“Differentiation Induction” culture of human leukemic myeloid cells stimulates high production of macrophage differentiation inducing factor

A suitable procedure for the production of human monokines was defined as differentiation-induction culture. Human monocytic leukemia THP-1 cells were well-differentiated from nonfunctional promonocytes into macrophage-like cells by the induction with a combination of mezerein, retinoic acid, and aMycoplasma fermentans extract. The differentiated THP-1 cells secreted a high amount of macrophage differentiation-inducing factor (DIF) activity and concomitantly produced other known monokines, such as tumor necrosis factor- (TNF-), interleukin-1 (IL-1) and interleukin-1 (IL-1), into the medium. These results suggest that other novel human monokines may also be found in the conditioned medium of THP-1 cells induced by the differentiation-induction culture conditions defined in this study. Macrophage DIF was purified to homogeneity and NH₂-terminal amino acid sequence analysis revealed that macrophage DIF is very similar or identical to human leukemia inhibitory factor (LIF). The cDNA encoding human LIF was isolated using the polymerase chain reaction, and a clone producing 3.7 g/10⁶ cells day recombinant LIF was selected from Chinese hamster ovary (CHO) cells which were transfected with the LIF cDNA. The recombinant LIF production in CHO cells was quantified using MTT reduction assay with M1 cells.     

The decomposition of soluble collagen by γ-irradiation

1. The effect of gamma-irradiation in the range 1 krad-10 Mrads on freeze-dried acid-soluble collagen was studied. 2. The specific-rotation and reduced-viscosity recoveries after heating and cooling of the irradiated collagen in solution showed a high degree of dependence on irradiation dose, with reduced viscosity showing significantly less recovery than specific rotation on increasing the irradiation dose. 3. The dependence of reduced viscosity on concentration was greatly decreased with increased doses of gamma-irradiation. 4. The melting temperature measured by optical rotation also decreased as the irradiation dose was increased, and at low doses was distinctly biphasic. 5. Physical properties showed that the action of gamma-irradiation up to 10 Mrads occurred in two distinct phases, with the early changes being extremely sensitive to irradiation dose. 6. The action of the gamma-irradiation is discussed in terms of the structure of tropocollagen.     

Parthenocarpy of watermelon cultivars induced by γ-irradiation

We found that diploid seedless watermelon can be produced by pollination with partially functional pollen, which was irradiated with γ-rays at the doses of 600 and 800 Gy. The diploid seedless fruits were almost similar to normal fruits in development from pollination to maturity. The number of empty seeds in the diploid seedless fruits varied among the cultivars used. Seedless watermelon cultivars revealed a significant increase in total sugar and carotenoids (lycopene and gb-carotene) contents. The pollen tubes of the pollen subjected to γ-radiation penetrated normally into the synergid, and sperm cells were discharged. Subsequently, the egg nucleus and sperm nucleus became attached to each other in the egg cell and a globular embryo was formed. However, the embryo failed to differentiate the tissues and degenerated. It is suggested that seedless watermelon fruits induced by γ-rays are characterized by increasing yield and better quality due to higher carotenoid and total sugar contents and fruit weight. In some cultivars, there is a tendency in decreasing the thickness of rind.     

The dissociation of histone from deoxyribonucleohistone by γ-irradiation

1. Experiments were carried out to determine the extent of dissociation of histone from deoxyribonucleohistone as a result of irradiation with γ-rays from ⁶⁰Co. 2. The bulk of the nucleohistone was removed from the irradiated solutions either by sedimentation or by precipitation with dilute sodium chloride solution. The supernatants were then analysed for DNA and histone. 3. The ratios of histone to DNA in these supernatants were less than for the original nucleohistone. This indicated that histone was dissociated by the irradiation, and then aggregated either with itself or with other nucleohistone molecules, and so was removed with the bulk of the nucleohistone during sedimentation or precipitation.     

