Reversible inhibition by human serum lipoproteins of cell proliferation

Normal human serum or plasma was studied for the presence of inhibitors of cell proliferation by assaying inhibition of incorporation of labeled thymidine into acid-insoluble fraction using human FL cells. Lipoprotein fraction obtained by gel filtration through Sepharose 4B and by KBr density gradient centrifugation was found to play a major part of the inhibitory activity of the serum. It was also shown that the inhibitory activity resides in low-density lipoprotein (LDL). The addition of the lipoprotein fraction to growing FL cells caused an early decrease in the transport of uridine and thymidine across the membrane. This change in the permeability of membrane was followed by the preferential inhibition of DNA synthesis and a reduction in the percentage of mitotic cells in the cell population. The inhibition of the growth was reversible and was observed in various types of cells irrespective of species.     

Modulation of haematopoietic progenitor development by FLT-3 ligand.

The Flt-3 receptor is expressed in primitive haematopoietic cells and its ligand exerts proliferative effects on these cells in vitro in synergy with other cytokines. To increase our knowledge of the functional properties of the human Flt-3 ligand (FL) as relating to in vitro expansion of haematopoietic stem cells, the effects on murine haematopoiesis of FL alone or in combination with other growth factors were studied. Analysis of Flk-2/Flt-3 mRNA expression indicated that Flk-2/Flt-3 was preferentially expressed in primitive haematopoietic cell populations. To examine the expression of the Flk-2/Flt-3 receptor on megakaryocyte progenitors (CFU-Meg), Flk-2/Flt-3 positive and negative CD34(+)populations were separated from human bone marrow and cultured in a plasma clot culture system. CFU-Meg colonies were found in the Flk-2/Flt-3 negative fraction. Myeloid (CFU-GM) derived colonies appeared in the presence of FL alone. Neither FL+IL-3 nor FL+IL-3+IL-6 had any effect on the generation of megakaryocyte colonies (CFU-MK), due to the lack of FL receptor expression on megakaryocyte progenitors. Bone marrow cells remaining after 5-fluorouracil (5-FU) treatment of mice represent a very primitive population of progenitors enriched for reconstituting stem cells. This cell population expressed FL receptors, as revealed by RT-PCR analysis. Addition of FL alone did not enhance the replication of such cells in liquid cultures as compared to controls. However, a significantly greater generation of myeloid progenitors (CFU-GM) in clonogenic assays was observed in the presence of FL+IL-3, FL+GM-CSF or FL+CSF-1. In addition, the effects of FL on in vitro expansion of murine haematopoietic stem cells were studied using lineage-negative (lin(-)) Sca-1 positive (Sca-1(+)) c-kit positive (c-kit(+)) marrow cells from 5-FU treated mice. FL enhanced the survival of primitive murine lin(-)Sca-1(+)c-kit(+)cells. FL and IL-6 were able to significantly expand murine progenitor stem cells in vitro and promote their survival. These studies strongly suggest that FL significantly and selectively enhanced the generation of myeloid progenitors in vitro and increased myeloid progenitor responsiveness to later acting growth factors. In addition, FL synergized with IL-6 to support in vitro expansion of haematopoietic progenitors and promoted the survival of lin(-)Sca-1(+)c-kit(+)cells.     

Mesenchymal Stromal Cells Support the Viability and Differentiation of Follicular Lymphoma-Infiltrating Follicular Helper T-Cells

The biology of follicular lymphoma (FL) is largely dictated by the immune-effector and stromal cells that comprise its tumor microenvironment. FL-infiltrating T-cell populations that are thought to be fundamental to FL biology are follicular helper T-cells (TFH), follicular regulatory T-cells (TFR), a recently described population that regulates TFH activity, and regulatory T-cells (Treg). These T-cell populations have dynamic interactions with mesenchymal stromal cells (MSCs) in the tumor microenvironment. Whereas MSCs have been shown to support FL B-cell and Treg viability, their effects on FL-infiltrating TFH and TFR cells have not been described. Herein we show that MSCs support the viability of FL-infiltrating TFH and TFR, as well as Tregs, in part through an IL-6-dependent mechanism. We further demonstrate that MSCs mediate TFH to TFR conversion by inducing the expression of FoxP3 in TFH cells, demonstrating for the first time that human TFR can be derived from TFH cells. Given that the balance of TFH and TFR populations likely dictate, in part, the biology of this disease, our data support the potential for targeting MSCs as a therapeutic strategy.     

