Formation of Mononuclear Phagocyte (Macrophage) Colonies by Mouse Spleen Cells in Liquid Culture

When spleen cells of the adult mouse were tested for the formation of mononuclear phagocyte (macrophage) colonies by the liquid culture technique with an incubation period of 7–8 days, about 100 macrophage colonies were produced from 1 × 10⁶ cells. The number of macrophage colonies appearing after 2 days of incubation was small, but thereafter increased progressively up to at least 8 days. In the later stages of incubation (after day 6) large colonies consisting of more than 100 cells appeared. Macrophage colonies in the early stages consisted almost solely of macrophages. On day 6 significant numbers of small round mononuclear cells with no detectable phagocytic activity were seen in the center of large colonies, and by day 8 marked crowding of these cells had occurred. The peripheral region of the large colonies consisted mainly of macrophages and the intermediate region of middle-sized round or slightly stretched cells with weak phagocytic activity. Approximately two-thirds of the colony-forming cells still remained after glass-adherent cells were removed from the spleen cells by passing over a glass-bead column. In cultures of glass-nonadherent cells macrophage colonies were not generated in the early stage. The number of colony-forming cells did not change significantly even after actively phagocytic cells were rigorously removed from the spleen cells. In addition, no macrophage colonies were generated in cultures of spleen cells treated with mitomycin C.     

Differentiation of human stromal bone marrow cell precursors in monolayer culture

The colonies of human bone marrow fibroblasts in monolayer culture have been studied. It has been shown that there are two types of colonies in the cultures: monolayer and multilayer ones, both having alkaline phosphatase-positive cells. In monolayer colonies one can observe calcium deposition indicative of osteogenic differentiation of human bone marrow stromal cells.     

Quantitative cell composition of human and bovine corpora lutea from various reproductive states

The cell composition of human and bovine corpora lutea (CL) from various reproductive states was investigated by computerized video-based interactive Bioquant image analysis system IV and by light microscope immunocytochemistry. Human and bovine CL contained more nonluteal cells than luteal cells. Human CL contained a lower number of luteal and a greater number of nonluteal cells than bovine CL. Regardless of the reproductive state, human CL contained more small luteal cells than large luteal cells. In all reproductive states except in the late luteal phase, the bovine CL also contained more small luteal cells than large luteal cells. The average sizes of all the cells in human CL were smaller than in bovine CL. Human CL contained more vascular space than bovine CL during mid and late luteal phases. The number of luteal cells increased and nonluteal cells decreased from early to mid luteal phase, and then luteal cells decreased and nonluteal cells increased in late luteal phase and in degenerating human and bovine CL. While the change of number of small and large luteal cells first occurred from early to mid luteal phase in human CL, it did not take place until the late luteal phase in bovine CL. The average size of large luteal cells in humans and of small luteal cells in cattle did not change, whereas size of the other cells changed in different reproductive states in both human and bovine CL. The cell composition of term pregnancy human CL was similar to mid or late luteal phase, whereas the cell composition of early pregnancy bovine CL was similar to mid luteal phase.(ABSTRACT TRUNCATED AT 250 WORDS)     

Testing the importance of the distribution of worker sizes to colony performance in the ant species <Emphasis Type="Italic">Formica obscuripes</Emphasis> Forel

We examined the relationship between colony performance and the distribution of worker sizes within colonies in the ant species, Formica obscuripes. We manipulated the distribution of worker sizes within colonies and found that experimental colonies whose distributions mimicked the natural distributions retained a larger percentage of colony biomass over three weeks when fed on honeydew, relative to colonies composed of only large or only small workers. In natural colonies most of the variation in worker sizes was found within, as opposed, to between colonies, suggesting that homeostatic mechanisms within colonies regulated the distribution of worker sizes. While there were no disjunctions in the distribution of worker sizes within colonies, the distribution tended to be bimodal. This study demonstrates that the distribution of worker sizes within colonies is important even for ant species that lack discrete worker castes. Received 31 October 2006; revised 26 December 2006; accepted 4 January 2007.     

Iron and glucose effects on the morphology of Botryococcus braunii with assumption on the colony formation variability

The axenic strain BOT-22 (race B) of Botryococcus braunii was investigated for the influence of iron and glucose on its morphology to reveal the relationship with growth and oil production. The average size of the iron-rich cells was larger than that of iron-limited cells. The shapes of iron-rich cells were elliptical and that of iron-limited cells were conical. Several cells were tightly connected to form large colonies in the iron-rich culture; however, only a few cells were sparsely arranged to form the small colonies in the iron-limited culture. Glucose addition to the iron-rich culture further increased the size of the cells and colonies. The growth increased in the following order: iron-limited, iron-rich, and iron-rich with glucose cultures. The same was observed for the volume of hydrocarbons in iron-rich cultures. It was also speculated that the shapes of cells and the amount of extracellular oil are most likely related to colony size and form.     

