver were manually contoured in the end-expiration phase. The hybrid deformable registration algorithm of the RayStation treatment planning system (TPS) was used to deform the end-expiration phase to the end-inspiration phase. From this, the deformation vector field (DVF) was calculated. DVFs consist of DVF_LR (left-right), DVF_AP (anterior-posterior), and DVF_SI (superior-inferior) as separate files. We calculated the vector volume histogram (VVH) and L_max (maximum absolute vector of the organ) to evaluate every vector for each individual organ. We also measured respiratory organ motion from the position of the organ centroid in two phases.ResultsVVH enabled us to find the absolute distance and volume of the organ contributing to motion points on the curve. Organ motion using the centroid method was smaller than L_max using VVH. Using the centroid method, it is difficult to evaluate the deformable organ motion.ConclusionVVH may be a useful technique in evaluating organ volumetric change during respiratory organ motion.     

Differentiation-inducing activity of lupane triterpenes on a mouse melanoma cell line

Lupane triterpenes were found to promote melanogenesis, a hallmark of B16 2F2 mouse melanoma cell differentiation. Studies of the structure-activity relationships demonstrated that the keto function at C-3 of the lupane skeleton played important roles in the melanogenic activities of lupane triterpenes on melanoma cells. The carbonyl group at C-17 of lupane triterpenes was essential against their apoptosis-inducing activity against human cancer cells via the inhibition of topoisomerase I. We investigated whether signaling mechanisms were involved in the stimulative effects of lupane triterpenes on the melanogenesis of B16 2F2 cells. In experiments using selective inhibitors against various signal transduction molecules and Western blotting analysis, it was suggested that p38 MAPK was involved in melanoma cell differentiation as a downstream effector of PKA. Lupeol (compound 1), a lupane triterpene, induced dendrite formations, a morphological hallmark of B16 2F2 cell differentiation by rearrangement of the actin cytoskeleton. The activation of cofilin, an actin depolymerizing factor, by compound 1 caused actin fiber disassembly in B16 2F2 cells. Furthermore, compound 1 was shown to inhibit the cell motilities of human melanoma and neuroblastoma in vitro.     

Target level blocking of T-cell cytotoxicity for human malignant melanoma by monoclonal antibodies

Cytotoxic T lymphocytes (CTL) for autologous malignant melanoma in culture of a patient AV were induced by restimulation of PBL (peripheral blood leukocytes) with AV melanoma cells in vitro and subcultured in interleukin 2 (IL-2) conditioned media. Monoclonal antibodies detecting six antigenic systems on melanoma cell surfaces were tested for blocking activity on the effector function of subcultured cytolytic T lymphocytes for autologous melanoma cells. The monoclonal antibodies R₂₄ (γ3), specific for the G_D3 disialoganglioside on melanoma cell surfaces and I₂₄ (γM), detecting a similar antigenic determinant, blocked autologous T lymphocytotoxicity for malignant melanoma cells on the target level. The effector function of alloantigen activated cytolytic T lymphocytes generated by coculture of allogeneic PBL with Epstein-Barr virus (EBV) transformed AV B lymphocytes, was blocked by monoclonal antibody R₂₄ when tested against AV melanoma targets, but not when tested against AV B lymphocyte targets. It is concluded that blocking by mAb R₂₄ occurs in this system as a nonspecific effect, unrelated to the specific target antigen recognition by cytotoxic T lymphocytes. Steric hindrance or antibody induced membrane changes may account for the blocking effect of monoclonal antibody R₂₄.     

Knockdown of aquaporin-8 induces mitochondrial dysfunction in 3T3-L1 cells

BackgroundAquaporin-8 (AQP8), a member of the aquaporin water channel family, is expressed in various tissue and cells, including liver, testis, and pancreas. AQP8 appears to have functions on the plasma membrane and/or on the mitochondrial inner membrane. Mitochondrial AQP8 with permeability for water, H₂O₂ and NH₃ has been expected to have important role in various cells, but its information is limited to a few tissues and cells including liver and kidney. In the present study, we found that AQP8 was expressed in the mitochondria in mouse adipose tissues and 3T3-L1 preadipocytes, and investigated its role by suppressing its gene expression.MethodsAQP8-knocked down (shAQP8) cells were established using a vector expressing short hairpin RNA. Cellular localization of AQP8 was examined by western blotting and immunocytochemistry. Mitochondrial function was assessed by measuring mitochondrial membrane potential, oxygen consumption and ATP level measurements.ResultsIn 3T3-L1 cells, AQP8 was expressed in the mitochondria. In shAQP8 cells, mRNA and protein levels of AQP8 were decreased by about 75%. The shAQP8 showed reduced activities of complex IV and ATP synthase; it is probable that the impaired mitochondrial water handling in shAQP8 caused suppression of the electron transport and ADP phosphorylation through inhibition of the two steps which yield water. The reduced activities of the last two steps of oxidative phosphorylation in shAQP8 cause low routine and maximum capacity of respiration and mitochondrial hyperpolarization.ConclusionMitochondrial AQP8 contributes to mitochondrial respiratory function probably through maintenance of water homeostasis.General significanceThe AQP8-knocked down cells we established provides a model system for the studies on the relationships between water homeostasis and mitochondrial function.