Human macrophage hybrid forming spontaneous giant cells

Thymidine kinase-deficient clones of the human monocyte/macrophage cell line U-937 were established and used for fusion experiments with separated normal human blood monocytes. A hybrid (H 29) was generated during HAT-selection procedure, about 50% of which formed spontaneous giant cells, as shown by morphological, immunocytochemical, and chromosomal analyses. It is concluded that giant cells originate from monocytes and display mitotic activity. Macrophage hybrids are the basic requirement for the elucidation of monocyte/macrophage heterogeneity and immortalization of their functional properties.     

Human monocyte x mouse melanoma fusion hybrids express human gene

Artificial fusion of human monocyte with Cloudman S91 mouse melanoma cells resulted in hybrids that showed increased motility in vitro, enhanced metastatic potential in vivo, and also tended to be super melanotic (Rachkovsky et al., Clin. Exp. Metastasis 16 (1998) 299). However, no gene derived from monocytes has been shown to be expressed in these hybrids until now. Similar observations have also been noted in hybrids originating from mouse macrophage and mouse melanoma cells. Having the advantage of species differences in mouse x human hybrids, we are able, this time, to show by RT-PCR that some genes specific to the human genome are expressed in these hybrids, indicating that not only is the genomic DNA from parental monocytes integrated in the hybrids but also some genes are being expressed. This observation may lead us to find contributory genes from monocyte and/or macrophage that are responsible for modulating the genotypes and hence the phenotypes in the hybrids.     

Establishment and characterization of murine macrophage hybrids

Proteose peptone-induced peritoneal macrophages from CBA/J (H-2k) mice have been fused to a hypoxanthine phosphoribosyltransferase-negative variant of the P388D1 (H-2d) murine macrophage cell line. Six hybrid clones were isolated following HAT selection and further characterized. Five of the six clones express class I antigens of both parental haplotypes by microelisa and by flow cytometric analysis. Class II antigen expression of both haplotypes was apparent following a 72-hr incubation of the hybrids with concanavalin A-stimulated rat spleen cell supernatant. However, I-Ad was expressed in all hybrids to a greater extent than I-Ak. Three clones with the highest level of I-Ak expression, E5, C2, and C4, were capable of antigen presentation to the I-Ak-restricted T-cell line, D10.G4.1. LPS induction of the hybrids resulted in a 2- to 15-fold increase in the amount of IL-1 produced relative to the P388D1 parent. Finally, in distinction to P388D1, all hybrids demonstrated increased Fc-mediated erythrophagocytosis of chromium-labeled antibody-coated erythrocytes. These murine macrophage hybrids appear stable and should serve as useful models in understanding the regulation of macrophage function.     

Expression of macrophage functions in hybrids of a myeloma cell line with inflammatory macrophages: Evidence for negative control mechanisms in the expression of macrophage functions

Mouse inflammatory macrophages from C57BL/6N mice were fused with BALB/c mouse-derived myeloma cells (the CANS series). The hybrids in the early period after cell fusion (8 weeks) showed no macrophage functions (chemotaxis, EA and EAC rosette-forming abilities, phagocytosis or lysozyme production). EA rosette-forming ability was observed when these hybrids were treated with trypsin, whereas other macrophage functions were not. After prolonged culture, the hybrids (12 clones of 13 randomly selected) showed all the macrophage functions along with chromosome loss. Myeloma cell functions ( light chain production) were found in the young hybrids soon after cell fusion but were absent in the aged hybrids. These results indicated that reexpression of macrophage properties, except for EA rosette-forming abilities, takes place after the loss of chromosomes or genes repressing the expression of macrophage functions.     

Isolation of mouse FM3A cell mutants with thermolabile thymidylate synthetase by resistance to aphidicolin

Of 625 aphidicolin-resistant clones selected at 33.5°C from mutagenized mouse FM3A cells, 13 clones could not grow at 39.5°C. Five of these clones, chosen at random, resumed growth at 39.5°C when thymidine was added to the culture medium. In hybrids, conditional thymidine auxotrophy was a recessive trait, but aphidicolin-resistance was either a codominant or recessive one depending on the mutant clone used.Thymidylate synthetase activity in crude extracts of these mutants was completely inactivated by preincubation for 30 min at 42°C, whereas that of the parent cells was not affected by the same treatment. Thus, the temperature-sensitive growth of the mutants described here seems to be due to this heat-sensitive thymidylate synthetase.     

