Showing papers on "Cellular differentiation published in 1982"

Retinoic acid induces embryonal carcinoma cells to differentiate into neurons and glial cells.

Abstract: Murine embryonal carcinoma cells can differentiate into a varied spectrum of cell types. We observed the abundant and precocious development of neuronlike cells when embryonal carcinoma cells of various pluripotent lines were aggregated and cultured in the presence of nontoxic concentrations of retinoic acid. Neuronlike cells were also formed in retinoic acid-treated cultures of the embryonal carcinoma line, P19, which does not differentiate into neurons in the absence of the drug. The neuronal nature of these cells was confirmed by their staining with antiserum directed against neurofilament protein in indirect immunofluorescence experiments. Retinoic acid-treated cultures also contained elevated acetylcholinesterase activity. Glial cells, identified by immunofluorescence analysis of their intermediate filaments, and a population of fibroblastlike cells were also present in retinoic acid-treated cultures of P19 cells. We did not observe embryonal carcinoma, muscle, or epithelial cells in these cultures. Neurons and glial cells appeared in cultures exposed to retinoic acid for as little as 48 h. We found no evidence for retinoic acid toxicity, suggesting that the effect of the drug was to induce the development of neurons and glia rather than to select against cells differentiating along other developmental pathways.

Control of muscle and neuronal differentiation in a cultured embryonal carcinoma cell line

Abstract: Pluripotent murine embryonal carcinoma cells can differentiate in culture into many tissue types similar to those normally found in early embryos and may be useful in investigating some developmental events. Central to our understanding of embryonic development are explanations of cellular determination, that is, the commitment of early embryonic cells to form divergent cell types. Of relevance is recent work with the F9 line of embryonal carcinoma cells which suggests that certain extra-embryonic cell types are specifically formed following treatment of undifferentiated cells with drugs and the manipulation of culture conditions. We report here that the P19 line of embryonic carcinoma cells may provide and analogous system in which drugs can be used to manipulate the formation of tissues which normally comprise the fetus. In the presence of dimethyl sulphoxide (DMSO) aggregates of P19 cells differentiate rapidly to form large amounts of cardiac and skeletal muscle but no neurones or glia. We have previously shown that in the presence of high concentrations of retinoic acid (greater than 5 x 10(-7) M), aggregates of these same cells develop into neuronal and glial tissues but not muscle. Thus, drugs can be used to generate two quite different spectra of embryonic tissue types from the same population of embryonal carcinoma cells.

Long-term culture of B lymphocytes and their precursors from murine bone marrow.

Abstract: Growth of mature B cells and their precursors from mouse bone marrow was maintained in culture for greater than 1 year. Feeder layers of adherent bone marrow cells, established in medium containing fetal calf serum and no exogenous steroids, were used to provide an in vitro environment that supported continuous growth and development of these cells. In such bone marrow cultures, the number of cells bearing membrane immunoglobulin increased gradually for 4 wk and then decreased. Between 10 and 14 wk, some of the cultures gave rise to continuously dividing B-cell populations that contained pre-B cells (producing mu heavy chains only and sensitive to transformation by Abelson murine leukemia virus) as well as mature B cells (synthesizing both light and heavy chains of IgM). Immunoglobulin molecules synthesized by cells in these populations were heterogeneous in two-dimensional gel analysis. This suggests that mature B cells arose via maturation of pre-B cells in the cultures that involved rearrangement and expression of different variable region gene segments.

Differential expression of the amv gene in human hematopoietic cells.

