Effects of Toxoplasma gondii and Toxocara canis Antigens on WEHI-164 Fibrosarcoma Growth in a Mouse Model

Cancer is the main cause of death in developed countries. However, in underdeveloped countries infections and parasitic diseases are the main causes of death. There are raising scientific evidences indicating that parasitic infections induce antitumor activity against certain types of cancers. In this study, the effects of Toxoplasma gondii and Toxocara canis egg antigens in comparison with Bacillus Calmette Guerin (BCG) (known to have anticancer distinctive) on WEHI-164 fibosarcoma transplanted to BALB/c mice was investigated. Groups of 6 male BALB/c mice injected with T. gondii antigen, BCG, or T. canis egg antigen as case groups and alum alone as control groups. All mice were then challenged with WEHI-164 fibrosarcoma cells. The mice were examined for growth of the solid tumor and the tumor sizes were measured every other day up to 4 wk. The mean tumor area in T. gondii, BCG, or alum alone injected mice in 4 different days of measurements was 25 mm², 23 mm², and 186 mm² respectively. Also the mean tumor area in T. canis injected mice in 4 different days was 25.5 mm² compared to the control group (alum treated) which was 155 mm². T. gondii parasites and T. canis egg antigens induced inhibition of the tumor growth in the fibrosarcoma mouse model. We need further study to clarify the mechanisms of anti-cancer effects.     

The antitumor effects of levamisole in mice are mediated by NC-1.1+ cells

 Murine natural cytotoxicity, which is a major component of the innate immune response in cancer, is mediated by leukocytes that express the NC-1.1 receptor. Mice depleted of natural cytotoxicity by treatment with an anti-NC-l.1 mAb show enhanced growth of certain transplantable tumors, so agents that enhance natural cytotoxicity by NC-1.1⁺ cells have the potential to be effective anticancer therapeutic agents. We have examined the immunomodulatory effect of levamisole on natural cytotoxicity mediated by NC-1.1⁺ cells against the BALB/c WEHI-164 murine fibrosarcoma. Administration of levamisole to BALB/c mice significantly enhanced in vitro splenic natural cytotoxicity against ⁵¹Cr-labeled WEHI-164 tumor cells. The effect was most marked 48 h after levamisole treatment, at a dose of 10 mg/kg body weight. This enhancement of natural cytotoxicity by levamisole could be completely abrogated by pretreatment of mice with an anti-NC-1.1 mAb. Treatment of BALB/c mice with 10 mg/kg levamisole significantly reduced the growth of WEHI-164 and this effect was abrogated by pretreatment of mice with anti-NC-1.1, indicating that the antitumor effect of levamisole was mediated, at least in part, via NC-1.1⁺ cells. Received: 5 June 1997 / Accepted: 31 July 1997     

In vivo induction of necrosis in mice fibrosarcoma via intravenous injection of type B staphylococcal enterotoxin

The bacterial superantigen staphylococcal enterotoxin B (SEB) is a potent inducer of cytotoxic T-cell activity and cytokine production in vivo. We investigated the possibility of the therapeutic application of SEB in patients with fibrosarcoma. The anti-tumor effect of SEB in mice with inoculated fibrosarcoma (WEHI-164) was examined by intravenous (IV) and intratumoral (IT) injection and the sizes of the inoculated tumors, IFN-γ production, and CD4+/CD8+ T cell infiltration were determined. The inoculated tumors were also examined histologically. In the mice in the IV-injected group, a significant reduction (P < 0.02) of tumor size was observed in comparison with mice in the IT-injected and control groups. Furthermore, the mice in the IV-injected group showed significantly higher levels of IFN-γ (P < 0.009) and CD4+/CD8+ T cell infiltration when compared with the other groups (P < 0.02). A significantly higher frequency of necrosis in tumor tissues was also observed in mice in the IV-injected group (P < 0.05). Our present findings suggest that tumor cell death is caused by increased cytotoxic T-cell activity and cytokine levels in response to the IV injection of SEB and that SEB may be a good option for use as a novel therapy in patients with fibrosarcoma. An erratum to this article can be found at     

