Radiation-enhanced murine sarcoma virus genome rescue activity.

Although the doses of X-ray (312-2,500 R) used for irradiation of cells caused impairment of DNA synthesis and cell replication, co-cultivation of X-irradiated MuLV- carrier cells with un-irradiated nonproducer cells of MSV-induced tumour resulted in as much as 20-fold increase in MSV retrieval compared with the un-irradiated control. The enhancement was apparent also as a 3-fold increase in the number of cells producing MSV (infectious centers) in the co-cultivation plate. This suggested that the MSV genome rescue efficiency in terms of MSV per cell, as well as the number of cells producing MSV, increased markedly. By uridine-3H-labeling and focus assay experiments, evidence was presented which suggested that an increase in MSV/MuLV ratio in the culture fluid of co-cultivation plates was obtained when the MuLV-carrier cells were pre-irradiated. By contrast, X-irradiation of the nonproducer cells prior to co-cultivation caused only reductions of MSV genome rescue efficiency. However, use of X-irradiated MuLV-carrier cells for co-cultivation with X-irradiated nonproducer cells restored this efficiency to some extent. The dose-survival curve of the nonproducer cells was not much different from those of the MuLV-carrier cells after X-irradiation. It was suggested that the viability of nonproducer cells was required for replication of MuLV transferred from the carrier cells and for subsequent MSV genome rescue.     

Colchicine-resistance and enhancement of P-glycoprotein activity after co-cultivation of drug-sensitive cells with multidrug resistant variants.

The role of cellular interactions in the resistance of Djungurian hamster cells to colchicine (CH) and in the efficiency of P-glycoprotein function was studied. Mixtures of CH-resistant and CH-sensitive cells as well as control unmixed cells were propagated for 3 days and the sensitivity of the cells to CH was measured by colony forming assay. Identification of individual subpopulations was possible due to genetic marker (6TG-resistance). The data show that the survival of CH-sensitive cells in CH-supplemented medium increased after co-cultivation with CH-resistant counterparts. To measure Pgp activity the fluorescent dye RH123 and FACScan analysis were used. Pgp-mediated RH123 efflux increased after co-cultivation of CH-sensitive and CH-resistant cells.     

Co-cultivation of astroglial enriched cultures from striatum and neuronal containing cultures from substantia nigra

A co-cultivation system was developed with neuron-containing (neuron-specific enolase (NSE) positive) primary cultures from the substantia nigra of 15 to 17-day old embryonic rats which were grown 1 mm apart from astroglial-enriched (glial fibrillary acidic protein (GFAp) positive) primary cultures from the striatum of neonatal rats. The astroglial cells went through a morphological differentiation with extension of processes after co-cultivation with the immunohistochemically-identified neuronal cells. The astroglial-enriched striatum cultures showed a higher active uptake of 3H-L-glutamate after co-cultivation for one week, compared to control cultures from striatum. Vmax (nmol X mg protein-1 X min-1 X was 58.4 +/- 8.3 after co-cultivation and 37.2 +/- 6.3 for control cultures. The glutamine synthetase (GS) activity was slightly increased after co-cultivation. The validity and specificity of the results were ensured. The data suggest that astroglial cells in a primary culture are influenced by co-cultivation with fetal neuron containing cultures resulting in morphological differentiation, and increases in 3H-L-glutamate uptake and GS activity.     