Abstract: Total cellular RNAs from a variety of fresh and culture-derived human hematopoietic neoplastic cell types at various stages of differentiation and human sarcoma, carcinoma, melanoma, and glioblastoma cell lines were enriched for poly(A)- containing sequences, fractionated by gel electrophoresis, and blot hybridized to a cloned DNA probe containing the transforming sequences (v-amv) of avian myeloblastosis virus (AMV), a virus known to cause myeloid leukemias in chickens. Expression of RNA sequences homologous to AMV was detected in all immature myeloid and lymphoid T cells in addition to the single erythroid cell line examined, but not in mature T cells or in B cells, including lymphoblast cell lines derived from patients with Burkitt lymphoma. In addition, induction of the cell line HL60, a promyelocytic leukemia line, to differentiate with dimethyl sulfoxide or retinoic acid resulted in a reduction of the level of expression of the human cellular gene c-amv homologous to v-amv. There was no detectable c-amv mRNA in any of the solid tumor cell lines examined. Thus, expression of the human c-amv gene could be correlated with the stage of differentiation of different hematopoietic cell types determined by morphologic and marker studies. Expression of c-amv could not be correlated with the extent of methylation in HL60 and in HL60 induced to differentiate with dimethyl sulfoxide.

Surface antigens of melanocytes and melanomas. Markers of melanocyte differentiation and melanoma subsets.

Abstract: The surface antigens of melanocytes from newborn and adult skin have been analyzed with monoclonal antibodies detecting cell surface antigens of malignant melanoma. Antigenic markers that distinguish early, intermediate, and mature stages in melanocyte differentiation have been defined. The characteristics of the normal melanocyte precursor have been inferred from the features of melanomas that express early markers of melanocyte differentiation. A rudimentary surface antigen map of cells undergoing melanocyte differentiation and a new classification of melanomas based on the expression of melanocyte differentiation antigens are proposed.

DNA strand breaks and ADP-ribosyl transferase activation during cell differentiation.

Abstract: The nuclear enzyme ADP-ribosyl transferase (ADPRT) catalyses the formation of poly(ADP-ribose)-modified chromatin proteins from NAD+ (refs 1–5) and is entirely dependent on DNA6 containing nicks7–11. Nuclear ADPRT activity is required for efficient DNA excision repair12,13, probably because it regulates DNA ligase activity14. Indirect evidence has suggested that ADPRT activity may also be involved in control of gene expression and cell differentiation15–21. We report here an obligatory involvement of ADPRT activity in the differentiation of muscle cells. Inhibitors of ADPRT activity reversibly inhibit both fusion of myoblasts to form multi-nucleate muscle fibres and the differentiation-specific increase in creatine phos-phokinase (CPK) activity. These two markers of differentiation can also be reversibly inhibited by depriving the cells of nicotinamide and thus lowering their cellular NAD content. Specific gene expression sometimes requires gene rearrangements or DNA transposition; this implies that DNA strand-breaking and rejoining might be involved in gene expression. We also describe the appearance during cytodifferentiation of single-strand DNA breaks which are not due to a general deficiency in DNA repair.

Effect of deoxyguanosine on lymphopoiesis in the developing thymus rudiment in vitro: application in the production of chimeric thymus rudiments.

Abstract: On the basis of reports that deoxyguanosine is selectively toxic for adult T lymphocytes, the usefulness of this compound in the production of lymphocyte-depleted embryonic thymus rudiments in an in vitro organ culture system was investigated. The results showed that a period of exposure to deoxyguanosine causes depletion of the lymphoid cells while the stromal elements continue to survive, with many of the cells showing an epithelial morphology and expression of I region products of the major histocompatibility complex (MHC). When associated with either fetal liver or another thymus fragment as a source of T cell precursors in transfilter experiments, these "empty" thymuses become recolonized, enabling the production of chimeric thymus with stromal and lymphoid cells of different haplotypes. In combination with functional assays, this system offers an entirely in vitro approach to questions relating to the repertoire potential of T cell precursors from different sources and the role of the thymus in tolerance and MHC restriction.

Hematological characterization of congenital osteopetrosis in op/op mouse. Possible mechanism for abnormal macrophage differentiation.