Tumor necrosis factor-alpha dependent cytotoxicity of human skin mast cells is enhanced by anti-IgE antibodies

Mast cells dispersed from human skin and purified by density-gradient centrifugation were cytotoxic toward the mouse fibrosarcoma cell line WEHI-164. Skin mast cells were not cytotoxic toward the NK cell-sensitive cell line K562. Killing of WEHI-164 occurred over a prolonged (greater than 18 h) period of incubation with mast cells and was effectively inhibited by polyclonal antibodies and mAb against TNF-alpha suggesting that this cytokine plays an important role in mast cell-mediated cytotoxicity. Whereas lysates of rat peritoneal mast cells exhibited cytotoxicity toward WEHI-164, this was not found with lysates of unstimulated skin mast cells suggesting that TNF-alpha is not stored preformed in the latter. Killing of WEHI-164 cells by skin mast cells was enhanced by anti-IgE and there was a significant correlation between histamine release and cytotoxicity after activation with this stimulus. We conclude that human skin mast cells are a potential source of TNF-alpha and suggest that these cells, particularly after activation, might contribute to the synthesis of this multifunctional cytokine in inflammatory sites.     

HSP90及其抑制剂对肿瘤免疫反应的影响

HSP90作为一种热休克蛋白参与调控蛋白质的正确折叠、装配和水解等多种生理过程,其在肿瘤组织中异常表达与活化,与恶性肿瘤的发生发展密切相关,是肿瘤药物研发的重要靶标,目前已有多个HSP90抑制剂进入临床研究。近年来研究发现,HSP90在调控机体固有性免疫和适应性免疫反应中也发挥着重要的作用,包括抗原呈递、T细胞、NK细胞活化和DC(树突状细胞)的成熟,以及肿瘤微环境的免疫抑制等。抑制HSP90导致免疫抑制和免疫激活双重反应,因此,HSP90在机体免疫中作用复杂,有待人们进一步研究。本文主要综述了HSP90及其抑制剂与肿瘤免疫之间的联系,为今后相关研究人员的工作提供参考。     

Association of HSP90 with the heme-regulated eukaryotic initiation factor 2α kinase—A collaboration for regulating protein synthesis

Among the various heat shock proteins (HSPs), members of the HSP70 and HSP90 families have drawn particular attention due to their heat shock-unrelated functions. HSP90, an ubiquitous and abundant member of the HSP90 family has been shown to be associated with a large array of protein factors. These proteins reside in the nucleus as well as in the cytoplasm and are involved in various physiological processes, such as, regulation of chromatin structure, cell cycle, cytoskelelal architecture, protein trafficking and protein synthesis. In this article, we focus our interest on the role of HSP90 in protein synthesis. Recent data obtained from a few laboratories strongly suggest that HSP90 interacts with the heme-regulated eukaryotic initiation factor 2α (elF-2α) kinase, also called the heme-regulated inhibitor, and causes its activation which leads to inhibition of protein synthesis. On the basis of data reported from various laboratories, including our own, we propose a possible model on the mechanism of HSP90-mediated activation of heme-regulated inhibitor and regulation of protein synthesis.     

The effect of vaccination with the lysate of heat-shocked tumor cells on nitric oxide production in BALB/c mice with fibrosarcoma tumor