Stimulation of prostaglandin synthesis in cultured rat synovial cells by a factor derived from polymorphonuclear leukocytes

Stimulation of synovial cell prostaglandin production by a factor obtained from casein-induced peritoneal polymorphonuclear (PMN) cells has been investigated. Both the extract and short time cultured medium of rat peritoneal PMN cells stimulate prostaglandin (PG)E2 production as well as collagenase production in the culture of rat synovial cells. PGE2 production by the cells in the presence of the PMN factor is much faster (5 to 24 hr) than collagenase production (24 hr or later, Biomedical Res. 3, 506-516, 1982). This stimulating factor is confirmed to be derived from PMN cells, based on the purification of the cells from peritoneal exudate cells by the Ficoll-Urographin method. Elution profile of the factor on gel filtration has indicated that both PGE2 and collagenase productions by synovial cells are stimulated by the same effluent fractions corresponding to molecular weights of 15,000 - 20,000 daltons and 30,000 - 40,000 daltons. These results suggest that PMN cells are involved in PG production as well as collagenase production in the inflamed tissue by stimulating connective tissue cells such as synovial cells.     

Immunobiological function of normal rabbit synovial cells

The ability of enzyme-dissociated primary cultures of synovial cells (Sy) to present antigen was investigated. Adult rabbits were immunized in foot pads with bovine serum albumin (BSA) in complete Freund's adjuvant (CFA) or with CFA alone. Four to six weeks later draining popliteal lymph node cells (LNC) and synovial cells were obtained. Synovial cells were cultured overnight with or without antigen. About 20% of these synovial cells had Fc receptors and 15% C3 receptors. As a positive control splenic adherent cells (SAC) were similarly treated. Next day, autologous lymph node cells were added to the extensively washed and irradiated synovial cells or splenic adherent cells. Lymphocyte proliferation was measured by [3H]thymidine uptake. Synovial cells as well as splenic adherent cells induced mixed lymphocyte reaction (MLR) and autologous mixed lymphocyte reaction (AMLR) and effectively presented antigen for specific immune response to the priming antigen. Thus, the synovium contains macrophage-like cells that can effectively interact with lymphocytes and participate in the immune phenomena in the joints of patients with rheumatoid arthritis.     

Differential stabilization of cytochrome P-450 isoenzymes in primary cultures of adult rat liver parenchymal cells

Summary Cytochrome P-450 dependent hydroxylation of testosterone was measured in 7-day-old cultures of primary rat liver parenchymal cells. Determinations were carried out in monocultures of parenchymal cells and co-cultures of parenchymal cells with rat liver nonparenchymal epithelial cells, or mouse embryo fibroblasts. In the monoculture system, testosterone metabolism was drastically reduced and hardly measurable after 7 days in culture. In the co-culture systems, individual P-450 isoenzymes were stabilized on different levels. P-450sp and presumablyc were well preserved, P-450a was reduced but clearly measurable, P-450h was totally lost whereas P-450sb ande were not measurable after 7 days (the activities of these isoenzymes however were already low in freshly isolated parenchymal cells). The results were independent of the cell line used for co-cultivation and of the method of parenchymal cell isolation, that is whether collagenase or EDTA was used as the agent for dissociating the cells from the liver. The results showed that the co-cultivation of liver parenchymal cells with other nonparenchymal cells significantly improved the differentiated status of the former. In this cell culture system however, not every parameter was equally well stabilized.     

In vitro selection of cell variants resistant to macrophage and hydrogen peroxide cytotoxic activity in spontaneous transformed cells of the STHE strain]

The new cell variants were selected in vitro from the low-malignant Syrian hamster embryo cells (STHE strain) spontaneously transformed in vitro. Ten cycles of in vitro co-cultivation of the parental STHE cells with the normal Syrian hamsters peritoneal exudate cells (PEC) (resident and LPS-activated PEC) used as a selecting agents (PERr, PECa) were performed. The susceptibilities of thus selected STHE cell variants as well as parental STHE cells to macrophage cytotoxicity and H2O2 dagame were tested with 3H-TdR assays. It has been demonstrated that all five STHE cell variants selected in vitro with PECa, in contrast to the parental STHE cells and three STHE cell variants selected with the use of PECr, were significantly more resistant to H2O2-mediated cytotoxicity. The increased resistance was acquired already after the 1-st cycle of the selection procedure. In contrast, only one STHE cell variant selected with PECr appeared to be semiresistant (demonstrated in 4 out of 6 experiments) to H2O2 damage after 10th cycle of in vitro co-cultivation.     