Abstract: Compared with normal littermates, the op/op mice had very few macrophages in the peritoneal cavity and severely reduced numbers of monocytes in the peripheral blood. Moreover, osteopetrotic animals demonstrated an altered distribution of hemopoietic tissue with a 10-fold decrease in the number of marrow cells. Liver hemopoiesis persisted in 4-wk-old mice as evidenced by the presence of hemopoietic stem cells (HSC). Moreover, the concentration of HSC was decreased in marrow and increased in the spleen of op/op mice. In spite of the paucity of cells of monocyte-macrophage lineage in vivo, progenitor cells from hemopoietic tissues of op/op mice formed increased numbers of monocyte-macrophage colonies in vitro in the presence of exogenous colony-stimulating activity (CSA). The source of this critical CSA was a medium conditioned by stromal fibroblastoid colonies formed in vitro by normal marrow cells. Therefore, these data suggest that op/op mice possess normal monocyte-macrophage-osteoclast progenitor cells but these cells are unable to fully differentiate in the op/op mouse microenvironment. In support of this, in cultures of stromal fibroblastoid colonies from op/op marrow or spleen, the concomitant growth of macrophages, normally very dense, was drastically reduced. Moreover, transplantation of op/op spleen cells into lethally irradiated littermate recipients resulted in their hemopoietic reconstitution without signs of macrophage defect. Thus, the op/op splenic cells do not transfer the disease and are capable of normal differentiation in normal in vivo environment. These observations support the hypothesis that the defect in op/op mice is a result of the failure of hemopoietic stromal fibroblastoid cells to release sufficient amounts of CSA necessary for normal differentiation of cells of the monocyte-macrophage lineage.

A monoclonal antibody detaches embryonic skeletal muscle from extracellular matrices.

Abstract: We have described a monoclonal antibody that rounds and detaches chick skeletal myoblasts and myotubes from extracellular substrata. The antibody also inhibits the attachment of myogenic cells to a gelatin-coated substratum but has no detectable effect on myoblast fusion. The cellular response to antibody treatment varies with differentiation and cell type. Young myoblasts and myotubes are rapidly rounded and detached by the antibody. Older myotubes require longer incubation times or higher antibody titers for rounding and detachment. Chick embryo fibroblasts, cardiac cells, and neurons are not similarly rounded and remain attached. Since the antibody also detaches cells from embryonic muscle tissue explants, the cell-substratum interaction perturbed by the antibody appears relevant to the in vivo interaction of myogenic cells with their extracellular matrices. Binding studies using iodinated antibody revealed 2-4 x 10(5) sites per myoblast with an apparent Kd in the range of 2-5 x 10(-9) molar. Embryo fibroblasts bind antibody as well and display approximately twice the number of binding sites per cell. The fluorescence distribution of antigen on myoblasts and myotubes is somewhat punctate and particularly bright along the edge of the myotube. The distribution on fibroblasts was also punctate and was particularly bright along the cell periphery and portions of stress fibers. For both cell types the binding was distinctly different than that reported for collagen, fibronectin, and other extracellular molecules. The antigen, as isolated by antibody affinity chromatography, inhibits antibody-induced rounding. SDS PAGE reveals two unique polypeptides migrating in the region of approximately 120 and 160 kilodaltons (kd). The most straightforward mechanism for the antibody-induced rounding and detachment is the perturbation of a membrane molecule involved in adhesion. The hypothesized transmembrane link between extracellular macromolecules and the cytoskeleton provides an obvious candidate.

De novo methylation, expression, and infectivity of retroviral genomes introduced into embryonal carcinoma cells

Abstract: We have investigated the block to expression of Moloney murine leukemia virus in murine embryonal carcinoma (EC) cells. Infected EC cells were found to contain up to 100 integrated proviral genomes. However, expression of virus as measured by XC plaque and virus-specific RNA synthesis did not occur at significant levels, in contrast to productively infected differentiated cells. Analysis of the DNA in the infected EC cells revealed that the proviral genomes were highly methylated, as shown by their resistance to cleavage by Sma I. Integrated proviral genomes in infected differentiated cells were readily cut by Sma I and thus were not methylated at these sites. Transfection of DNA from infected EC cells to cells permissive for virus expression failed to induce virus expression. The proviral genomes, however, were potentially infectious because they induced XC plaques when the recipient cells for transfection were treated with 5-azacytidine. This drug is believed to interfere with DNA methylation. We conclude that expression of proviral genomes introduced into EC cells is suppressed and that this inactivation can be correlated with the de novo methylation of the viral DNA. De novo methylation activity thus may be a characteristic of early embryonic cells.