CAIR-1/BAG-3 modulates cell adhesion and migration by downregulating activity of focal adhesion proteins

CAIR-1/BAG-3 is a stress and survival protein that has been shown to bind SH3 domain-containing proteins through its proline-rich (PXXP) domain. Because stress and survival pathways are active during invasion and metastasis, we hypothesized that CAIR-1 is a regulator of signaling pathways that modulate cell adhesion and migration. MDA-435 human breast carcinoma cells were stably transfected with full-length CAIR-1 (FL) or a proline-rich domain deleted mutant (dPXXP). FL cells migrated poorly through collagen IV-coated filters to serum (14% of control, p=0.0004), whereas migration of dPXXP cells was more robust (228%, p=0.00001). Adhesion to collagen IV-coated surfaces was reduced in FL cells and augmented in dPXXP cells (FL 64%, p=0.03; dPXXP 138%, p=0.01). Rhodamine-phalloidin staining highlighted more stress fibers and thicker filopodial protrusions in dPXXP cells. Fewer focal adhesions were also seen in FL cells. A reduction in tyrosine phosphorylation of focal adhesion kinase (FAK) and paxillin occurred in FL cells under these conditions. In contrast, increased FAK and paxillin phosphorylation was documented in dPXXP cells. Differential FAK phosphorylation occurred at the major autophosphorylation site Y(397) and Src phosphorylation site Y(861). Concordant with these findings, there was decreased interaction between FAK and its downstream partners p(130)Cas and Crk observed in FL cells but not in dPXXP cells. These results collectively indicate that CAIR-1 may negatively regulate adhesion, focal adhesion assembly, signaling, and migration via its PXXP domain.     

Efficient Production of Bioactive Recombinant Human Flt3 Ligand in <Emphasis Type="Italic">E. coli</Emphasis>

Flt3 ligand (FL) is an early-acting hematopoietic cytokine that stimulates the proliferation and differentiation of hematopoietic progenitor cells by activating its cognate receptor, Flt3. Recently, FL was shown to potently contribute to the development and expansion of antigen-presenting dendritic cells and CD34⁺ natural killer cell progenitors in vivo. Here, we report a comprehensive method for the production of bioactive recombinant human FL (rhFL) in E. coli, suitable for structural, biophysical and physiological studies. A soluble form of human FL capable of binding to the Ftl3 receptor could be overexpressed in the E. coli strain Rosetta-gami(DE3) as inclusion bodies. We have established protocols for the efficient in vitro refolding and ensuing purification of rhFL to homogeneity (>95%), with yields approaching 5 mg of pure rhFL per liter of culture. The ability of rhFL to adopt a bioactive conformation was confirmed via a cell-proliferation assay and the activation of the Flt3 receptor in the human leukemic cell line, OCI-AML3.     

Improved culture-based isolation of differentiating endothelial progenitor cells from mouse bone marrow mononuclear cells

Numerous endothelial progenitor cell (EPC)-related investigations have been performed in mouse experiments. However, defined characteristics of mouse cultured EPC have not been examined. We focused on fast versus slow adherent cell population in bone marrow mononuclear cells (BMMNCs) in culture and examined their characteristics. After 24 h-culture of BMMNCs, attached (AT) cells and floating (FL) cells were further cultured in endothelial differentiation medium separately. Immunological and molecular analyses exhibited more endothelial-like and less monocyte/macrophage-like characteristics in FL cells compared with AT cells. FL cells formed thick/stable tube and hypoxia or shear stress overload further enhanced these endothelial-like features with increased angiogenic cytokine/growth factor mRNA expressions. Finally, FL cells exhibited therapeutic potential in a mouse myocardial infarction model showing the specific local recruitment to ischemic border zone and tissue preservation. These findings suggest that slow adherent (FL) but not fast attached (AT) BMMNCs in culture are EPC-rich population in mouse.     

