Targeted delivery of tacrolimus to T cells by pH-responsive aptamer-chitosan- poly(lactic-co-glycolic acid) nanocomplex

Tacrolimus (TAC) acts as an inhibitor of calcineurin, which inhibits the production of interleukin-2. In this study, we aimed to design a targeted delivery platform with poly (lactide-co-glycolide; PLGA) nanoparticles modified with chitosan (CS) and CD8AP17s aptamer (Apt). MOLT-4 cells as CD8 positive and JURKAT cells as CD negative were adopted to investigate the efficacy of the proposed delivery system in vitro. The particle size and Ζ potential of the TAC-PLGA-CS-Apt nanocomplex were 345 nm and 13.7 mV, respectively. Release study showed an efficient TAC release from complex in citrate buffer (pH 5.5). The 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay showed that TAC-PLGA-CS-Apt nanocomplex was highly selective toward MOLT-4 cells. Complex increased the cellular uptake of TAC in MOLT-4 cells (target) while reducing its cytotoxicity in JURKAT cells (nontarget). Our study showed that complex nanoconjugate could efficiently deliver TAC into MOLT-4 cells as a model of cytotoxic T cell and it could be considered as a potential candidate for TAC delivery.     

Susceptibility to natural killer cell-mediated cytolysis is independent of the level of target cell class I HLA expression

To test the hypothesis that susceptibility to NK cell-mediated cytolysis varies inversely with the levels of target cell class I HLA expression, NK-susceptible K562 and MOLT-4 target cells have been transfected via electroporation with cloned human class I HLA-A2 and HLA-B7 genes. Stably transfected cells expressing varying levels of cell-surface class I HLA have been selected by fluorescent activated cell sorting and tested for susceptibility to NK-mediated cytolysis by freshly isolated peripheral blood NK cells from nine normal volunteers as well as by cloned human NK effectors and tumor cells from a patient with an NK cell lymphoproliferative disorder. Expression of class I HLA did not alter the susceptibility of K562 or MOLT-4 target cells to NK-mediated cytolysis by any of the effectors tested. In addition, the class I HLA-expressing transfectant cells were identical to mock transfected cells in their ability to compete for lysis in cold target inhibition assays. Treatment of both mock-transfected and class I HLA-transfected K562 cells with IFN-gamma resulted in decreased susceptibility to NK-mediated cytolysis which was independent of the total level of class I HLA expression. These results demonstrate that the level of target cell class I HLA expression is not sufficient to determine susceptibility or resistance to NK-mediated cytolysis of the classical NK targets K562 and MOLT-4.     

Effect of gangliosides on the cytotoxic activity of natural killers from Syrian hamsters

The ability of various gangliosides to inhibit the cytotoxic activity of natural killers (NK-cells) from Syrian hamsters towards human lymphoma MOLT-4 cells was studied. The inhibitory effect was found to depend on the structure and concentration of the gangliosides. At concentrations corresponding to those in the blood of tumour-bearing hosts, SiaLacCer and Sia2LacCer inhibited the NK-activity. A significant inhibition was also found for (NeuAc)2GgOse3Cer, whereas NeuGcGgOse3Cer and NeuAcGgOse4Cer were practically inactive. Previously it was shown that Sia2LacCer which is either absent or very low in normal blood, is produced by a number of tumours and that tumour cells "shed" considerable amounts of gangliosides. On this ground, it was proposed that elevated concentrations of SiaLacCer and Sia2LacCer in the blood of tumour-bearing animals may inhibit the NK-activity and thus contribute to the "escape" of tumour cells from host immune surveillance.     

β1 Integrin triggering affects leukemic cell line sensitivity to natural killer cells