The aim of this study was to investigate the effect of heat shock protein-70 (HSP-70) on splenocyte proliferation and nitric oxide (NO) production in the BALB/c mice fibrosarcoma tumor model. To do so, HSP-70 was induced in the lysate of heat-shocked tumor cells and WEHI-164 cells (mouse fibrosarcoma cell line) were injected subcutaneously into the right flank of inbred BALB/c mice to establish a tumor model. Three animal bearing tumor groups were applied: the test group; vaccinated with HSP-70 enriched tumor lysate; control group I, vaccinated with tumor lysate only; and control group II, which received PBS. Using immunoblot analysis, an increase of HSP-70 expression was detected in the lysate of heat-shocked cells in comparison with non-heat-shocked cells. The effect of the test lysate on NO production was measured both in vitro and in vivo in the peritoneal macrophages and splenocytes of tumor bearing mice, respectively. The result showed a significant increase in NO production both in vitro by peritoneal macrophages and in vivo after immunization with HSP-70 enriched tumor lysate. In addition, tumor growth was significantly postponed and the proliferation of splenocytes was increased in the test group. Our results indicate that the lysate of heat-shocked tumor cells was more potent than that of non-heat-shocked tumor cells in inducing anti-tumor immunity. Since production of NO by HSP-activated antigen presenting cells (APCs) is likely to affect innate immunity and tumor growth, the probable mechanism of postponing tumor growth would be NO production by innate immune cells. These findings provide a useful therapeutic model for developing novel approaches to cancer treatments.     

Thymic lymphomas mediate non-MHC-restricted, TNF-dependent lysis of the murine sarcoma WEHI-164

Tumor necrosis factor (TNF), lyses a range of sensitive tumor targets and has been shown to be the mediator of natural cytotoxic (NC) activity first described in our laboratory. In this report, we identify two thymic lymphoma cell lines which lyse the prototype NC target WEHI-164 and share characteristics of NC. R1.1E and L5178-27av lyse the WEHI-164 sarcoma in 18-hr 51Cr release assays via a TNF-dependent, non-MHC-restricted (R1.1E) mechanism although they do not constitutively produce TNF. NC- and TNF-resistant variants of WEHI-164 are resistant to lymphoma-mediated lysis. Expression of the ganglioside GD3 by the lymphomas correlates with their relative levels of lysis. Thus, GD3, which is known to have a role in T cell activation may be involved in recognition or triggering for TNF-dependent cell-mediated lysis.     

Functional proteomic analysis reveals that fungal immunomodulatory protein reduced expressions of heat shock proteins correlates to apoptosis in lung cancer cells

BackgroundLing Zhi-8 (LZ-8) and GMI are two fungal immunomodulatory proteins (FIPs) with a similar structure and amino acid sequence and are respectively obtained from the medicinal mushroom Ganoderma lucidum and Ganoderma microsporum. They present the anti-cancer progression and metastasis. We previously demonstrated that LZ-8 reduces the tumor progression in lung cancer LLC1 cell-bearing mouse. However, it is unclear whether these FIPs induce changes in the protein expression profile in cancer cells and the mechanism for such a process is not defined.PurposeThis study determines the changes in the proteomic profile for tumor lesions of LLC1 cell-bearing mouse received with LZ-8 and the potential mechanism for FIPs in anti-lung cancer cells.MethodsThe proteomic profile of tumor lesions was determined using two-dimensional electrophoresis and a LTQ-OrbitrapXL mass spectrometer (LC-MS/MS). The biological processes and the signaling pathway enrichment analysis were performed using Ingenuity Pathway Analysis (IPA). The differentially expressed proteins were verified by Western blot. Cell viability was determined by MTT assay. Cell morphology was characterized using electron microscopy. Migration was detected using the Transwell assay. The apoptotic response was determined using Western blot and flow cytometry.ResultsObtained results showed that 21 proteins in the tumor lesions exhibited differential (2-fold change, p < 0.05) expression between PBS and LZ-8 treatment groups. LZ-8-induced changes in the proteomic profile that may relate to protein degradation pathways. Specifically, three heat shock proteins (HSPs), HSP60, 70 and 90, were significantly downregulated in tumor lesions of LLC1-bearing mouse received with LZ-8. Both LZ-8 and GMI reduced the protein levels for these HSPs in lung cancer cells. Functional studies showed that they inhibited cell migration but effectively induced apoptotic response in LLC1 cells in vitro. In addition, the inhibitors of HSP60 and HSP70 effectively inhibited cell migration and decreased cell viability of LLC1 cells.ConclusionsLZ-8 induced changes in the proteomic profile of tumor lesions which may regulate the HSPs-related cell viability. Moreover, inhibition of HSPs may be related to the anti-lung cancer activity.     