Systematic growth studies,cocultivation, and cell hybridization studies of Werner syndrome cultured skin fibroblasts

Summary The growth of 20 independently derived skin fibroblastlike (FL) cell strains from three individuals with Werner syndrome (adult progeria) was compared with the growth of ten FL cell strains from normal individuals. Population growth rates and total replicative life spans of Werner syndrome strains averaged 55% and 27%, respectively, of the growth rates and life spans of non-Werner strains. In the first few passages, four Werner syndrome strains demonstrated population growth rates in the low normal range, but the longest-lived Werner syndrome strain had only 75% of the total replicative potential of the shortest-lived normal strain. Exponential growth rates, cloning efficiencies, and saturation densities of Werner strains were also reduced, whereas cell attachment was normal. Viable cells (identified by dye exclusion) were maintained in post-replicative Werner syndrome and control cultures for periods of at least 10 months; there was no evidence of accelerated post-replicative senescence or cell death of Werner syndrome FL cells. Cocultivation of Werner syndrome and normal strains did not influence population growth rates of either strain. Two proliferating hybrid clones were obtained from fusions of normal and Werner syndrome FL cell strains and these hybrids displayed the reduced growth potential typical of Werner syndrome FL cells. These studies confirm that low growth rate and sharply reduced replicative life span are characteristic of cultured skin FL cells from patients with Werner syndrome, and they suggest that these characteristics are not affected by complementation with non-Werner FL cells.     

Comparative studies of host-cell reactivation, colony forming ability and excision repair after UV irradiation of xeroderma pigmentosum, normal human and some other mammalian cells

Host-cell reactivation, that is, the degree of survival of Herpes simplex virus after UV irradiation, was high in African green monkey BSC-1 cells, intermediate in normal human fibroblasts and human FL cells, and low in both xeroderma pigmentosum (XP) cells and mouse L cells. However, colony-forming ability after UV was high for FL, normal human fibroblasts and L cells, slightly low for BSC-1 cells and extremely low for XP cells. During the 24-h post-UV incubation period, up to about 50% of the thymine-containing dimers in the acid-insoluble DNA fraction disappeared at an almost equal rate for BSC-1, FL and normal human cells but remained unaltered for the XP cells. Alkaline sucrose gradient centrifugation of DNA after UV irradiation revealed only a slight difference between FL and BSC-1 cells in the kinetics of formation of single-strand breaks and their apparent repair. From these and the previously known characters of L cells possessing reduced excision-repair ability, if any, we may conclude that, if the survival of UV-irradiated Herpes simplex virus on a test line of human or other mammalian cells is as low as that on excisionless XP cells, then it is very probable that the test cell line is defective in excision repair. This reasoning leads to the presumptive conclusion that mouse L cells have an enhanced post-replication repair other than excision repair to deal with UV damage responsible for inactivation of colony-forming ability.     