Degradation of cartilage proteoglycan and collagen by synovial cells. Stimulation by macrophages under activation by phagocytosis, lymphocyte factors, bacterial products or other inflammatory stimuli

When cultured together with dead 35S-labelled cartilage discs or at the surface of [3H]proteoglycan/[14C]collagen-coated plates, synovial cells from either arthritic or normal rabbit joints digested both the proteoglycan and the collagen of the substrates after a lag-period of 1-2 days. These digestions were inversely related to the age (number of subculture passages) of the synovial cells and they could be modulated by serum components that were either inhibitory or stimulatory. They were dependent on a protein synthesis by the cells and were paralleled, in young cultures, by the release of collagenase and of a proteoglycan-degrading neutral proteinase. The co-culture of synovial cells with macrophages or their culture with macrophage-conditioned culture media caused a more rapid and more extensive degradation of collagen and proteoglycan due to the stimulation of the synovial cells by a nondialysable macrophage factor. The production of this synovial cell-activating 'matrix regulatory monokine' by the macrophage was enhanced by several immunological or inflammatory stimuli such as lymphocyte factors, phagocytosis, asbestos fibres, endotoxin, adjuvant muramyl dipeptide or chemotactic formyl-methionyl peptide, as well as by other membrane-active agents (phorbol myristate acetate, concanavalin A). It is presumed that these interactions are of importance in the development of cartilage destruction in rheumatoid and other chronic inflammatory arthritis.     

Mutagenicity studies by co-cultivation of bronchoalveolar cells and blood lymphocytes with V79 Chinese hamster cells

Human bronchoalveolar cells, consisting of approximately 85% pulmonary alveolar macrophages (PAMs), and peripheral blood lymphocytes isolated from healthy volunteers were investigated for their ability to metabolize 7,8-diol of benzo[a]pyrene (B(a)P). The mutagenicity of reactive metabolites was analyzed by employing a co-cultivation system using V79 Chinese hamster cells for the detection of mutations. The metabolic activity of the human cells was compared to PAMs isolated from rabbits. The number of PAMs obtained by bronchoalveolar lavage of smokers was found to be significantly elevated compared with nonsmokers. However, the mean number of induced mutations of the 7,8-diol mediated by PAMs during co-cultivation did not differ significantly between smokers and nonsmokers. The aryl hydrocarbon hydroxylase (AHH) activity of human lymphocytes has been studied by others, but to the best of our knowledge this is the first demonstration that human blood lymphocytes could be successfully used in a co-cultivation assay for the characterization of xenobiotic metabolism in terms of mutations, as illustrated by the linear increase of induced mutations in the V79 cells. Rabbit PAMs were less efficient in mediating mutations as compared to both smokers' and nonsmokers' PAMs or lymphocytes. This can probably be explained by less efficient bioactivation of 7,8-diol in rabbit PAMs, which is supported by the fact that the rabbit PAMs metabolized B(a)P in a different way as compared to human PAMs as revealed by HPLC analysis of ethyl acetate extractable metabolites of 3H-B(a)P. No qualitative or quantitative difference in the patterns of B(a)P metabolism by PAMs isolated from smokers and nonsmokers could be established. In conclusion, human PAMs were found to be more efficient in terms of cell-mediated mutagenicity than human lymphocytes, which are more efficient than rabbit PAMs. The present results differ from previous reports concerning the xenobiotic metabolizing capacity of these cells assessed by other methods. This illustrates the usefulness of the co-cultivation assay, because it measures not only the bioactivating capacity of isolated mammalian cells, but also their detoxifying capacity, the transfer of mutagens to other cells and the ability of their metabolites to cause mutations.     

Rate of sister chromatid exchanges in Bloom syndrome fibroblasts reduced by co-cultivation with normal fibroblasts.