The role of beta1 (CD29) integrins in natural killer (NK) cell-target cell conjugation and cytotoxicity has not been clearly established. Ligation of beta1 integrins in NK cells can modulate the lytic capacity in both a positive and a negative manner; however, the contribution of the beta1 integrins present on target cells remains to be evaluated. Here, we analyzed the effect of beta1 integrins expressed by potential tumor target cells on conjugation and cytotoxicity. Using normalized flow cytometry binding assays, we demonstrated that the pretreatment of MOLT-4, K562, U-937 and HL-60 human leukemia target cell lines with selected anti-beta1 monoclonal antibodies (mAb) increased conjugation to human NK cell line NKL as well as to purified NK cells. Only mAb recognizing residues 207-218 of the beta1 subunit and functionally involved in the induction of homotypic adhesion (functional epitope A1) increased conjugation of all the target cells. Moreover, mAb to adhesion molecules different from beta1 but also inducers of homotypic adhesion of the target cells, i.e. CD43 and CD50 (ICAM-3), failed to increase conjugation to NKL cells. Cytotoxicity assays demonstrated that lysis of NK-sensitive target cells (MOLT-4) also increased after pretreatment with anti-beta1 epitope A1 mAb. Importantly, pretreatment of NK-resistant target cells (U-937 and HL-60) with anti-beta1 mAb was not able to outweigh the cytotoxic inhibitory mechanisms controlled by HLA class I molecules. However, simultaneous masking of HLA class I molecules with mAb and pretreatment with anti-beta1 mAb rendered NK-resistant cells susceptible to lysis, as predicted by the missing self hypothesis. Triggering of tumor target cells through beta1 integrins may thus play a role in conjugation to NK cells as well as in co-stimulation of cell-mediated cytotoxicity.     

Antibodies to human immunodeficiency virus in human sera induce cell-mediated lysis of human immunodeficiency virus-infected cells

The capacity of human immunodeficiency virus (HIV) antibody-positive sera from homosexually active men without acquired immune deficiency syndrome to lyse the HIV-infected T cell lines MOLT-4f and CCRF-CEM (CEM) in cooperation with lymphocytes from normal donors was investigated. Twenty-seven HIV antibody-positive sera, most of which enhanced the killing of HIV-infected MOLT-4f and CEM target cells by normal mononuclear cells were studied in detail. HIV antibody-positive sera resulted in lysis at dilutions as high as 1/10,000. HIV antibody-negative sera did not augment lysis of infected target cells. In addition, lysis of uninfected targets was not enhanced in the presence of HIV antibody-positive sera. Because fractionation of the HIV antibody-positive sera on a protein A affinity column resulted in recovery of the activity from the IgG fraction, the extra cytotoxic activity mediated by nonimmune cells in the presence of immune sera appears to be antibody-dependent. Furthermore, the cytotoxic effector cells were in the nonrosetting fraction of lymphocytes and expressed Leu-11 (cluster designation (CD)15) antigens, which is characteristic of cells participating in antibody-dependent cellular cytotoxicity reactions. The antibody specificity of the sera, determined by radioimmunoprecipitation, provides evidence that antibody-dependent cellular cytotoxicity can occur even when there are no detectable antibodies directed against gag proteins. Sera which lacked detectable antibodies to the envelope protein gp120 by radioimmunoprecipitation did not mediate antibody-dependent cellular cytotoxicity.     

Cell cycle effect on the activity of deoxynucleoside analogue metabolising enzymes

Deoxynucleoside analogues (dNAs) are cytotoxic towards both replicating and indolent malignancies. The impact of fluctuations in the metabolism of dNAs in relation to cell cycle could have strong implications regarding the activity of dNAs. Deoxycytidine kinase (dCK) and deoxyguanosine kinase (dGK) are important enzymes for phosphorylation/activation of dNAs. These drugs can be dephosphorylated/deactivated by 5'-nucleotidases (5'-NTs) and elevated activities of 5'-NTs and decreased dCK and/or dGK activities represent resistance mechanisms towards dNAs. The activities of dCK, dGK, and three 5'-NTs were investigated in four human leukemic cell lines in relationship to cell cycle progression and cytotoxicity of dNAs. Synchronization of cell cultures to arrest in G0/G1 by serum-deprivation was performed followed by serum-supplementation for cell cycle progression. The activities of dCK and dGK increased up to 3-fold in CEM, HL60, and MOLT-4 cells as they started to proliferate, while the activity of cytosolic nucleotidase I was reduced in proliferating cells. CEM, HL60, and MOLT-4 cells were also more sensitive to cladribine, cytarabine, 9-beta-D-arabinofuranosylguanine and clofarabine than K562 cells which demonstrated lower levels and less alteration of these enzymes and were least susceptible to the cytotoxic effects of most dNAs. The results suggest that, in the cell lines studied, the proliferation process is associated with a general shift in the direction of activation of dNAs by inducing activities of dCK/dGK and reducing the activity of cN-I which is favourable for the cytotoxic effects of cladribine, cytarabine and, 9-beta-D-arabinofuranosylguanine. These results emphasize the importance of cellular proliferation and dNA metabolism by both phosphorylation and dephosphorylation for susceptibility to dNAs. It underscores the need to understand the mechanisms of action and resistance to dNAs in order to increase efficacy of dNAs treatment by new rational.     