Localization of the glucocorticoid receptor mRNA in cartilage and bone cells of the rat. An in situ hybridization study

The in vivo localization of glucocorticoid receptor (GR) mRNA expression was studied in the cartilage and bone cells of the femur of young adult rats to compare its distribution with that of the GR protein, which had previously been shown histochemically in the same areas. To achieve this, we used a synthetic oligodeoxynucleotide as a probe, in line with the published human GR (hGR) cDNA sequence. The probe was coupled to fluorescein (FL), applying a rapid Fast-Tag TM FL nucleic acid labeling method. Negative controls were achieved by using sense sequences of the hGR oligoprobe, similarly coupled by using the Fast-Tag TM FL labeling kit. Dewaxed sections were treated for in situ hybridization (ISH) histochemistry with the antisense and sense oligoprobes. The ISH reaction product was more intense in the cytoplasm of proliferative and maturative chondrocytes of the growth plate cartilage than in that shown in the hypertrophic ones. In the metaphyseal secondary ossification zone, osteoblasts (OBs) and osteocytes (OCs) were variably labeled, whereas osteoclasts (OCLs) were always intensely stained. The labeling was also visible in some bone marrow cells, in articular chondrocytes, in the cells of tendon-bone junctions, and in the perichondrium and periosteal cells. Our results confirm a cellular co-location of GR protein and mRNA. In agreement with GR immunolocalization, the variability of labeling appeared to be related to the cell cycle, the stage of differentiation and cell-type differences.     

Simple discrimination of sub-cycling cells by propidium iodide flow cytometric assay in Jurkat cell samples with extensive DNA fragmentation

Human leukemia Jurkat T cells were analyzed for apoptosis and cell cycle by flow cytometry, using the Annexin V/propidium iodide (PI) standard assay, and a simple PI staining in Triton X-100/digitonin-enriched PI/RNase buffer, respectively. Cells treated with doxorubicin or menadione displayed a very strong correlation between the apoptotic cell fraction measured by the Annexin V/PI assay, and the weight of a secondary cell population that emerged on the forward scatter (FS)/PI plot, as well as on the side scatter (SS)/PI and FL1/PI plots generated from parallel cell cycle recordings. In both cases, the Pearson correlation coefficients were >0.99. In cell cycle determinations, PI fluorescence was detected on FL3 (620/30 nm), and control samples exhibited the expected linear dependence of FL3 on FL1 (525/40 nm) signals. However, increasing doses of doxorubicin or menadione generated a growing subpopulation of cells displaying a definite right-shift on the FS/FL3, SS/FL3 and FL1/FL3 plots, as well as decreased PI fluorescence, indicative of ongoing fragmentation and loss of nuclear DNA. By gating on these events, the resulting fraction of presumably sub-cycling cells (i.e. cells with cleaved DNA, counting sub-G₀/G₁, sub-S and sub-G₂/M cells altogether) was closely similar to the apoptotic rate assessed by Annexin V/PI labeling. Taken together, these findings suggest a possible way to recognize the entire population of cells undergoing apoptotic DNA cleavage and simultaneously determine the cell cycle distribution of non-apoptotic cells in PI-labeled cell samples with various degrees of DNA fragmentation, using a simple and reproducible multiparametric analysis of flow cytometric recordings.     

BONE FORMATION INDUCED IN MOUSE THIGH BY CULTURED HUMAN CELLS

Cultured FL human amnion cells injected intramuscularly into cortisone-conditioned mice proliferate to form discrete nodules which become surrounded by fibroblasts. Within 12 days, fibroblastic zones differentiate into cartilage which calcifies to form bone. Experiments were conducted to test the hypothesis that FL cells behave as an inductor of bone formation. In the electron microscope, FL cells were readily distinguished from surrounding fibroblasts. Transitional forms between the two cell types were not recognized. Stains for acid mucopolysaccharides emphasized the sharp boundary between metachromatic fibroblastic and cartilaginous zones and nonmetachromatic FL cells. ³⁵S was taken up preferentially by fibroblasts and chondrocytes and then deposited extracellularly in a manner suggesting active secretion of sulfated mucopolysaccharides. FL cells showed negligible ³⁵S utilization and secretion. FL cells, labeled in vitro with thymidine-³H, were injected and followed radioautographically, during bone formation. Nuclear label of injected FL cells did not appear in adjacent fibroblasts in quantities sufficient to indicate origin of the latter from FL cells. The minimal fibroblast nuclear labeling seen may represent reutilization of label from necrotic FL cells. It is suggested that FL cells injected into the mouse thigh induced cartilage and bone formation by host fibroblasts.     