Human Vγ9Vδ2 T cells specifically recognize and kill acute myeloid leukemic blasts

Vγ9Vδ2 T cells are attractive candidates for antileukemic activity. The analysis of Vγ9Vδ2 T cells in newly diagnosed acute myeloid leukemia (AML) patients revealed that their absolute cell numbers were normal in the blood as well as in the bone marrow but showed a striking imbalance in the differentiation subsets, with preponderance of the effector memory population. This unusual phenotype was restored after removal of leukemic cells in patients, which reached complete remission after chemotherapy, suggesting that leukemic cells might be involved in the alteration of γδ T cell development in AML. Accordingly, coculture between AML cells and Vγ9Vδ2 T cells induced selection of effector cells. In accordance with their effector memory status, in vitro proliferation of Vγ9Vδ2 T cells was reduced compared with normal controls. Nevertheless, Vγ9Vδ2 T cells efficiently killed autologous AML blasts via the perforin/granzyme pathway. The ligands for DNAM-1 were expressed by AML cells. We showed that killing of AML blasts was TCR and DNAM-1 dependent. Using a xenotransplantation murine model, we showed that Vγ9Vδ2 T cells homed to the bone marrow in close proximity of engrafted leukemic cells and enhanced survival. These data demonstrate that Vγ9Vδ2 T cells are endowed with the ability to interact with and eradicate AML blasts both in vitro and in a mouse model. Collectively, our data revealed that Vγ9Vδ2 T cells have a potent antileukemic activity provided that optimal activation is achieved, such as with synthetic TCR agonists. This study enhances the interest of these cells for therapeutic purposes such as AML treatment.     

Activation of PKC-ε counteracts maturation and apoptosis of HL-60 myeloid leukemic cells in response to TNF family members

Protein kinase C (PKC)-ε, a component of the serine/threo-nine PKC family, has been shown to influence the survival and differentiation pathways of normal hematopoietic cells. Here, we have modulated the activity of PKC-ε with specific small molecule activator or inhibitor peptides. PKC-ε inhibitor and activator peptides showed modest effects on HL-60 maturation when added alone, but PKC-ε activator peptide significantly counteracted the pro-maturative activity of tumor necrosis factor (TNF)-α towards the monocytic/macrophagic lineage, as evaluated in terms of CD14 surface expression and morphological analyses. Moreover, while PKC-ε inhibitor peptide showed a reproducible increase of TNF-related apoptosis inducing ligand (TRAIL)-induced apoptosis, PKC-ε activator peptide potently counteracted the pro-apoptotic activity of TRAIL. Taken together, the anti-maturative and anti-apoptotic activities of PKC-ε envision a potentially important proleukemic role of this PKC family member.Key words: acute myeloid leukemia, surface antigens, HL-60 cells, apoptosis, maturation.Activation of all protein kinase C (PKC) family of serine and threonine isoenzymes is associated with binding to the negatively charged phospholipids, phosphatidylserine, while different PKC isozymes have varying sensitivities to Ca²⁺ and lipid-derived second messengers such as diacylglycerol (Gonelli et al., 2009). Upon activation, PKC isozymes translocate from the soluble to the particulate cell fraction, including cell membrane, nucleus and mitochondria (Gonelli et al., 2009). PKC primary sequence can be broadly separated into two domains: the N-terminal regulatory domain and the conserved C-terminal catalytic domain.The regulatory domain of PKC is composed of the C1 and C2 domains that mediate PKC interactions with second messengers, phospholipids, as well as inter and intramolecular protein-protein interactions. Differences in the order and number of copies of signaling domains, as well as sequence differences that affect binding affinities, result in the distinct activity of each PKC isozyme (Gonelli et al., 2009).In recent years, a series of peptides derived from PKC have been shown to modulate its activity by interfering with critical protein-protein interactions within PKC and between PKC and PKC-binding proteins (Brandman et al., 2007, Souroujon and Mochly-Rosen, 1998). Focusing on PKC-ε isozyme and using a rational approach, one C2-derived peptide that acts as an isozyme-selective activator (Dorn et al., 1999) and another that acts as a selective inhibitor (Johnson et al., 1996) of PKC-ε, have been identified.These findings are particularly interesting since besides being involved in the physiology of normal cardiac (Braun and Mochly-Rosen, 2003, Johnson et al., 1996, Li et al., 2006), hematopoietic (Gobbi et al., 2009, Mirandola et al., 2006, Racke et al., 2001), and neuronal (Borgatti et al., 1996) cell models, mounting experimental evidences have linked altered PKC-ε functions to solid tumor development (Okhrimenko et al., 2005, Gillespie et al., 2005, Lu et al., 2006). Therefore, taking advantage of the recent availability of small molecule peptides able to activate or inhibit specifically PKC-ε by disrupting protein/protein interactions (Dorn et al., 1999, Johnson et al., 1996), which open important therapeutic perspectives, we have investigated the effects of both PKC-ε activator and PKC-ε inhibitor peptides on the maturation and survival of leukemic cells, using as a model system the HL-60 myeloblastic leukemia cell line, which can be induced to undergo terminal differentiation or apoptotic cell death by a variety of chemical and biological agents (Breitman et al., 1980, Zauli et al., 1996).     