Six strains of Bloom syndrome (BlS) fibroblasts responded to co-cultivation with normal fibroblasts at a 1:2 ratio by a reduced rate of sister chromatid exchanges (SCE's) from a mean of 67.5 (range = 59--78) to 28.4 (range = 21--35). The response was dose-dependent in one strain tested at 1:2, 1:1, and 2:1 ratios. In addition, quadriradial exchange figures and other signs of increased chromosomal instability were not found in BlS cells following co-cultivation with control cells. Control cells did not respond to BlS cells and maintained a normal rate of SCEs. Culture medium conditioned for 48 hrs by normal fibroblasts could also reduce the rate of SCEs in BlS fibroblasts, but less than in co-cultivation. We suggest that the reduced rate of SCEs and the lack of chromosomal instability in BlS cells following co-cultivation represent a corrective effect that is related to the basic defect and not dependent on cell-to-cell contact.     

A critical role for allograft inflammatory factor-1 in the pathogenesis of rheumatoid arthritis

Rheumatoid arthritis (RA) is characterized by massive synovial proliferation, angiogenesis, subintimal infiltration of inflammatory cells and the production of cytokines such as TNF-alpha and IL-6. Allograft inflammatory factor-1 (AIF-1) has been identified in chronic rejection of rat cardiac allografts as well as tissue inflammation in various autoimmune diseases. AIF-1 is thought to play an important role in chronic immune inflammatory processes, especially those involving macrophages. In the current work, we examined the expression of AIF-1 in synovial tissues and measured AIF-1 in synovial fluid (SF) derived from patients with either RA or osteoarthritis (OA). We also examined the proliferation of synovial cells and induction of IL-6 following AIF-1 stimulation. Immunohistochemical staining showed that AIF-1 was strongly expressed in infiltrating mononuclear cells and synovial fibroblasts in RA compared with OA. Western blot analysis and semiquantitative RT-PCR analysis demonstrated that synovial expression of AIF-1 in RA was significantly greater than the expression in OA. AIF-1 induced the proliferation of cultured synovial cells in a dose-dependent manner and increased the IL-6 production of synovial fibroblasts and PBMC. The levels of AIF-1 protein were higher in synovial fluid from patients with RA compared with patients with OA (p < 0.05). Furthermore, the concentration of AIF-1 significantly correlated with the IL-6 concentration (r = 0.618, p < 0.01). These findings suggest that AIF-1 is closely associated with the pathogenesis of RA and is a novel member of the cytokine network involved in the immunological processes underlying RA.     

Agrobacterium-mediated transient GUS gene expression in buffel grass (Cenchrus ciliaris L.)

The study was conducted to standardize a protocol for Agrobacterium-mediated genetic transformation of buffel grass (Cenchrus ciliaris L.). Embryogenic calli, produced from one-year-old mature seeds of buffel grass, were used as target cells for Agrobacterium-mediated transformation. A. tumefaciens strain LBA4404, harbouring pCAMBIA-1301 or pCAMBIA-2301, was used for co-cultivation with embryogenic calli from three genotypes (IG-3108, IG-9757 and IG-97101). Co-culturing of calli with Agrobacterium for 30 minutes, followed by co-cultivation with 0.1 mM acetosyringone for 3 days was found to be optimum for maximum transformation efficiency. Presence of acetosyringone during co-cultivation was found to be necessary for transformation. Transient GUS (beta-glucuronidase) gene expression was used to monitor T-DNA delivery into the target cells. Significant genotypic variations in response to transformation were observed among the tested genotypes. A very high frequency (63.3%) of GUS gene expression was obtained following Agrobacterium-mediated gene transfer into embryogenic calli. The standardized protocol would be useful for Agrobacterium-mediated genetic transformation of buffel grass with genes of agronomic importance.     