Extracellular matrix promotes mammary epithelial growth and differentiation in vitro.

Abstract: The study of growth and differentiation of mammary epithelium has been hampered by the difficulty of maintaining these functions in vitro. We describe a system for the primary culture of rat mammary epithelium on an acellular matrix derived from whole rat mammary glands that maintains growth and differentiation for months. Cultures plated on this complex substratum produce 50 times the alpha-lactalbumin of those on tissue culture dishes and 5 times the alpha-lactalbumin of those on floating collagen gels as determined by radioimmunoassay. Unlike cultures grown on floating collagen gels, which rapidly lose the ability to secrete the milk sugar lactose, mammary cells on this matrix retain this ability for over 30 days in culture. The organ specificity of this mammary extracellular material is shown by the failure of extracellular matrix prepared from rat liver to support mammary differentiation. Within a given culture dish, cells on the surface of mammary extracellular matrix are more differentiated than those on the adjacent plastic. This is demonstrated by their increased alpha-lactalbumin content as shown by indirect immunofluorescence, and by their increased ability to bind fluorescein-conjugated peanut lectin. Cells on the surface of the matrix continue to synthesize DNA as determined by [3H]thymidine incorporation and autoradiography. Even when mammary epithelial cells are plated at low density, cell division continues until the matrix is covered with a confluent layer. We propose that the limited growth, differentiation, and survival of mammary cells in previously described in vitro systems may have been due to substrate that were inadequate to support these functions.

Physiological characterization of Saccharomyces cerevisiae mutants supersensitive to G1 arrest by a factor and alpha factor pheromones.

Abstract: Saccharomyces cerevisiae MATa cells carrying mutations in either sst1 or sst2 are supersensitive to the G1 arrest induced by alpha factor pheromone. When sst1 mutants were mixed with normal SST+ cells, the entire population recovered together from alpha factor arrest, suggesting that SST+ cells helped sst1 mutants to recover. Complementation tests and linkage analysis showed that sst1 and bar1, a mutation which eliminates the ability of MATa cells to act as a "barrier" to the diffusion of alpha factor, were lesions in the same genes. These findings suggest that sst1 mutants, are defective in recovery from alpha factor arrest because they are unable to degrade the pheromone. In contrast, recovery of sst2 mutants was not potentiated by the presence of SST+ cells in mixing experiments. When either normal MATa cells or mutant cells carrying defects in sst1 or sst2 were exposed to alpha factor for 1 h and then washed free of the pheromone, the sst2 cells subsequently remained arrested in the absence of alpha factor for a much longer time than SST+ or sst1 cells. These observations suggest that the defect in sst2 mutants is intrinsic to the cell and is involved in the mechanism of alpha factor action at some step after the initial interaction of the pheromone with the cell. The presence of an sst2 mutation appears to cause a growth debility, since repeated serial subculture of haploid sst2-1 strains led to the accumulation of faster-growing revertants that were pheromone resistant and were mating defective ("sterile").