Stimulation with autologous lymphoblastoid cell lines: lysis of Epstein-Barr virus-positive and -negative cell lines by two phenotypically distinguishable effector cell populations

Human lymphocytes, stimulated in vitro for 6 days with x-irradiated or glutaraldehyde-treated autologous Epstein-Barr (EB) virus-transformed lymphoblastoid cell lines (LCL), are cytotoxic for autologous and allogeneic EB+ LCLs as well as for several EB- cell lines that are also susceptible to lysis by interferon-activated natural killer (NK) cells. To determine whether the apparent nonspecific lysis mediated by LCL-stimulated cells is due to a mixture of effector cells directed against different target cells, advantage was taken of our recent finding that monoclonal antibody OKT8 reacts with human cytotoxic T lymphocytes but not with NK cells or NK-like cells generated in mixed leukocyte cultures. The depletion of OKT8+ cells from LCL-stimulated cultures by treatment with OKT8 and complement abolished or markedly depleted cytotoxicity against all EB+ target cells tested, whereas cytotoxicity against EB-, NK-sensitive cell lines including K562, MOLT-4 and HSB-2 was not or only minimally reduced. These results indicate that stimulation with autologous LCL results in the generation of OKT8+ cytotoxic T lymphocytes that lyse EB virus-transformed LCL and OKT8- NK-like cells that lyse EB-, NK-sensitive cells.     

Long-term killing of natural killer-resistant target cells by interferon-alpha-, interferon-gamma-, and interleukin-2-activated natural killer cells

The sensitivity of target cells to natural killer (NK) cell-mediated cytotoxicity was investigated. Five target cell lines were examined for susceptibility to killing by activated NK cells in a 4-hour cytotoxicity assay: one of them (K562) was highly sensitive, while the other four were resistant. However, the four NK-resistant target cell lines were fully susceptible to lysis when the assay was extended to 24 h. The cytotoxic cells that killed the NK-resistant target cells in a 24-hour assay were plastic- and nylon wool-nonadherent human peripheral blood mononuclear cells (PBMC) and their cytotoxicity was increased by interferon-alpha, interferon-gamma, and interleukin-2. Further, the cytotoxic activity of PBMC in the long-term assay was associated with large granular lymphocytes purified on a Percoll gradient, that killed the NK-sensitive cell line K562 in a 4-hour assay. All of the above are general criteria to qualify the cytotoxic cells as NK cells. Thus, the NK-resistant phenotype may not reflect absolute immunity to NK-mediated lysis, but it may reflect the different rates at which various target cell lines can be killed.     

Fractionation, morphological and functional characterization of effector cells responsible for human natural killer activity against cell-line targets

Human natural killer cells cytotoxic against cell-line target cells (NK-CLT) were isolated and characterized by utilizing adsorption-elution of the effector cells from the K-562 target cells. The cell associated with the cytotoxicity was a large lymphocyte with pale and characteristically granular cytoplasm. Thus, its morphology was identical with that of the large granular lymphocyte (LGL) previously shown to be the principal cytotoxic NK cell against fetal fibroblasts (NK-FF). The association of LGL with natural killer activity was verified with contact analysis from mixtures of unfractionated effector cells and target cells, which revealed that the number of contact of LGL with K-562 was correlated to the level of the individually expressed intensity of natural cytotoxicity. The ANAE-staining distribution of LGL was intensively positive with granular or diffuse staining pattern. In direct surface marker analysis LGL were E-rosette forming but, in contrast to NK-FF, heterogenous in regard to the Fc receptors. During in vitro incubation after elution from the target cells, the cytotoxic activity of LGL increased several fold. Also, the presence of K-562 among unfractionated effector cells caused an augmentation of cytotoxicity. This phenomenon was not observed as a result of effector cell-fetal fibroblast coculturing. Evidence from fetal fibroblast adsorption-elution and aggregated IgG blocking experiments suggested that the LGL with strong expression of Fc receptors were initially cytotoxic “mature” NK-cells, whereas the LGL with a weak expression of Fc receptors were initially noncytotoxic, but contact with K-562 “augmented” or “recruited” them to nonselective cytotoxicity.     

ddC- and 3TC-bis(SATE) monophosphate prodrugs overcome cellular resistance mechanisms to HIV-1 associated with cytidine kinase deficiency.