Natural cytotoxic activity in a cloned natural killer cell line is mediated by tumor necrosis factor

The interleukin-2-dependent mouse natural killer (NK) cell line NKB61A2 concomitantly exhibits NK and natural cytotoxic (NC) activities. This was determined by the cells' ability to lyse both the NK-sensitive YAC-1 lymphoma and the NC-sensitive WEHI-164 fibrosarcoma cell lines in a 4- and 18-hour 51Cr release assay, respectively. Cell-free supernatant from NKB61A2 cells grown in culture for 48 h had substantial lytic activity against WEHI-164. The mouse mast cell line PT18-A17 and the rat basophilic leukemia cell line RBL-2H3, which both express NC activity, also produced a soluble factor during culture which lysed WEHI-164 cells. This activity was increased in the basophilic/mast cells by crossbridging the surface IgE receptors. Similar results were obtained by triggering the basophilic NC cells with the calcium ionophore ionomycin and the tumor promoter phorbol-12-myristate-13-acetate (PMA). Such triggering of NKB61A2 cells, however, did not significantly increase their NC activity. Interestingly, both ionomycin and PMA had an inhibitory effect on the NK activity of NKB61A2. Recently it has been found that tumor necrosis factor (TNF) is a major mediator of NC activity. To determine if the soluble factor responsible for the NC activity of the NK clone was related to TNF, a rabbit polyclonal antiserum to mouse TNF was tested against the cell-free culture medium of NKB61A2, PT18-A17, RBL-2H3 and murine recombinant TNF (Mu-rTNF). The lytic activity of the culture medium from all these cells and the Mu-rTNF control was abrogated by this antibody. These data suggest that the murine cell line NKB61A2 has both NK and NC activities and that the NC activity is due to a factor immunologically similar to TNF. In addition, the enhancement of NC activity in the NK cell line is apparently under control by a separate pathway, different from that in the basophilic cells.     

Elasmobranch immune cells as a source of novel tumor cell inhibitors: Implications for public health

Reports that elasmobranchs (sharks, skates, and rays) may havea low incidence of disease have stimulated interest in understandingthe role of their immune system in this apparent resistance.Although research in this area may potentially translate intoapplications for human health, a basic understanding of theelasmobranch immune system components and how they functionis essential. As in higher vertebrates, elasmobranch fishespossess thymus and spleen, but in the absence of bone marrowand lymph nodes, these fish have evolved unique lymphomyeloidtissues, namely epigonal and Leydig organs. As conditions forshort-term culture of elasmobranch immune cells have becomebetter understood, the opportunity to examine functional activityof cytokine-like factors derived from conditioned culture mediumhas resulted in the identification of growth inhibitory activityagainst a variety of tumor cell lines. Specifically, the mediumenriched by short term culture of bonnethead shark (Sphyrnatiburo) epigonal cells (epigonal conditioned medium, ECM) hasbeen shown to inhibit the growth of mammalian tumor cell lines,including fibrosarcoma (WEHI-164), melanoma (A375.S2), B-celllymphoma (Daudi), T-cell leukemia (Jurkat), pancreatic cancer(PANC-1), ovarian cancer (NIH:OVCAR-3), and three breast carcinomacell lines (MCF7, HCC38, Hs578T). Of the cell lines tested,WEHI-164, A375.S2, Daudi, and Jurkat cells were among the mostsensitive to growth inhibitory activity of ECM whereas PANC-1and NIH:OVCAR-3 cells were among the least sensitive. In addition,ECM demonstrated preferential growth inhibition of malignantcells in assays against two different malignant/non-malignantcell line pairs (HCC38/HCC38 BL and Hs 578T/Hs 578Bst). Separationof protein components of ECM using SDS-PAGE resulted in a veryreproducible pattern of three major bands corresponding to molecularsizes of approximately 40–42 kD, 24 kD, and 17 kD. Activityis lost after heating at 75°C for 30 min, and can be diminishedby treatment with proteinase K and protease. Activity is notaffected by treating with trypsin, DNase I or RNase A.     