Morphologic alterations in cultured human synovial fibroblasts induced by blood mononuclear cells

Effects of peripheral blood mononuclear cells on cultured synovial fibroblasts were studied. When mononuclear cells from normal or rheumatoid blood were incubated on synovial fibroblast cultures, a part of the cells adhered to the fibroblasts. They were mainly T lymphocytes but also some B lymphocytes and monocytes. After a 10-hour incubation, adhered mononuclear cells induced morphologic alterations to synovial fibroblasts: appearance of stellate cells and thinning and branching of fibroblasts. No changes were seen when the cells were incubated in the presence of indomethacin. Cytotoxicity of peripheral blood mononuclear cells from 8 rheumatoid patients was also tested against three rheumatoid and three normal synovial fibroblast strains. Only 2 out of 48 combinations were cytotoxicity. The potentially cytotoxic mononuclear cells were bound equally well to rheumatoid and control synovial fibroblast cultures.     

Detection and induction of CTLs specific for SYT-SSX-derived peptides in HLA-A24(+) patients with synovial sarcoma

To investigate the immunogenic property of peptides derived from the synovial sarcoma-specific SYT-SSX fusion gene, we synthesized four peptides according to the binding motif for HLA-A24. The peptides, SS391 (PYGYDQIMPK) and SS393 (GYDQIMPKK), were derived from the breakpoint of SYT-SSX, and SS449a (AWTHRLRER) and SS449b (AWTHRLRERK) were from the SSX region. These peptides were tested for their reactivity with CTL precursors (CTLps) in 16 synovial sarcoma patients using HLA-A24/SYT-SSX peptide tetramers and also for induction of specific CTLs from four HLA-A24(+) synovial sarcoma patients. Tetramer analysis indicated that the increased CTLp frequency to the SYT-SSX was associated with pulmonary metastasis in synovial sarcoma patients (p < 0.03). CTLs were induced from PBLs of two synovial sarcoma patients using the peptide mixture of SS391 and SS393, which lysed HLA-A24(+) synovial sarcoma cells expressing SYT-SSX as well as the peptide-pulsed target cells in an HLA class I-restricted manner. These findings suggest that aberrantly expressed SYT-SSX gene products have primed SYT-SSX-specific CTLps in vivo and increased their frequency in synovial sarcoma patients. The identification of SYT-SSX peptides may offer an opportunity to design peptide-based immunotherapeutic approaches for HLA-A24(+) patients with synovial sarcoma.     

Production of <Emphasis Type="SmallCaps">l</Emphasis>-lactic acid from a mixture of xylose and glucose by co-cultivation of lactic acid bacteria

The production of optically pure lactic acid in a high yield from xylose or a mixture of xylose and glucose, which is a model hydrolysate of lignocellulose, is described. In a single cultivation, Enterococcus casseliflavus produced 38 g/l of lactic acid with an optical purity of 96% enantiomeric excess (ee) and 6.4 g/l of acetic acid from 50 g/l of xylose when MRS medium was used. When a mixture of 50 g/l of xylose and 100 g/l of glucose was used as the carbon source in a cultivation of E. casseliflavus alone, glucose was converted to lactic acid in the early phase of the cultivation but xylose was hardly consumed. In a co-cultivation where E. casseliflavus and Lactobacillus casei specific for glucose were simultaneously inoculated, little or no lactic acid was produced after the glucose was almost consumed. A co-cultivation with two-stage inoculation (in which E. casseliflavus was added at a cultivation time of 40 h after L. casei cells were inoculated) resulted in complete consumption of 50 g/l of xylose and 100 g/l of glucose. In the co-cultivation, 95 g/l of lactic acid with a high optical purity of 96% ee was obtained at 192 h. Such a co-cultivation using two microorganisms specific for each sugar is considered to be one promising cultivation technique for the efficient production of lactic acid from a sugar mixture derived from lignocellulose.     