The cell-cycle dependent and the DNA-damaging agent-induced changes of cellular NAD content and their significance

NAD is the substrate of a novel chromatin-associated enzyme-ADP-ribosyl transferase (ADPRT). In this study, the cell-cycle dependent change in cellular NAD content was observed in a line of human amnion FL cells. It was found that the cellular NAD content of FL cells was highest in G1 and lowest in S/G2-G2. 3AB, a potent ADPRT inhibitor, can inhibit the cell cycle dependent change in cellular NAD content and also inhibit DNA synthesis in the S phase and extend the S phase. The results indicate that ADP-ribosylation may be involved in DNA replication and cell cycle progression. It was also found that the DNA-damaging agents, MNNG, MMS and 4NQO could lower cellular NAD content in a dose-dependent way. This DNA-damage-induced NAD lowering could be partially or completely prevented by the ADPRT inhibitors, 3AB or nicotinamide, which were shown to exert no influence on either the cellular NAD content of normal quiescent FL cells or the metabolic blocking agent, 2,4-DNP-induced cellular NAD lowering. The possibility of establishing a simple and specific method to detect DNA-damaging agents by measuring cellular NAD content in the presence or absence of ADPRT inhibitor is explored.     

Signal Transmission through MHC Class II Molecules in a Human B Lymphoid Progenitor Cell Line: Different Signaling Pathways Depending on the Maturational Stages of B Cells

The function of MHC class II HLA-DR molecules expressed on a human B lymphoid progenitor cell line FL8.2.4.4 (abbreviated as FL4.4) was examined. FL4.4 cells expressed HLA-DR molecules and stimulation of the DR molecules by anti-DR mAb or by superantigen TSST-1 induced strong augmentation of homocytic aggregation and protein tyrosine phosphorylation in FL4.4 cells. Induced homocytic aggregation in FL4.4 consists both of LFA-1/ICAM-1-dependent and -independent pathways as revealed by mAb blocking experiments. Metabolic inhibitors, NaN3 and cytochalasin B, blocked the induced homocytic aggregation of FL4.4. Early mature Daudi B cell lines also showed a similar type of homocytic aggregation by stimulation with anti-DR mAb. Daudi cells are more sensitive to protein kinase inhibitors herbimycin A and H7 than FL4.4 cells in their blocking of induced homocytic aggregation, while W7 showed stronger inhibitory effects on FL4.4 cells than on Daudi cells. Western blotting analysis revealed that the stimulation of DR molecules induced protein tyrosine phosphorylation of 100-kDa, 90-kDa, 60-kDa and 55-kDa proteins in FL4.4 cells, while, in Daudi cells 110-kDa, 100-kDa and 80-kDa proteins were phosphorylated. These results suggest that different signaling pathways through class II molecules are employed depending on the maturational stage of B-cell differentiation.     

血小板生成素诱导胎肝CD34^＋造血干／祖细胞增殖分化与周期蛋白表达的关系

为了解胚胎时期巨核细胞增殖分化特有的内在机制,本研究观察了在体外培养体系中,胎肝源CD34+造血干/祖细胞在血小板生成素(thrombopoietin,TPO)作用下增殖分化特征与相关周期蛋白B1、D1和D3表达及细胞内水平变化的关系。结果发现(1)经12d培养后,TPO使胎肝源CD34     

Genotoxic action of fungicide Conan 5FL (hexaconazole) on mammalian cells in vivo and in vitro