A 2',3'-dideoxycytidine (ddC)-resistant T-lymphoid cell line (MOLT-4/8rddC250), in which deoxycytidine kinase (dCK) gene-expression was decreased when compared with parental cells, has been selected. Cytotoxic and antiretroviral activity of ddC and 3TC was significantly lower in MOLT-4/8rddC250-than in parental MOLT-4/8 cells. ddC- and 3TC-bis(SATE)phosphotriesters completely overcame cellular resistance mechanisms and showed comparable both cytotoxic and antiretroviral activity in parental and ddC-resistant cells.     

Coexistence of fusion receptors for human T-cell leukemia virus type-I (HTLV-I) and human immunodeficiency virus type-1 (HIV-1) on MOLT-4 cells.

Human immunodeficiency virus type-1 (HIV-1) and human T-cell leukemia virus type-I (HTLV-I) have a similar tropism for target cell types, especially for CD4+ T cells. In this study, we provide evidence that receptors of these two viruses exist independently on the target cell. We established an HTLV-I-producing CD8+ T cell line (ILT-8M2) with a remarkable cell fusion capacity. When cocultured with MOLT-4 cells, ILT-8M2 cells induced giant syncytia more efficiently than any other tested HTLV-I-producer cell lines. In contrast to other HTLV-I-producers, ILT-8M2 cells were minimally susceptible to cytopathic effects of HIV-1 due to very low expression of CD4, although they were able to be persistently infected by HIV-1. The indicator MOLT-4 cells are known to respond well to HIV-1-induced cell fusion, but they lose this ability if they become persistently infected with HIV-1 because of the reduction of CD4 receptor expression. ILT-8M2 was, however, still capable of inducing syncytia with the MOLT-4 cells persistently infected by HIV-1 (MOLT-4/IIIB). This syncytium formation was dependent on the HTLV-I-envelope, as it was inhibited by HTLV-I-positive human sera or a monoclonal antibody to HTLV-I gp46 but not by monoclonal antibodies to HIV-1 gp120 or CD4. Moreover, ILT-8M2 cells persistently infected by HIV-1 (ILT-8M2/IIIB) induced both HTLV-I- and HIV-1-mediated syncytia with uninfected MOLT-4 cells. These results suggest that HTLV-I induces cell fusion utilizing receptors on the target cells independent of HIV-1-receptors.     

Studies on cytotoxicity generated in human mixed lymphocyte cultures. III. Natural killer-like cytotoxicity mediated by human lymphocytes with receptors for IgM

Stimulation of human peripheral blood lymphocytes with allogeneic cells in mixed lymphocyte culture (MLC) results in increased NK-like cytotoxicity against K562 targets. The effector cells of this cytotoxicity were shown to include both Fcμ+ and Fcμ? cells, as shown by EAμ rosette separation and by combined rosette formation and single-cell analysis. Peak cytotoxic activity of Fcμ+ cells was found after 3 days of MLC stimulation. The Cytotoxicity against KS62 targets mediated by Fcμ+ cells could not be inhibited at all with alloantigen-bearing cells and could only be partially inhibited with another NK-sensitive target (MOLT- 4). This cytotoxicity could be generated from either Fcγ+ or FCγ? cells. These results indicate considerable heterogeneity of NK-like effectors and their precursors.     

SAR studies of brasilicardin A for immunosuppressive and cytotoxic activities

Eleven derivatives (5-13, 15, and 16) of an immunosuppressive and cytotoxic tricyclic terpenoid, brasilicardin A (1), were prepared and assayed for inhibitory effects to the mouse mixed lymphocyte reaction (MLR) and seven human tumor cell lines. The 17N-methyl form (8) of 1 showed the most potent immunosuppressive activity in mouse MLR, while induction of more bulky group for N-17 resulted in significant decrease of the activity. Compound 8 also showed potent cytotoxic activity against DLD-1, Lu-65, A549, K562, and MOLT-4 cells, while the benzyl ester (13) of 1 exhibited potent cytotoxicity against K562, MOLT-4, and jarkat leukemia cell lines. The 17N-acetyl derivative (11) of 1 selectively inhibited the cell growth of DLD-1 cells. The methyl ester (5) of 1 showed potent cytotoxic activity against K562, MOLT-4, and Ball-1 cell lines, the last of which was resistant to 1, 8, and 13.     

Changes in nuclear chromatin related to apoptosis or necrosis induced by the DNA topoisomerase II inhibitor fostriecin in MOLT-4 and HL-60 cells are revealed by altered DNA sensitivity to denaturation.