Role of DNA breaks and ADP-ribosyl transferase activity in eukaryotic differentiation demonstrated in human lymphocytes

Abstract: ADP–ribosyl transferase (ADPRT) is a DNA-dependent nuclear enzyme which covalently attaches ADP–ribose moieties derived from NAD to proteins to form mono- or poly-ADP–ribosyl derivatives1,2. ADPRT activity is strongly stimulated by breaks in DNA3,4 and the enzyme is required for efficient DNA repair5–7. Several reports have suggested that the metabolism of poly- or mono-(ADP–ribose) might also be involved in differentiation in various eukaryotes1,2,8–12. In the most convincing of these, inhibitors of ADPRT were shown to block the differentiation of chick myoblasts in vitro11,12, and differentiation was accompanied by the appearance of single-strand breaks in DNA. We present here evidence that ADPRT activity is obligatory early in the mitogen-induced activation of human peripheral blood lymphocytes. The requirement for this enzyme coincides with a rapid (1–8 h) rejoining of single-strand breaks present in the DNA of quiescent lymphocytes. Hence, DNA breaking and rejoining, regulated by ADPRT, may be involved in a general mechanism of differentiation.

Interactions of Rhodamine 123 with Living Cells Studied by Flow Cytometry

Abstract: The cationic fluorochrome rhodamine 123 (R123), reported to bind specifically to mitochondria of living cells, was presently investigated with respect to its uptake by a variety of cell types in various functional states and the subsequent effect of the dye on cell growth. The emission spectrum of R123 taken up by cells undergoes a 12-nm red shift, suggesting formation of a complex. Cells accumulate R123 rapidly; near maximum binding is reached after 5 to 10 min, regardless of the temperature (0-37 degrees) of incubation. There is a dose-dependent relationship between R123 concentration in the medium and the dye accumulation in the cell that covers the range of 0.1 to 10.0 and 0.1 to 5.0 microgram of R123 per ml under equilibrium and nonequilibrium conditions, respectively. Some leakage of the dye from cells occurs, following their transfer into dye-free medium. Despite the leakage, the intracellular dye can be detected after at least two cell divisions, thus indicating that: (a) the R123-labeled cells divide; (b) during division, labeled mitochondria are distributed into the daughter cells; and (c) R123 may be used as a cell tracer. Cell death often is accompanied by a transient increase in R123 fluorescence. Dead cells exhibit either uniform, strong fluorescence or show a patchy labeling pattern suggesting swollen mitochondria. With time (4 to 8 hr), dead cells lose ability to retain R123 and lyse. Uptake of R123 by living cells is increased during the transition from quiescence into the cycle, and a decrease is seen when Friend leukemia cells undergo erythroid differentiation; in all cases, changes in R123 uptake are correlated with changes in cellular RNA content. Simultaneous cell staining with R123 and ethidium or propidium provides a rapid assay of the viability of the cells and their metabolic state, i.e., as related to proliferation or motility. Pulse-labeling of cells with up to 10 microgram of R123 per ml has no significant effect on their immediate growth and cloning efficiency. In the continuous presence of R123, however, cells become specifically arrested in the G1A compartment, i.e., in early G1 phase. Detailed analysis of the cell cycle kinetics reveals that cell progression through all phases is slowed 4 hr after addition of R123. Cell exit from G1A, however, is affected as early as 2 hr following addition of R123, and with time the cells are unable to leave this compartment at all. Uncharged rhodamine dyes (rhodamine 110 and rhodamine B) do not accumulate in mitochondria and are without effect on the cell cycle. The cytostatic effect of R123 is discussed in light of the dye specificity for mitochondrial membranes and the disruption of cell energy metabolism, resulting in the inability of the cells to attain a critical content of essential components (i.e., ribosomal RNA), necessary for cell entrance into the prereplicative (G1B) compartment of G1 phase.

Investigation of cell lineage and differentiation in the extraembryonic endoderm of the mouse embryo

Abstract: The technique of injecting genetically labelled cells into blastocysts was used in an attempt to determine whether the parietal and visceral endoderm originate from the same or different cell populations in the early embryo. When the developmental potential of 5th day primitive ectoderm and primitive endoderm cells was compared thus, only the latter were found to colonize the extraembryonic endoderm. Furthermore, single primitive endoderm cells yielded unequivocal colonization of both the parietal and the visceral endoderm in a proportion of chimaeras. However, in the majority of primitive endodermal chimaeras, donor cells were detected in the parietal endoderm only, cases of exclusively visceral colonization being rare. Visceral endoderm cells from 6th and 7th day post-implantation embryos also exhibited a striking tendency to contribute exclusively to the parietal endoderm following blastocyst injection. The above findings lend no support to a recent proposal that parietal and visceral endoderm are derived from different populations of inner cell mass cells. Rather, they suggest that the two extraembryonic endoderm layers originate from a common pool of primitive endoderm cells whose direction of differentiation depends on their interactions with non-endodermal cells.