Characterization of pig-mink cell hybrids: assignment of the TK1 and UMPH2 genes to pig chromosome 12

By fusion of thymidine kinase-deficient mink cells with pig leukocytes, a new type of cell hybrid was produced. It was demonstrated that pig chromosomes segregate in pig-mink hybrids and that hybrid cells contain no cytologically visible rearrangements between the chromosomes of parental species, or chromosome fragmentation. With a set of subclones of two primary hybrid clones, the genes for thymidine kinase-1 (TK1) and uridine 5-monophosphate hydrolase-2 (UMPH2) were assigned to pig Chromosome (Chr) 12. A cell line with a single pig Chr 8 on the background of mink chromosomes was established. This clone could serve as a source of DNA for building a chromosome-specific library of pig Chr 8. The data obtained suggest that pig-mink cell hybrids can be used for mapping of pig chromosomes.     

''Attached cell'' antigen 28.3.7 mapping to human chromosome 15 characterises TPA-induced differentiation of the promyelocytic HL-60 cell line to give macrophage/monocyte populations

Human cells growing in vitro attached to the substratum express a cell antigen called 28.3.7 identified by a species-specific monoclonal antibody. This antigen is not expressed on human cells growing in suspension. The antigen has a mol. wt. in reduced SDS-polyacrylamide gel electrophoresis gels of 95 000 and in human-mouse somatic cell hybrids, expression of the antigen is controlled by a gene, MIC7, mapping to human chromosome 15. The antigen functions as a marker for macrophage differentiation. In vitro differentiation of the 28.3.7 antigen-negative human promyelocytic leukaemia line HL-60 induced by phorbol ester, results in the formation of a macrophage/monocyte population and the concomitant expression of the 28.3.7 antigen on this adherent cell population.     

Directed evolution of thymidine kinase for AZT phosphorylation using DNA family shuffling

The thymidine kinase (TK) genes from herpes simplex virus (HSV) types 1 and 2 were recombined in vitro with a technique called DNA family shuffling. A high-throughput robotic screen identified chimeras with an enhanced ability to phosphorylate zidovudine (AZT). Improved clones were combined, reshuffled, and screened on increasingly lower concentrations of AZT. After four rounds of shuffling and screening, two clones were isolated that sensitize Escherichia coli to 32-fold less AZT compared with HSV-1 TK and 16,000-fold less than HSV-2 TK. Both clones are hybrids derived from several crossover events between the two parental genes and carry several additional amino acid substitutions not found in either parent, including active site mutations. Kinetic measurements show that the chimeric enzymes had acquired reduced K(M) for AZT as well as decreased specificity for thymidine. In agreement with the kinetic data, molecular modeling suggests that the active sites of both evolved enzymes better accommodate the azido group of AZT at the expense of thymidine. Despite the overall similarity of the two chimeric enzymes, each contains key contributions from different parents in positions influencing substrate affinity. Such mutants could be useful for anti-HIV gene therapy, and similar directed-evolution approaches could improve other enzyme-prodrug combinations.     

Absence of demonstrable linkage of human genes for enzymes of the purine and pyrimidine salvage pathways in human-mouse somatic cell hybrids

A number of different reduced human-mouse hybrids have been analyzed for the presence of human enzymes of the purine and pyrimidine salvage pathways. Homologous mouse and human enzymes were characterized by isoelectric fractionation or gel electrophoresis, and the species of origin of the enzyme in hybrid clones was determined. Hybrids selected for one of the human enzymes, thymidine kinase, adenine phosphoribosyltransferase, or hypoxanthine phosphoribosyltransferase, were each found to contain the selected enzyme but not the other two. Neither human adenosine kinase nor human deoxycytidine (cytidine) deaminase was present in any of the hybrid clones. A human 5-nucleotidase was present in two hybrid clones containing human hypoxanthine phosphoribosyltransferase, but the genes for the two enzymes are not linked. The genes for the purine and pyrimidine salvage enzymes appear to be dispersed in the human genome.These investigations were aided by a grant from the National Cancer Institute.     

A method to generate microcells from human lymphoblasts for use in microcell mediated chromosome transfer

Summary A method is described to generate microcells from human lymphobalsts for use in microcell-mediated chromosome transfer (MMCT). Micronuclei were induced in cells from a human lymphoblastic cell line by prolonged colcemid treatment, and were separated from these lymphoblasts by: (a) attaching the cells to Concanvalin A coated plastic slides designed for enucleation, and (b) centrifuging the slides in medium containing cytochalasin B. Microcells of less than 3 μm in diameter were fused with thymidine kinase negative mouse fibroblast (LMTK⁻). HAT medium (hypoxanthine, aminopterin and thymidine) was used to select microcell hybrids expressing thymidine kinase activity. Positive clones were isolated and Q-banded for chromosome analysis. Unlike previous methods this procedure permits microcells to be easily generated from lymphoid cells. This methodology of enucleation of microcells may be extended to a variety of other donor cell types which can be micronucleated but which do not adhere tightly to enucleation slides and do not exhibit extrusion subdivision. This feature makes our methodology particularly useful for constructing a library of hybrid clones containing one or a few human chromosomes.     