The genotoxic effects of fungicide Conan 5FL (containing 50 g/L hexaconazole) in mouse bone-marrow cells and human lymphocytes have been evaluated. Three different concentrations of Conan 5FL (17.50, 35.00 and 70.00 microg/mL for human lymphocytes and 17.50, 35.00 and 70.00 mg/kg for mouse bone marrow cells) were studied. Conan 5FL induced significant increases (except 17.50 mg/kg for mouse bone marrow) in the frequency of chromosomal aberrations (CAs) in both test systems. This fungicide caused structural and numerical abnormalities in both mammalian cells. These are sister chromatid union, chromatid and chromosome breaks, fragments, dicentric and ring chromosomes, and polyploidy. Significant increase was found in induction and in minimum-maximum numbers of sister chromatid exchanges (SCEs) at all treatments compared with the negative control. Conan 5FL did not affect the replication index (RI) in human lymphocyte cultures, however, it significantly decreased the mitotic index (MI) in all treatment concentrations in both test systems. Using of Conan 5FL should be reconsidered due to its possible cytotoxic, clastogenic and mutagenic effects.     

Genotoxic action of fungicide Conan 5FL (Hexaconazole) on mammalian cells in vivo and in vitro

The genotoxic effects of fungicide Conan 5FL (containing 50 g/L hexaconazole) in mouse bone-marrow cells and human lymphocytes have been evaluated. Three different concentrations of Conan 5FL (17.50, 35.0, and 70.0 μg/mL for human lymphocytes and 17.50, 35.0, and 70.0 mg/kg for mouse bone marrow cells) were studied. Conan 5FL induced significant increases (except 17.5 mg/kg for mouse bone marrow) in the frequency of chromosomal aberrations (CAs) in both test systems. This fungicide caused structural and numerical abnormalities in both mammalian cells. These are sister chromatid union, chromatid and chromosome breaks, fragments, dicentric and ring chromosomes, and polyploidy. Significant increase was found in induction and in minimum-maximum numbers of sister chromatid exchanges (SCEs) at all treatments compared with the negative control. Conan 5FL did not affect the replication index (RI) in human lymphocyte cultures, however, it significantly decreased the mitotic index (MI) in all treatment concentrations in both test systems. Using of Conan 5FL should be reconsidered due to its possible cytotoxic, clastogenic and mutagenic effects. The text was submitted by the authors in English.     

Intercellular contacts and the organization of actin filaments in cultured epithelial FL cells are altered by growth on type I collagen and treatment with 12-O-tetradecanoylphorbol-13-acetate through the modulation of interactions between cells and the substratum

We have investigated the effects of various types of collagen and a tumor-promoting phorbol ester on intercellular contacts and the organization of actin in human amnion epithelial FL cells and mouse fibroblast 3T3-A31 cells. Our purpose was to investigate how modulation of interactions between cells and the substratum leads to alterations in intercellular contacts and organization of actin filaments. When cells were cultured on dishes coated with a solution containing type I collagen, but not type IV, changes were induced in the morphology of FL cells and their intercellular contacts. Type I collagen also caused changes in the organization of their actin filaments, although no such effects were observed with 3T3-A31 cells. In contrast, 12-O-tetradecanoylphorbol-13-acetate (TPA) caused morphological changes, dissociation of groups of cells, and reorganization of actin filaments in cultures of FL and 3T3-A31 cells. It also disrupted the sites of adhesion of FL cells to the substratum. Both type I collagen and TPA rapidly induced spreading of FL cells in the absence of serum. However, cis-hydroxyproline, known to inhibit secretion of collagen, did not suppress the TPA-induced dissociation of groups of FL cells. These results suggest that the interactions with type I collagen of epithelial FL cells, but not of fibroblastic 3T3-A31 cells, tend to disorganize cellular morphology, intercellular contacts, and actin filaments in ways similar to, but not directly related to, the effects of TPA.     