In vitro differentiation of human monocytes. Differences in monocyte phenotypes induced by cultivation on glass or on collagen.

Abstract: We demonstrated that the in vitro differentiation of human peripheral blood monocytes to macrophages is dependent on the environment and conditions of monocyte culture. Cultivation of monocytes on glass or microexudate-coated glass gave rise to cells resembling foreign body granuloma macrophages. After an initial rise in Fc receptor- and C3 receptor-mediated phagocytosis, a progressive loss of Fc receptor expression and C3-mediated ingestion were observed. The monocyte surface antigens recognized by the anti-human monocyte monoclonal antibodies 1D5 and 63D3 were lost from the surface of the majority of cells cultured on glass and microexudates. A subpopulation of Fc receptor-positive cells that were 1D5 and 63D3 positive was retained in fully differentiated cell populations. In comparison, monocytes cultivated on collagen matrices gave rise to highly phagocytic cells resembling human resident tissue macrophages. Both Fc- and C3-mediated phagocytosis were enhanced and remained so during the entire length of culture. The surface antigens recognized by the 1D5 antibody, expressed on all freshly seeded monocytes, was maintained on the macrophages. The antigen recognized by the 63D3 antibody was not expressed on mature cells. The present evidence would indicate that variations in expression of phagocytic receptors and the surface antigens 1D5 and 63D3 can be ascribed to the stage of development of the macrophage or its stage of activation, rather than to independent subsets of mononuclear phagocytes.

Effects of tocopherol (vitamin E) acid succinate on morphological alterations and growth inhibition in melanoma cells in culture.

Abstract: The effects of various forms of tocopherol (vitamin E) on the growth and differentiation of mouse melanoma (B-16) and mouse fibroblast (L-cells) cells in culture were studied. D-alpha-tocopherol acid succinate induced morphological alterations and growth inhibition in melanoma cells. When vitamin E acid succinate was removed 4 days after treatment, the above changes remained irreversible for a period of 24 hr, after which resistant cells and partially affected cells renewed cell division and eventually reached confluency. The relative efficacy of D and DL forms of vitamin E acid succinate remains to be evaluated. However, other forms of vitamin E such as DL-alpha-tocopherol free alcohol, Aquasol DL-alpha-tocopherol acetate, DL-alpha-tocopherol nicotinate, or sodium succinate with an equivalent volume of ethanol, at similar concentrations, were ineffective. Vitamin E acid succinate at similar concentrations did not induce morphological changes in fibroblasts. Melanoma cells were about 2-fold more sensitive to vitamin E acid succinate than were fibroblasts for the criterion of growth inhibition. Vitamin E acid succinate-induced morphological changes and growth inhibition in melanoma cells were expressed in hormone-supplemented serum-free medium, but the concentration requirement was about 5 times less than that needed in serum-supplemented medium. Although cyclic adenosine 3': 5'-monophosphate-stimulating agents are known to cause growth inhibition and morphological changes in melanoma cells in culture, vitamin E acid succinate-induced morphological alterations in melanoma cells are no mediated by a rise in cellular cyclic adenosine 3':5'-monophosphate. Ethanol was sufficient to increase the melanin content in melanoma cells. These data show that vitamin E acid succinate may be a potentially useful tumor therapeutic agent.

Cell-surface antigens of a clonal human embryonal carcinoma cell line: morphological and antigenic differentiation in culture.