Alleviation of salt stress by low dose γ-irradiation in rice

The effects of salt stress on the growth, photosynthesis, and antioxidative ability of the rice (Oryza sativa L.) plants raising from -irradiated seeds were investigated using two cultivars, Ilpumbyeo and Sanghaehyanghyella. The 50 and 100 mM NaCl solutions caused a remarkable decrease of the early germination rate and seedling growth. However, the salt stress-induced inhibition of the growth was significantly alleviated in the -irradiated plants. The chlorophyll contents and the effective quantum yield of photosystem 2 ( _{PS 2}) were lower in the NaCl-treated plants than in the control ones, while the non-photochemical quenching was higher in the former ones. Activities of the antioxidant enzymes such as superoxide dismutase (SOD) and ascorbate peroxidase (APX) increased with increasing NaCl concentrations, and the irradiated groups had even higher SOD and APX activities than the non-irradiated ones. These alleviation effects were observed similarly in both the cultivars tested.     

Suppression of cytotoxic T lymphocyte activity by γ/δ T cells in tumor-bearing mice

Spleen cells derived from tumor-bearing mice prove useful for the elucidation of the mechanism determining how tumor cells evade cytotoxic T lymphocytes (CTL) in tumor-bearing hosts. Our data indicate that inactive CTL or precursor CTL specific for tumor antigens are present among lymphocytes of tumor-bearing mice. However, their activity is inhibited by a soluble factor produced by other cells present in the same source. Inhibition of the cytolytic reaction was also detected in the culture supernatant of spleen cells obtained from normal mice, precultured in the presence of tumor cell culture supernatant and interleukin-2 (IL-2). Cell-depletion and cell-purification studies let us conclude that cells that produced the CTL-inhibitory factor (CTL-IF) were / T cells. The / T cells that were activated in vivo in tumor bearers were able to produce CTL-IF after isolation and in vitro culture. Maximum activation of / T cells was achieved by antigenic stimulation and by suppression of cells that interfered with the activation of / T cells. CTL-IF, which was assayed by use of CTL clones, did not show antigen specificity. Inhibition depended on a relatively heat- and acidstable, but alkali-labile molecule with a molecular mass of less than 10 kDa. The latter characteristics imply that CTL-IF does not resemble any of the known lymphokines produced by / T cells. These observations emphasize the crucial role of the / T cells in the escape of tumor cells from the attack of tumorspecific CTL.     