Improved protocols for transformation of indica rice mediated by Agrobacterium tumefaciens

A highly efficient gene transfer method mediated by Agrobacterium tumefaciens was developed for Group I indica rice, which had been quite recalcitrant in tissue culture and transformation. Freshly isolated immature embryos from plants grown in a greenhouse were inoculated with A. tumefaciens LBA4404 that harbored super-binary vector pTOK233 or pSB134, which had a hygromycin-resistance gene and a GUS gene in the T-DNA. The efficiency of gene transfer varied with the kinds of gelling agents and the basic compositions of co-cultivation media. The highest activity of GUS after co-cultivation was observed when NB medium solidified with agarose was used. For the subsequent cultures, two types of media (modified NB and CC) were chosen to recover hygromycin-resistant cells efficiently. The transformation protocol thus developed worked very well in all of the varieties tested in this study, and the transformation frequency (number of independent hygromycin-resistant and GUS-positive plants per embryo) reached more than 30% in IR8, IR24, IR26, IR36, IR54, IR64, IR72, Xin Qing Ai 1, Nan Jin 11, and Suewon 258. Most of the transformants (T₀) were normal in morphology and fertile. Stable integration, expression and inheritance of transgenes were demonstrated by molecular and genetic analysis of transformants in the T₀ and T₁ generations. For the recovery of multiple independent transgenic events from a single immature embryo, procedures were developed to section the embryo into as many as 30 pieces after non-selective cultures following co-cultivation. Transformants were then obtained from the pieces cultured on the selective media, and, in the highest case, more than seven independent transgenic plants per original embryo (transformation frequency of 738%) were produced. Thus, the efficiency of transformation was remarkably improved.     

Regulation of natural killer cell activity by macrophages in the rheumatoid joint and peripheral blood

Recently, in another study, we observed that indomethacin, a prostaglandin synthetase inhibitor, significantly increased NK activity in both normal and rheumatoid arthritis (RA) peripheral blood (PB) but not in RA synovial fluid (SF). Because macrophages are a major source of prostaglandins, we examined the effect of macrophage-enriched adherent cells (AC) on NK activity as measured by a 3-hr Cr-release assay with K 562 cells. The removal of AC resulted in increased (p less than 0.01) NK activity in both normal and RA PB. In contrast, the removal of AC from RA SF resulted in a significant decrease (p less than 0.001) of NK activity. By using only nonadherent cells (NAC), NK activity in RA SF and synovial tissue (ST) was significantly reduced when compared to autologous RA PB (p less than 0.001). Enhancement of NK activity of SF NAC by both poly I:C and IL 2 was not dependent on AC. Mixing experiments demonstrated that the addition of synovial AC for 16 hr increased NK activity of synovial NAC to a level similar to that of unseparated mononuclear cells, whereas autologous PB AC suppressed NK activity of PB NAC. PB AC, when added to SF NAC, also increased NK activity. Supernatants from synovial mononuclear cells were stimulatory of synovial NAC NK activity, whereas normal PB mononuclear supernatants were suppressive. These observations document 1) a significant reduction of NAC-mediated NK activity in the rheumatoid joint as compared to PB from the same patient, and 2) that AC modulate NK activity differently in the rheumatoid joint as compared to RA or normal PB.     

Characterization of the natural killer-like lymphocytes in rheumatoid synovial fluid

IgG Fc- cytotoxic cells found in the synovial fluid of patients with rheumatoid arthritis have natural killer (NK)-like characteristics but can kill NK-resistant cell lines as well. The phenotype of these cells was defined by complement-mediated lysis with monoclonal antibodies. The synovial fluid killer cell activity was significantly reduced by treatment with complement and OKT11 and 4F2, but the cytotoxic T cells did not express the NK-related antigens OKM1 and Leu-7, nor the cytotoxic T lymphocyte-specific antigen, OKT8. These results demonstrate that the synovial fluid killer cells resemble the activated T cells generated in an autologous mixed leukocyte reaction or in the treatment of peripheral blood mononuclear cells with interleukin 2, and they are distinct from the conventional NK cells found in blood.