Phenotypic differentiation patterns of the human monocyte/macrophage system

Summary In the present study phenotypic properties of non-stimulated and stimulated blood monocytes and of their normal macrophage derivatives were studied applying enzyme cytochemistry, isoenzyme analysis of acid esterase (EC 3.1.1.6), and immunohistochemical staining using a panel of newly established monoclonal antibodies specific for the monocyte/macrophage lineage. Certain marker profiles could be established for the various normal subpopulations within the monocyte/macrophage system, which were also observable in epithelioid cells and U-937 cell line considered as reactive and neoplastic differentiation variants of monocytes, respectively. Alveolar macrophages, in contrast to the other analysed monocyte/macrophage populations, showed a highly activated phenotype comparable to lymphokine stimulated blood monocytes and epithelioid cells. The results underline the concept that the adaptation of monocytes/macrophages to their particular microenvironment is of decisive importance for their definitive differentiation.     

Complementation mapping in microcell hybrids: localization of Fpgs and Ak-1 on Mus musculus chromosome 2

The gene encoding folylpolyglutamyl synthetase (FPGS) was assigned to mouse chromosome 2 by complementation mapping. Chinese hamster ovary cells (AuxBl) deficient in FPGS, and consequently auxotrophic for glycine, adenosine, and thymidine (gat-), were employed as recipients in microcell-mediated chromosome transfer experiments. Mouse chromosomes derived from diploid embryo fibroblasts were introduced into hamster AuxBl cells, and gat+ microcell hybrids were selected in medium lacking adenosine and thymidine. Mouse chromosome 2 was the only donor chromosome whose presence correlated with expression of FPGS activity. Furthermore, every gat+ hybrid clone expressed murine AK-1, a marker previously assigned to chromosome 2. Eight of 20 clones analyzed retained deletion chromosomes derived from mouse chromosome 2. These clones were used to localize murine Fpgs and Ak-1 to a region of this chromosome, namely 2 (cen leads to Cl).     

Segregation of the NK-sensitive phenotype in human x mouse somatic cell hybrids reveals separate genetic control of recognition and postrecognition determinants

In an attempt to investigate the nature of tumor cell-derived membrane surface determinants involved in natural killer cell (NK) recognition or postrecognition events, we have constructed human X mouse interspecies somatic cell hybrids. Highly NK-sensitive (NKs) human tumor cells were fused with NK resistant (NKr) mouse fibroblasts (LMTK-) in polyethylene glycol and selected in hypoxanthine/aminopterin/thymidine medium and ouabain. Hybrids generated from NKs erythroleukemia cells (K-562) or NKs retinoblastoma cells (Y-79) with LMTK- displayed an intermediate NK-sensitive phenotype. One Y-79 X LMTK- hybrid (YL-22) retained a high level of susceptibility to NK binding and cytolysis, as determined by 51Cr release and in cold-target inhibition assays. On the other hand, human NKr RAJI cells generated NK-resistant hybrids when fused with LMTK- fibroblasts. Four hybrids (KL-12, YL-2, YL-22, and YL-43) displaying consistent NK sensitivity were subsequently cloned by limiting dilution. Various hybrid clones derived from the KL-12 hybrid (K-562 X LMTK-) demonstrated a range of NK-sensitive phenotypes. However, the uncloned KL-12 and most cloned lines derived from this hybrid competed against 51Cr-labeled K-562 targets as well as unlabeled K-562 parental cells, regardless of their NK-sensitive phenotype. These findings raise the possibility that chromosomal segregation may be affecting a postbinding step in this hybrid system. The NK-sensitive hybrids exhibited a limited number of human chromosomes as assessed by quinacrine banding. Furthermore, human transferrin receptor (TfR) expression, as monitored by flow cytometry using the B3/25 monoclonal antibody, demonstrated no clear correlation with NK sensitivity or competitive ability in either KL or YL hybrid clones, thus arguing against the involvement of the TfR in human NK recognition. These results suggest that the NK-sensitive phenotype in human tumor cells may be regulated by genes encoded by a limited number of human chromosomes.     

Studies on 1-beta-D-arabinofuranosyl cytosine-resistant mutants of Chinese hamster fibroblasts: III. Joint resistance to arabinofuranosyl cytosine and to excess thymidine--a semidominant manifestation of deoxycytidine triphosphate pool expansion.

Variants isolated from mutagenized Chinese hamster fibroblasts by a single cycle of exposure to ara-C distributed into two classes: (1) deoxycytidine (dC) kinase deficient clones with a high level of resistance, this phenotype was recessive in hybrids; and (2) clones exhibiting joint resistance to thymidine (dT) and to "low" ara-C concentration, this phenotype was accounted for by an increased dCTP pool. The incorporation of exogenous dC into macromolecules was markedly altered in these variants. In hybrids, the phenotype of joint resistance to dT and ara-C was semidominant. Through a second selection step, variants cumulating recessive high resistance to ara-C and semidominant dT resistance were recovered. The identification of these two classes of ara-C-resistant variants suggests an interpretation of the known phenotypes of ara-C resistance as manifestations of chromosomal gene mutations. Dominant resistance mutations might contribute to the survival of cancer cells during prolonged ara-C chemotherapy.     