Inhibition of homologous recombination repair in irradiated tumor cells pretreated with Hsp90 inhibitor 17-allylamino-17-demethoxygeldanamycin

In order to investigate the mechanism of radio-sensitization by an Hsp90 inhibitor 17-allylamino-17-demethoxygeldanamycin (17-AAG), we studied repair of DNA double strand breaks (DSBs) in irradiated human cells pre-treated with 17-AAG. DSBs are thought to be the critical target for radiation-induced cell death. Two human tumor cell lines DU145 and SQ-5 which showed clear radio-sensitization by 17-AAG revealed a significant inhibition of DSB repair, while normal human cells which did not show radio-sensitization by the drug indicated no change in the DSB repair kinetics with 17-AAG. We further demonstrated that BRCA2 was a novel client protein for Hsp90, and 17-AAG caused the degradation of BRCA2 and in turn altered the behavior of Rad51, a critical protein for homologous recombination (HR) pathway of DSB repair. Our data demonstrate for the first time that 17-AAG inhibits the HR repair process and could provide a new therapeutic strategy to selectively result in higher tumor cell killing.     

The HSP90 inhibitor NVP-AUY922 radiosensitizes by abrogation of homologous recombination resulting in mitotic entry with unresolved DNA damage

Background

Heat shock protein 90 (HSP90) is a molecular chaperone responsible for the conformational maintenance of a number of client proteins that play key roles in cell cycle arrest, DNA damage repair and apoptosis following radiation. HSP90 inhibitors exhibit antitumor activity by modulating the stabilisation and activation of HSP90 client proteins. We sought to evaluate NVP-AUY922, the most potent HSP90 inhibitor yet reported, in preclinical radiosensitization studies.

Principal Findings

NVP-AUY922 potently radiosensitized cells in vitro at low nanomolar concentrations with a concurrent depletion of radioresistance-linked client proteins. Radiosensitization by NVP-AUY922 was verified for the first time in vivo in a human head and neck squamous cell carcinoma xenograft model in athymic mice, as measured by delayed tumor growth and increased surrogate end-point survival (p = <0.0001). NVP-AUY922 was shown to ubiquitously inhibit resolution of dsDNA damage repair correlating to delayed Rad51 foci formation in all cell lines tested. Additionally, NVP-AUY922 induced a stalled mitotic phenotype, in a cell line-dependent manner, in HeLa and HN5 cell lines irrespective of radiation exposure. Cell cycle analysis indicated that NVP-AUY922 induced aberrant mitotic entry in all cell lines tested in the presence of radiation-induced DNA damage due to ubiquitous CHK1 depletion, but resultant downstream cell cycle effects were cell line dependent.

Conclusions

These results identify NVP-AUY922 as the most potent HSP90-mediated radiosensitizer yet reported in vitro, and for the first time validate it in a clinically relevant in vivo model. Mechanistic analysis at clinically achievable concentrations demonstrated that radiosensitization is mediated by the combinatorial inhibition of cell growth and survival pathways, ubiquitous delay in Rad51-mediated homologous recombination and CHK1-mediated G₂/M arrest, but that the contribution of cell cycle perturbation to radiosensitization may be cell line specific.     

Fever-Range Hyperthermia vs. Hypothermia Effect on Cancer Cell Viability,Proliferation and HSP90 Expression

Purpose

The current study examines the effect of fever-range hyperthermia and mild hypothermia on human cancer cells focusing on cell viability, proliferation and HSP90 expression.