The antitumor drug fostriecin (phosphotrienin, FST) has been reported to exert its cytostatic and cytotoxic effects via inhibition of DNA topoisomerase II. The sensitivity of human lymphocytic leukemic MOLT-4 and promyelocytic HL-60 leukemic cells to a wide range of FST concentrations was studied by analyzing the cell cycle-specific effects and changes in nuclear chromatin induced by this inhibitor. The latter was evaluated by assaying the sensitivity of DNA in situ to acid-induced denaturation cytofluorimetrically, with the use of the metachromatic fluorochrome acridine orange (AO), which differentially stains double-stranded and denatured DNA. The cytostatic effects were observed soon after addition of FST (at concentrations of 1-30 microM for MOLT-4 cultures and 1-5 microM for HL-60 cultures) as a perturbation of cell progression through S and G2 phases of the cell cycle. Cell progression through the cycle was halted at greater than 30 microM FST in MOLT-4 cultures and at greater than 5 microM in HL-60 cultures; the effect was instantaneous and affected all phases of the cycle, so that no changes in the cell cycle distribution were apparent with increasing length of exposure to the drug. Instead, at these high FST concentrations, immediate cytotoxic effects became evident, manifesting either as cell apoptosis or necrosis. Apoptosis was observed only in the case of HL-60 cells, at FST concentrations of 5-100 microM, and was characterized by markedly increased sensitivity of DNA to denaturation combined with a decrease in overall DNA stainability, either with the DNA-specific dye DAPI or with AO, indicative of the activation of endogenous nucleases. Necrotic cell death was observed at FST concentrations of 1 mM and at greater than 30 microM for HL-60 and MOLT-4 cells, respectively: in both cases the overall DNA stainability, with either DAPI or AO, was unchanged compared to the control, but their DNA was very sensitive to denaturation. Interestingly, DNA in G2 and late S phase MOLT-4 cells, which were undergoing necrotic death, was much more sensitive to denaturation than was DNA in G1 cells of this lineage. The data indicate that chromatin changes induced by DNA topoisomerase II inhibitors in cells that undergo apoptotic or necrotic death can be conveniently monitored by the assay of DNA in situ sensitivity to denaturation.     

Augmentation of generation of human allospecific cytotoxic T lymphocyte by PPD in in vitro sensitization culture

Summary PPD augmented human lymphocyte blastogeneic response to allogeneic lymphocytes in the mixed lymphocyte reaction (MLR) and generation of human cytotoxic lymphocytes against allogeneic human lymphocytes in in vitro sensitization (IVS) culture. The augmenting effect of PPD in the MLR was unequivocally synergistic at its lower concentrations (0.05 and 0.01 g/ml). The augmentation of MLR was observed following addition of a supernatant of culture medium of lymphocytes which had been precultured with PPD for 24 h then washed free of PPD and recultured without PPD for another 24 h. PHA and Con A, in contrast, suppressed both MLR and the generation of alloreative cytotoxic cells. The alloreactive cytotoxic lymphocytes whose generation was augmented by PPD belonged to the SRBC-rosette forming fraction and passed through a nylon-wool column. The NK cell-like activities of the alloreactive cytotoxic lymphocytes were not augmented by PPD. Analysis of the alloreactive cytotoxic lymphocytes whose generation was augmented by PPD by competitive inhibition assay with unlabeled cells indicated that the same allogeneic lymphocytes used as sensitizing cells in IVS culture inhibited the cytotoxicity, while MOLT-4 cells, which are frequently used as target cells for the human NK-cell assay, did not. When lymphocytes with known HLA-A and HLA-B were used in the IVS culture and the cytotoxicity assay, PPD was found to augment the cytotoxicity only against the target lymphocytes that possessed the same HLA as the sensitizing lymphocytes in IVS.     

Cytoagglutination and cytotoxicity of Wheat Germ Agglutinin isolectins against normal lymphocytes and cultured leukemic cell lines--relationship between structure and biological activity

The relationships between degree of lectin-cell binding, cytotoxicity and cytoagglutinating activity of three Wheat Germ Agglutinin isolectins (WGA-1, WGA-2, WGA-3) against normal lymphocytes and cultured leukemic cell lines (Jurkat, MOLT-4, Raji, Daudi, K-562) were studied. All WGA-isolectins interacted in a similar degree with normal lymphocytes, while in the case of leukemic cells, the degree of isolectin-cell binding increased in the order: WGA-1< or =WGA-3相似文献   

DDC- and 3TC-bis(SATE) Monophosphate Prodrugs Overcome Cellular Resistance Mechanisms to HIV-1 Associated with Cytidine Kinase Deficiency

Abstract

A 2,3′-dideoxycytidine (ddC)-resistant T-lymphoid cell line (MOLT-4/8^rddC²⁵⁰), in which deoxycytidine kinase (dCK) gene-expression was decreased when compared with parental cells, has been selected. Cytotoxic and antiretroviral activity of ddC and 3TC was significantly lower in MOLT-4/8^rddC²⁵⁰ than in parental MOLT-4/8 cells. ddC- and 3TC-bis(SATE)phosphotriesters completely overcame cellular resistance mechanisms and showed comparable both cytotoxic and antiretroviral activity in parental and ddC-resistant cells.     