Human mitochondrial thymidine kinase is coded for by a gene on chromosome 16 of the nucleus

The expression of human mitochondrial thymidine kinase (mt TK) was investigated by polyacrylamide electrophoresis in 19 independent human-mouse somatic cell hybrids which allowed all human chromosomes to be analyzed. In 8 hybrid clones the presence of this enzymatic activity could be demonstrated. Human mt TK segregated concordantly with human adenine phosphoribosyltransferase (APRT) and human chromosome 16. Discordant segregation with all other human chromosomes was demonstrated by karyotype and isozyme analyses. These results suggest that human mt TK is coded for by a gene on chromosome 16 of the nucleus. Thus human mt TK is genetically different from human cytosol thymidine kinase which is coded for by a gene on chromosome 17. The appearance of one heteropolymer band after electrophoretic separation of human and murine mt TK supports the notion that both enzymes have dimeric structures.     

Expression of thymidine kinase activity in hybrids between human leukemic cells and a TK-mouse cell line.

A series of actively proliferating clones have been isolated after PEG-induced fusion of a thymidine kinase deficient murine line and white blood cells from two leukemic patients. Their hybrid nature was proved both cytologically and biochemically. All the hybrids tested showed levels of TK activity significantly higher than the TK- mouse parental cell line and comparable to those exhibited by replicating TK+ cells.     

Potential role of monocyte chemoattractant protein 1/JE in monocyte/macrophage-dependent IgA immune complex alveolitis in the rat.

We have examined the role of monocyte chemoattractant protein 1 (MCP 1) in the pathogenesis of monocyte/macrophage-dependent IgA immune complex alveolitis in the rat. Rat MCP 1 was cloned and expressed in order to facilitate analysis of its function in rat models of human disease. A cDNA library was constructed from rat pulmonary artery endothelial cells stimulated with TNF-alpha. The cDNA library was screened with synthetic oligonucleotide probes based on the recently published rat MCP 1 cDNA sequence. Among numerous MCP 1-positive clones, four full length (approximately 480 bp) cDNA were rescued, amplified by polymerase chain reaction, and ligated into a pJVETLZ baculovirus transfer vector. Spodoptera frugiperda insect cells (Sf-21) infected with baculovirus recombinants (Auto-grapha california nuclear polyhedrosis virus) bearing properly oriented MCP 1 cDNA (AcMCP 1) directed the expression of unique peptides of 18, 21, and 23 kDa. Treatment of AcMCP 1-infected Sf-21 cells with tunicamycin resulted in reduced production of the 21- and 23-kDa proteins and an increase in 16- to 18-kDa products, the predicted size range of uncleaved and nonglycosylated rat MCP 1. Denatured and refolded 23-kDa and 21-kDa rat MCP 1 species exhibited dose-dependent monocyte-specific chemotactic activity at concentrations as low as 10(-10) M whereas the 18-kDa species exhibited negligible activity. Antibodies that react with the immunoblot, block rat rMCP 1-directed monocyte chemotaxis, and neutralize monocyte-specific chemotactic activity secreted by TNF-stimulated rat endothelial cells were raised in rabbits immunized with the 23-kDa MCP 1 species. Intravenous administration of anti-MCP 1 antibodies upon initiation of IgA immune complex lung injury resulted in a marked reduction in lung injury as measured by pulmonary vascular permeability, alveolar hemorrhage, and pulmonary monocyte/macrophage recruitment and pulmonary monocyte/macrophage recruitment. These data suggest that MCP 1 may play an important role in the pathogenesis of monocyte/macrophage-dependent IgA immune complex alveolitis in the rat.     

Production of lymphokines affecting tumor cells by T-T hybridomas

T-Cell hybridomas were constructed by fusing BW5147, an AKR lymphoma, with concanavalin A-stimulated murine splenic lymphocytes. The hybrids which were formed were studied for their ability to produce a lymphokine which inhibits tumor cell migration (TMIF) as well as macrophage migration (MIF) using in vitro assays. Clones were identified which affected tumor cell motility without exerting similar effects on murine macrophages, although the opposite effect was not observed. Although noncoordinate production of these factors cannot be unequivocally established, these results demonstrate that clones can be constructed that preferentially secrete TMIF. In these experiments, we also tested the supernatants for another lymphokine effect on tumor cells; namely, the ability to inhibit tumor cell binding to endothelial monolayers. A number of clones were identified that lacked TMIF activity, but could inhibit the tumor cell-endothelial interaction, suggesting the possibility that these effects may be due to separate mediators.