Abstract: A cloned human embryonal carcinoma (EC) cell line has been derived from a testicular teratocarcinoma, and reproducibly forms EC tumors when injected into athymic (nu/nu) mice. These human EC cells are characterized by a newly described stage-specific embryonic antigen, SSEA-3. Unlike murine EC cells, they express major histocompatibility antigens (HLA-A, B, C and beta 2-microglobulin) but do not express the embryonic antigen SSEA-I. We also report that these cells appear to be capable of differentiation and that this can be induced by initiating cultures at low cell density. Differentiation is marked by the appearance of morphologically distinct cells and by the induction of SSEA-I, whereas the expression of other antigens, including SSEA-3, is initially diminished. This well-characterized system of human EC cells provides a model for the future investigation of other human teratocarcinoma cell lines and for the analysis of cellular differentiation during early human development.

Coupling of growth arrest and differentiation at a distinct state in the G1 phase of the cell cycle: GD.

Abstract: The differentiation of most mammalian cells is preceded by growth arrest in the G1 phase of the cell cycle, but the characteristics of this state have not been established. We now report that the growth arrest that precedes the differentiation of BALB/c 3T3 T mouse proadipocytes must occur at a distinct state in G1 designated GD. GD-arrested cells are characterized by their ability to differentiate in the absence of DNA synthesis and by their unique sensitivity to the mitogenic effect of isobutylmethylxanthine. Proadipocytes induced to become G1 growth arrested at other states by culture in medium deficient in growth factor or nutrients, by contrast, are unable to differentiate in the absence of DNA synthesis and are not stimulated to proliferate by isobutylmethylxanthine even when they are exposed to differentiation-promoting medium prior to arrest. These data support the conclusion that, prior to the expression of a differentiated phenotype, proadipocytes must arrest their growth at a distinct state in the G1 phase of the cell cycle, GD. These data also provide the basis for the hypothesis that carcinogenesis is associated with defects in the coupling of growth arrest and differentiation at the GD state.

Priming of human myeloid leukemic cell lines HL-60 and U-937 with retinoic acid for differentiation effects of cyclic adenosine 3':5'-monophosphate-inducing agents and a T-lymphocyte-derived differentiation factor.

Abstract: The human cell lines HL-60 (acute promyelocytic leukemia) and U-937 (histiocytic monoblast-like lymphoma) differentiate to functionally mature cells by incubation with retinoic acid (RA). This differentiation is potentiated by agents known to increase intracellular cyclic adenosine 3':5'-monophosphate (cAMP) levels. The present study shows that these cells can be primed for differentiation by treatment for approximately one day with RA followed by exposure to a cAMP-inducing agent. The reverse sequence was ineffective. Thus, HL-60 could be primed by incubation for less than 20 hr with 10 nM RA to respond by differentiation to the addition of 10 nM prostaglandin E2 or 1 nM cholera toxin, whereas 10 nM RA alone was almost inactive. RA-primed HL-60 also responded with differentiation to a concentration of T-lymphocyte-derived differentiation-inducing factor which alone was inactive. U-937 primed by incubation for 24 hr with 100 nM RA responded to cAMP-inducing agents and differentiation-inducing factor, which alone were inactive on this cell line. Priming of these cell lines does not depend on the normal rate of protein synthesis, as it occurs even better in the presence of a concentration of cycloheximide that inhibits growth completely, suggesting that a decrease in synthesis of some protein(s) favors RA-induced differentiation. Cycloheximide alone produced some priming of HL-60 but not of U-937. HL-60, but not U-937, primed with RA responded to adenosine triphosphate and other nucleoside triphosphates, consistent with the notion that modulation of the RA effect may be mediated through protein kinase activity at the plasma membrane. The finding that myeloid cell lines, like HL-60 and U-937, blocked at a late stage of maturation can be primed by RA to respond to cAMP-inducing agents and differentiation-inducing factor may improve our understanding of the arrest in maturation typical of some forms of leukemia.

Erythroblast cell lines transformed by a temperature-sensitive mutant of avian erythroblastosis virus: a model system to study erythroid differentiation in vitro.