Induction of apoptosis by HIV-1-infected monocytic cells

We have previously described a soluble 6000-Da peptide produced by an HIV-1-infected human macrophage cell line, clone 43(HIV), which induces apoptosis in T and B cells. We have identified this factor as the novel cDNA clone FL14676485 that encodes for the human hypothetical protein, FLJ21908. The FL14676485 cDNA clone was isolated from a 43(HIV) lambda ZAP Escherichia coli expression library and screened with a panel of rabbit and mouse anti-apoptotic Abs. We transfected the FL14676485 clone into Bosc cells and non-HIV-1-infected 43 cells. Western blot analysis of lysates from the FL14676485-transfected 43 cells and Bosc cells using anti-proapoptotic factor Abs revealed a protein with a molecular mass of 66 kDa corresponding to the size of the full-length gene product of the FL14676485 clone, while Western blot of the supernatant demonstrated a doublet of 46-kDa and 6000-Da peptide that corresponds to our previously described proapoptotic factor. Primary HIV-1(BaL)-infected monocytes also produce the FLJ21908 protein. Supernatants from these transfected cells induced apoptosis in PBMC, CD4(+), and CD8(+) T and B cells similar to the activity of our previously described proapoptotic factor. PCR analysis of 43 cells and 43(HIV) cells revealed a base pair fragment of 420 bp corresponding to the FL14676485 gene product in 43(HIV) cells, but not in 43 cells. The FLJ21908 protein induces apoptosis through activation of caspase-9 and caspase-3. We have further demonstrated that the FLJ21908 protein has apoptotic activity in the SH-SY5Y neuronal cell line and can be detected in brain and lymph tissue from HIV-1-infected patients who have AIDS dementia. The FLJ21908 protein may contribute to the apoptosis and dementia observed in AIDS patients.     

Characterization of a long-term T-helper-cell line which produces IL-2 and induces immunoglobulin secretion

Six OKT4+ human T-cell lines that require continuing PHA stimulation and TCGF for continuous growth were established. The cells from all six of these T-cell lines became smaller in size and lost the cell surface Ia antigen when they were grown in phytohemagglutinin (PHA)-depleted growth factor. These cells were unable to survive in the absence of PHA even if exogenous factor was present in great abundance. One of the cell lines (FL) was capable of providing helper functions. In the presence of PHA and phorbol myristate acetate, FL cells produced a growth factor, tentatively identified as Interleukin 2 (IL-2) by its ability to promote the proliferation of an IL-2-dependent murine T-cell line. Moreover, when FL cells were cocultured with B cells, pokeweed mitogen-induced immunoglobulin production was enhanced.     

A test using cultured cells with induced mixed-function oxygenase in the unscheduled DNA synthesis assay for detecting promutagens/procarcinogens

The human FL cell line contains very low levels of constitutive AHH activity, but it could be greatly induced by NE, beta-NF and 3-MC, and induced slightly by PB. When two different types of inducer, for example, 3-MC and PB or 3-MC and NE were given in combination, an additive inductive effect was not observed. Both the constitutive and induced AHH in FL cells have characteristics of MFO, namely, NADPH-dependence and CO-sensitivity. The fact that the constitutive and induced AHH in FL cells could be inhibited by a known hydroxylase inhibitor 7,8-BF indicated that the AHH in FL cells belongs to the cytochrome P-448 dependent MFO type. After removal of inducer from the medium, the induced AHH activity remained at a high level for at least 24-36 h. By using AHH-induced FL cells in the UDS assay system for the detection of promutagens/procarcinogens, we found that AFB1 and 3-MC did not induce a UDS reaction in uninduced FL cells, while in beta-NF induced cells, 10(-6)-10(-4) M AFB1 and 10(-7)-10(-6) M 3-MC elicited a very significant UDS reaction, which was concordant with the results obtained in the UDS assay system using HeLa cells or FL cells supplemented with liver microsomes or using primary cultured hepatocytes as indicator cells. B(a)P elicited the UDS reaction at concentrations of 10(-6)-10(-3) M in beta-NF induced cells, whereas 10(-4)-10(-3) M was required in uninduced cells. The results above indicate that this new design is feasible, but further study is needed to assure its accuracy.