Materials and Methods

A549 and H1299 lung carcinoma, MCF7 breast adenocarcinoma, U87MG and T98G glioblastoma, DU145 and PC3 prostate carcinoma and MRC5 normal fetal lung fibroblasts cell lines were studied. After 3-day exposure to 34°C, 37°C and 40°C, cell viability was determined. Cell proliferation (ki67 index), apoptosis (Caspase 9) and HSP90 expression was studied by confocal microscopy.

Results

Viability/proliferation experiments demonstrated that MRC5 fibroblasts were extremely sensitive to hyperthermia, while they were the most resistant to hypothermia. T98G and A549 were thermo-tolerant, the remaining being thermo-sensitive to a varying degree. Nonetheless, as a universal effect, hypothermia reduced viability/proliferation in all cell lines. Hyperthermia sharply induced Caspase 9 in the U87MG most thermo-sensitive cell line. In T98G and A549 thermo-tolerant cell lines, the levels of Caspase 9 declined. Moreover, hyperthermia strongly induced the HSP90 levels in T98G, whilst a sharp decrease was recorded in the thermo-sensitive PC3 and U87MG cell lines. Hyperthermia sensitized thermo-sensitive cancer cell lines to cisplatin and temozolomide, whilst its sensitizing effect was diminished in thermo-tolerant cell lines.

Conclusions

The existence of thermo-tolerant and thermo-sensitive cancer cell lines was confirmed, which further encourages research to classify human tumor thermic predilection for patient stratification in clinical trials. Of interest, mild hypothermia had a universal suppressing effect on cancer cell proliferation, further supporting the radio-sensitization hypothesis through reduction of oxygen and metabolic demands.     

Antiviral activities of resveratrol against rotavirus in vitro and in vivo

BackgroundRotavirus (RV) is the primary causative agent for viral gastroenteritis among infants and young children worldwide. Currently, no clinically approved and effective antiviral drug for the treatment of RV infection is available.PurposeWe investigated the potential anti-RV activity of resveratrol and underlying mechanisms by which resveratrol acted against RV.MethodsThe anti-RV activity of resveratrol in vitro was evaluated using plaque reduction assays. The effects of resveratrol on yield of virion progeny, viral polyprotein expression and genomic RNA synthesis were respectively investigated using enzyme-linked immunosorbent assays, western blotting and qRT-PCR assays. Further, we also measured the antiviral effect of resveratrol by evaluation of antigen clearance and assessment of changes in proinflammatory cytokines/chemokines in RV-infected neonatal mouse model.ResultsOur results indicated that 20 μM of resveratrol significantly inhibited RV replication in Caco-2 cell line by suppressing RV RNA synthesis, protein expression, viroplasm plaque formation, progeny virion production, and RV-induced cytopathy independent of the different strains and cell lines of RV that we used. Analysis of the effect of time post-addition of resveratrol indicated that its application inhibited early processes in the RV replication cycle. Further study of the underlying mechanism of anti-RV activity indicated that resveratrol inhibited RV replication by suppressing expression of heat-shock protein 90 (HSP90) mRNA and protein, and that the effect occurred in a dose-dependent manner. Overexpression of HSP90 was found to have attenuated the inhibitory effect of resveratrol on RV replication. Interestingly, the application of resveratrol were found to down-regulate the level of inhibition of RV-mediated MEK1/2 and ERK phosphorylation. Using a RV-infected suckling mice model, we found that application of resveratrol significantly lessened the severity of diarrhea, decreased viral titers, and relieved associated symptoms. Levels of mRNA expression of interleukin-2, interleukin-10, tumor necrosis factor-α, interferon-γ, macrophage inflammatory protein 1, and monocyte chemotactic protein-1 were all found to have been sharply reduced in intestinal tissue from mice which had been treated with resveratrol (10 or 20 mg/kg) after RV infection (p < 0.05).ConclusionThese findings implied that resveratrol exhibits antiviral activity and could be a promising treatment for rotavirus infection.     