Human natural cell-mediated cytotoxicity against fetal fibroblasts. II. Isolation and target cell specificity of the effector cells.

Human peripheral Wood lymphocytes were depleted of natural killer cells cytotoxic against human fetal fibroblasts by allowing them to attack the fibroblast targets grown on plastic beads followed by gravity sedimentation under conditions in which single cells floated but the attacker cells sedimented with the carrier beads. The attacker cells could be released from the bead-grown targets and shown to be greatly enriched in natural cytotoxic activity. The effector cells depleted by fibroblast adsorption were also depleted of cytotoxic activity against other monolayer targets whereas suspension grown lymphoma and leukemia cells (MOLT-4, RAJI, and K-562) were killed as effectively as by non-depleted effector cells. In competition assays other monolayer cells inhibited the natural cytotoxicity against fetal fibroblasts but the suspension-grown cells were unable to compete. The results suggested that different effector cell populations were probably involved when monolayer vs suspension targets were used in assays for human natural cell-mediated cytotoxicity. The separation was not, however, functionally complete since in competition assays with suspension-grown target cells also monolayer cells were able to compete. Preliminary morphological characterization of the natural killer cells against fetal fibroblasts is also presented.     

Acute cytotoxicity of arabinofuranosyl nucleoside analogs is not dependent on mitochondrial DNA

The nucleoside analogs 9-β-D-arabinofuranosylguanine (araG) and 1-β-d-arabinofuranosylthymine (araT) are substrates of mitochondrial nucleoside kinases and have previously been shown to be predominantly incorporated into mtDNA of cells, but the pharmacological importance of their accumulation in mtDNA is not known. Here, we examined the role of mtDNA in the response to araG, araT and other anti-cancer and anti-viral agents in a MOLT-4 wild-type (wt) T-lymphoblastoid cell line and its petite mutant MOLT-4 ρ⁰ cells (lacking mtDNA). The mRNA levels and activities of deoxyguanosine kinase (dGK), deoxycytidine kinase (dCK), thymidine kinase 1 (TK1) and thymidine kinase 2 (TK2) were determined in the two cell lines. Compared to that in the MOLT-4 wt cells the mRNA level of the constitutively expressed TK2 was higher (p < 0.01) in the ρ⁰ cells, whereas the TK1 mRNA level was lower (p < 0.05). The enzyme activity of the S-phase restricted TK1 was also lower (p < 0.05) in the MOLT-4 ρ⁰ cells, whereas the activities of dGK, dCK and TK2 were similar in MOLT-4 wt and ρ⁰ cell lines. The sensitivities to different cytotoxic nucleoside analogs were determined and compared between the two cell lines. Interestingly, we found that the acute cytotoxicity of araG, araT and other anti-viral and anti-cancer agents is independent of the presence of mtDNA in MOLT-4 T-lymphoblastoid cells.     

The cytotoxicity of mevalonate, lovastatin and carminomycin with respect to MOLT-4 human malignant T-lymphoblasts in vitro]

It was shown in vitro that high concentrations of lovastatin, a competitive inhibitor of hydroxymethyl glutaryl coenzyme A (HMG-CoA) reductase inhibited human malignant cells MOLT-4. The activity of lovastatin in doses of 50-250 microM was dose-dependent. Addition of mevalonate in a concentration of 3 mM to the growth medium completely prevented the cytotoxic effect of 100 microM of lovastatin. At the same time, exogenous mevalonate did not decrease the cytotoxicity of the anthracycline antibiotic carminomycin. Moreover, in a high concentration (7 mM) mevalonate slowly but significantly inhibited the growth of the malignant target cells and the effect was added to the cytotoxic effect of carminomycin low concentrations (0.08 to 0.175 microgram/ml). The results and the literature data suggested that combination of mevalonate, HMG-CoA reductase inhibitors and anthracyclines could be useful in tumor chemotherapy. The suggestion needs further investigation.