Non-equilibrium state of a monomeric insect haemoglobin induced by γ-irradiation and detected by Mössbauer spectroscopy

The met-aquo form of the monomeric insect haemoglobin CTT III has been investigated by Mössbauer spectroscopy before and after reduction with thermolyzed electrons at low temperature. The native met haemoglobin dissolved in water and water/glycerol mixtures, respectively, exhibits in the range of pH 5.8 to 9.0 high-spin iron(III). The electronic state of the haemoglobin is not affected by the solvent conditions. In water/glycerol γ-irradiation at 77 K results in the reduction of the haem iron by thermolyzed electrons. Due to this process, the hexacoordinated high-spin iron(III) is transformed into a hexacoordinated low-spin iron(II). This latter complex is a transition state which changes into the high-spin iron(II) state of the deoxyhaemoglobin when increasing the temperature. Thus, a kinetically stabilized non-equilibrium state of the haemoglobin exists at low temperature which relaxes with increasing temperature and finally reaches the equilibrium state to form deoxyhaemoglobin. This transition occurs at T > 190 K and corresponds with drastic changes in the temperature dependence of the Lamb-Mössbauer factor. Both effects indicate an alteration of the intramolecular flexibility of the haemoglobin.     

Lysis of autologous tumor cells by blood lymphocytes activated in autologous mixed lymphocyte tumor cell culture — No correlation with the postsurgical clinical course

Summary Mixed lymphocyte tumor cell cultures (MLTC) were initiated with cells collected at the time of surgery from 62 patients with the following diagnoses: 12 squamous cell carcinoma, 14 adenocarcinoma of the lung, 17 osteosarcomas, and 16 soft tissue sarcomas. The lytic effect generated against autologous tumor cells was tested on the 7th day. These patients had been part of previous evaluation, which revealed that the lysis of autologous tumor cells by freshly collected lymphocytes correlated with the postsurgical clinical course. Patients with long survival exhibited autotumor lysis without previous activation. Blood lymphocytes of about half of the primarily nonreactive patients were stimulated for lytic function in MLTC. However, this parameter showed no correlation with the clinical course.     

Response to γ-irradiation in V79 cells conditioned by repeated treatment with low doses of hydrogen peroxide

Chinese hamster V79 cells were conditioned by repeated treatment with low doses of hydrogen peroxide. After this treatment, the conditioned cells were compared to parental V79 cells with regard to different endpoints. It was found that, compared to parental cells, the conditioned cells tolerated low serum concentrations better, they suffered from higher levels of aneuploidy, and they showed enhanced antioxidant defense. When exposed to γ-rays, they suffered from lipid peroxidation to a lesser extent, were more resistant to cell killing, exhibited higher mutation frequency at the HGPRT locus, and showed lower frequency of apoptosis. These cells also induced antioxidant enzymes in response to γ-ray exposure that differently was from than the parental cells. Overall, the data suggest a stable adaptive response in the conditioned cells.     

Clinical reagents of GM-CSF and IFN-α induce the generation of functional chronic myeloid leukemia dendritic cells in vitro

Dendritic cells (DCs) have been successfully induced in vitro from chronic myeloid leukemia (CML) cells, which may provide a promising immunotherapeutic protocol for CML. To facilitate the optimization of DCs-based vaccination protocols, we investigated the efficiency of in vitro generation of DCs from bone marrow mononuclear cells of CML patients by clinical reagents of GM-CSF and IFN-α. Bone marrow mononuclear cells were isolated from eight CML patients and CML-DCs were generated in the presence of different cytokines (Group A: GM-CSF for research and IL-4 for research; Group B: GM-CSF for injection and IFN-α for injection) in RMPI-1640 medium containing 10% human AB serum. After 8 days, the morphologic features of CML-DCs were observed and their immunophenotypes were analyzed by flow cytometry. The activity of CML-DCs was determined by evaluating their ability to stimulate allogeneic mixed lymphocyte reaction (allo-MLR) and anti-leukemic cytotoxic T lymphocytes (CTLs). The culture protocols were successful in generating functional CML-DCs from all the CML patients as evidenced by the significant upregulation of CD80, CD86, CD83 HLA-DR and CD1a compared to pre-cultured (p < 0.05), and increased allogeneic T cell stimulating proliferation capacity (p < 0.05). CML-DCs could stimulate a specific anti-leukemia response. In summary, we demonstrate that the combination of clinical reagents GM-CSF and IFN-α induced the generation of DCs that have the ability to stimulate a specific anti-leukemia CTLs response in vitro, indicating their feasibility for clinical vaccination protocols for CML patients.     