Abstract: A continuous chicken erythroblast cell line transformed by the temperature-sensitive mutant ts34 of avian erythroblastosis virus was developed. This cell line, designated HD3, could be induced to terminally differentiate by shift to the nonpermissive temperature. The differentiated cells resembled erythrocytes as judged by morphology, expression of hemoglobin as determined by benzidine staining and radioimmunoassay, and by the expression of differentiation-specific cell surface antigens. Terminal differentiation was dependent on an erythropoietin-like activity present in anemic chicken serum. In contrast, induction of differentiation in the same cells by butyric acid was erythropoietin independent and did not lead to the formation of erythrocytes. In addition, we found that the responsiveness to temperature inducibility and to butyric acid could be dissociated in variant sublines of HD3 and that both types of differentiation inducers appear to act via different pathways.

Continuous multiplication of rabbit tracheal epithelial cells in a defined, hormone-supplemented medium.

Abstract: An improved Ham's F12 nutrient medium supplemented with epidermal growth factor (EGF), insulin (INS), and transferrin (TF) was developed for continuous proliferation and clonal growth of primary rabbit tracheal epithelial (TE) cells in culture. The addition of small quantities of fetal bovine serum (FBS) (0.01 to 0.1%) to cultures had little measureable stimulation on TE cell growth and plating efficiency. However, serum levels higher than 0.1% inhibited cell growth and also masked the growth stimulating activities of EGF and INS despite an increase in cell attachment. Under this defined, hormone-supplemented medium, and in the presence of a trace amount of serum (0.01%), 10 to 20% of the protease-dissociated TE cells attached to the culture dish followed by at least four population doublings during 7 to 10 d of culture. Clonal growth occurred at a seeding density of 17 cells/cm2 with a plating efficiency of 6 to 8%. Confluent primary cultures could be passaged two to four times by treatment with a 0.1% trypsin-1 mM EDTA solution and a total of 10 to 30 population doublings of in vitro life span were obtained. The epithelial nature of cultured cells was confirmed by indirect immunofluorescent staining with antikeratin antibody as well as by transmission electron microscopy. This study shows that using this improved hormone-supplemented medium, rabbit TE cells can be maintained in culture for extended periods of time without the aid of a fibroblast feeder layer or explant tissue. This system could be useful for the study of cell differentiation of tracheal epithelium.

Chemotaxis in Dictyostelium

Abstract: Dictyostelium discoideum exists as single amoeboid cells during the first phase of its developmental cycle. These cells phagocytose bacteria. Chemo­ taxis to compounds released from the bacteria (e.g. folic acid) is probably involved in food seeking (95). After the growth phase the amoebae differen­ tiate into cells capable of aggregating into a multicellular organism. A breakthrough in the investigation of Dictyostelium chemotaxis was the discovery in 1967 that aggregating cells of D. discoideum are attracted by cyclic AMP (cAMP) (64). Normally in the laboratory D. discoideum devel­ ops asexually, but by combining cells of different mating types sexual devel­ opment can be induced. Chemotaxis is also involved in sexual development as the cells are attracted by immature macrocysts (93). These are cell groups in which zygotes are formed. In the multicellular stage the cells differentiate into spores and cells forming a stalk and basal disk. These two types of cells constitute the fruiting body formed at the end of development. Evidence has been presented for an action of cAMP in the sorting out of pre-spore and pre-stalk cells, suggesting that the spatial pattern of these cells is determined by chemotaxis (88). Chemotaxis to oxygen seems also to be involved in aligning the pre-spore/pre-stalk pattern in the stage preceding fruiting body formation (114). The discovery that cAMP is a chemoattractant established cAMP as a primary, extracellular messenger. Cyclic AMP exerts its function as a che­ moattractant by binding to cell-surface receptors (47, 49, 70, 78). In addi­ tion, cAMP affects cell differentiation (16, 18, 35) and stimulates its own