小鼠LAK细胞对红系祖细胞及多向造血祖细胞增殖的影响

小鼠脾细胞经重组人白细胞介素-2(rhIL-2)激活后对YAC-1,LP-3和WEHI-164等肿瘤细胞均有很强的杀伤活性。在CFU-E和BFU-E培养体系中,不同浓度LAK细胞与BMC直接加入或预温育4h后再培养,均能加强CFU-E和BFU-E增殖。低浓度LAK细胞(LAK/BMC为0.5)与BMC直接加入或预温育后再加入CFU-mix培养体系中,均能增强CFU-mix增殖,而高浓度LAK细胞和BMC(LAK/BMC=8.0)直接加入培养体系则抑制CFU-mix增殖;若共温育后再培养则非常明显地抑制CFU-mix增殖,CFU-mix仅为对照的17.6％。小鼠LAK细胞对造血祖细胞体外增殖具有调节作用,这种调节可能包括分泌某些细胞因子以及细胞间直接相互作用两种方式。     

Amide-tethered quinoline-resorcinol conjugates as a new class of HSP90 inhibitors suppressing the growth of prostate cancer cells

The study is focused on the design and synthesis of amide tethered quinoline-resorcinol hybrid constructs as a new class of HSP90 inhibitor. In-vitro studies of the synthetic compounds led to the identification of compound 11, which possesses potent cell growth inhibitory effects against HCT116, Hep3B and PC-3 cell lines, exerted through HSP90 inhibition. Compound 11 triggers degradation of HSP90 client proteins along with concomitant induction of HSP70, demonstrates apoptosis inducing ability and causes G2M phase cell cycle arrest in PC-3 cells. Molecular modeling was used to dock compound 11 into the HSP90 active site and key interactions with the amino acid residues of the HSP90 chaperone protein were determined.     

Inhibition of HSP90 in Trypanosoma cruzi induces a stress response but no stage differentiation

The 90-kDa heat shock proteins (HSP90) are important in the regulation of numerous intracellular processes in eukaryotic cells. In particular, HSP90 has been shown to be involved in the control of the cellular differentiation of the protozoan parasite Leishmania donovani. We investigated the role of HSP90 in the related parasite Trypanosoma cruzi by inhibiting its function using geldanamycin (GA). GA induced a dose-dependent increase in heat shock protein levels and a dose-dependent arrest of proliferation. Epimastigotes were arrested in G₁ phase of the cell cycle, but no stage differentiation occurred. Blood form trypomastigotes showed conversion towards spheromastigote-like forms when they were cultivated with GA, but differentiation into epimastigotes was permanently blocked. We conclude that, similar to leishmanial HSP90, functional HSP90 is essential for cell division in T. cruzi and serves as a feedback inhibitor in the cellular stress response. In contrast to L. donovani cells, however, T. cruzi cells treated with GA do not begin to differentiate into relevant life cycle stages.     

Effect of pyridoxine on tumor necrosis factor activitiesin vitro

Clinical trials with tumor necrosis factor (TNF) as an antitumor agent have so far given rather disappointing results. In this study we show that the naturally occuring vitamin B₆ compound, pyridoxine, enhances TNF-induced cytolysis of three subclones of a mouse fibrosarcoma cell line (WEHI 164). The degree of pyridoxine-induced enhancement of TNF cytotoxicity seems to be dependent on the cells sensitivity to TNF, as the enhancement was much more pronounced in the relatively TNF resistant subclone act-R(cl.12)-WEHI 164, than in the very TNF sensitive subclone WEHI 164 clone 13. Furthermore, our study shows that pyridoxine, in contrast to its enhancing effect on TNF-induced cytotoxicity, rather inhibits TNF-induced growth of human FS-4 fibroblasts. Pyridoxine also enhances lymphotoxin (LT)-induced tumor cell killing and inhibits LT-induced fibroblast growth. Pyridoxine is a relatively non-toxic agentin vivo. Our results suggest that a combination of TNF and pyridoxine may be more efficient than TNF alone, in the treatment of cancer patients.