Activation of the p53 pathway induces α-smooth muscle actin expression in both myeloid leukemic cells and normal macrophages

A range of cell types of mesenchymal origin express α-smooth muscle actin (α-SMA), a protein that plays a key role in controlling cell motility and differentiation along the fibrocyte and myofibroblast lineages. Although α-SMA is often expressed in stromal cells associated to a variety of cancers including hematological malignancies, up to now the role of anti-cancer drugs on α-SMA has not been deeply investigated. In this study, we demonstrated that Nutlin-3, the small molecule inhibitor of the MDM2/p53 interactions, significantly up-regulated the mRNA and protein levels of α-SMA in normal macrophages as well as in p53(wild-type) but not in p53(mutated/null) myeloid leukemic cells. The p53-dependence of α-SMA up-regulation induced by Nutlin-3 was demonstrated in experiments performed with siRNA for p53. Of note, Nutlin-3 mediated up-regulation of α-SMA in OCI leukemic cells was accompanied by cell adhesion to plastic substrate and by reduced cell migratory response in transwell assays. Notably, the role of α-SMA induction in the modulation of myeloid cell migration was clearly documented in α-SMA gene knockdown experiments. In addition, Nutlin-3 significantly up-regulated α-SMA expression in primary endothelial cells, but not in fibroblasts and mesenchymal stem cells (MSC). Conversely, transforming growth factor-β1 up-regulated α-SMA in fibroblasts and MSC, but not in macrophages and endothelial cells. Taken together, these data indicate that Nutlin-3 is a potent inducer of α-SMA in both normal and leukemic myeloid cells as well as in endothelial cells.     

Induced production of invertase in sugar-beet root by γ-irradiation: Role of RNA

Summary Gamma-irradiation dosages between 100 and 200 krad greatly stimulate the development of invertase activity in sugar-beet tissue. However, exposure of tissue to 800 krad virtually eliminates the production of invertase. The production of the enzyme in control and irradiated tissue requires RNA and protein synthesis. Failure of 5-fluorouracil to inhibit the development of invertase implies that the synthesis of ribosomal RNA is not required for enzyme production. A close correlation between irradiation-stimulated methylation of sRNA and enzyme production is noted. We suggest that the synthesis or modification of some RNA required for the translation of masked invertase RNA is stimulated by -irradiation.This research was supported by a contract (C00-1313-30) from the U.S. Atomic Energy Commission. This is journal paper 4473 of the Purdue University Agriculture Experiment Station.     

The effects of γ-irradiation on the priming by deoxyribonucleohistone of ribonucleic acid polymerase

1. The effect of gamma-irradiation of solutions of DNA and deoxyribonucleohistone (DNH) on their ability to prime the synthesis of RNA by DNA-dependent RNA polymerase has been studied. 2. The priming ability of both DNA and DNH decreased continuously with increasing radiation dose, but more rapidly with DNH. 3. These decreases have been compared with decreases in molecular weight and with the breakdown of the specific hydrogen-bonded structure of DNA. 4. It is concluded that a process was occurring during gamma-irradiation of DNH that, although involving a decrease in molecular weight, did not diminish and even enhanced its priming ability. This is consistent with previous physicochemical evidence that gamma-irradiation causes dissociation of histone from DNH.