Cell morphology in long-term cultures of normal and abnormal amniotic fluids

Summary The cell morphology of long-term cultures of amniotic fluid cells from 10 fetuses with a neural tube defect (NTD) and three with omphalocele was examined and compared to 30 long-term cultures of normal amniotic fluids as well as a long-term culture of human fetal brain. Cultures from the amniotic fluids of the fetuses with NTD and omphalocele showed cells with the same general characteristics as normal amniotic fluid cells. However, the cultures of amniotic fluid cells from NTD pregnancies had an additional cell type also seen in fetal brain culture. This was a neuroblast-like cell, with small rounded refractile morphology and long branching processes forming clusters of varying sizes which lay on top of large flat cells. These neuroblast-like cells diminished in number with time in culture and were not present in subcultures. Their possible neuronal origin is discussed.     

Differentiation of Reproductive Cells in Volvox carteri*

SYNOPSIS. The life cycle of Volvox carteri was studied in axenic culture using the NB-3 and the NB-7 strains isolated from Nebraska. Vegetative colonies of both strains contain 8–12 asexual reproductive cells (gonidia) which divide to form daughter colonies. During daughter colony formation, the reproductive cells of the daughters are delimited at an early stage of cleavage. Gonidia are delimited at the division from 16 to 32 cells, but eggs and male initial cells are not differentiated until the division of the 32-celled stage. In all instances the reproductive cells are the products of unequal cleavages. Male and female colonies are formed in separate clones. Female colonies contain approximately 20 eggs. Male colonies have approximately 50 male initial cells, each of which forms a sperm bundle containing 64 or 128 sperm. Sperm bundles penetrate female colonies and fertilize the eggs. Zygote formation, zygote germination, and the development of gone colonies is described. Sexual type was inherited in a 1:1 ratio. Male colonies appear spontaneously in the male strain, but female colonies were formed in the female strain only in the presence of a substance produced by colonies from male cultures. This female inducing substance is produced in male cultures primarily, if not exclusively, by male colonies rather than by vegetative colonies. The female inducing substance is heat labile and non-dialyzable. Activity is destroyed by Pronase, but not by trypsin, chymotrypsin or ribonuclease. Gonidia appear to be most susceptible to female induction during the early stages of their expansion prior to cleavage.     

Effects of retinoic acid on the growth and morphology of hamster tracheal epithelial cells in primary culture

Hamster tracheal epithelial cells were grown in primary culture on a collagen gel substrate in hormone-supplemented serum-free Ham's F12 medium with 10(-8) M retinoic acid (RA+), or without retinoic acid (RA-). On days 1 and 2, the colonies were composed of large (secretory) cells and lesser numbers of small (basal) cells; ciliated cells were rare. At these times, cell number, thymidine incorporation, and total labelling indices (small and large cells, combined) were similar in RA+ and RA- cultures, but the large cells became flat in RA- medium on day 2. On days 3-5, thymidine incorporation and total labelling indices were less in RA- than RA+ cultures, and on days 4-6, cell numbers were decreased in RA- cultures. On day 3, the large cells of the RA- colonies had flattened further and clusters of small basal cells had formed. On day 4, the RA+ colonies were composed of densely-packed cuboidal secretory cells, small basal cells were inconspicuous; the total labelling index was about 27%. The RA- colonies were composed of large flat secretory cells and numerous small basal cells which were clustered in groups; the total labelling index was about 7%. Since large and small cells could be discriminated by size in RA- colonies, a labelling index was generated based on cell size. On days 2, 3 and 4, the labelling index of the small basal cells in the RA- colonies was 44%, 43% and 24% respectively, whereas the labelling index of the large secretory cells fell rapidly over the same period (56%, 14% and 2%). On days 5 and 6, the cuboidal secretory cells in the RA+ cultures had differentiated further and the cells were stratified focally. Some new ciliated cells had formed on day 6. In RA- cultures, mucous granules were not observed in the large flat cells and ciliated cells were not seen. The total labelling indices were 11% and 0.35% in RA+ cultures, and 0.5% and 0.25% in RA- cultures on days 5 and 6, respectively. The study shows that the target cell for vitamin A in the hamster tracheal epithelium is the secretory (mucous) cell. When retinoic acid was deficient, the secretory cells flattened and their capacity to divide was greatly diminished. Since the basal cells continued to replicate when the secretory cells did not, the population density of the basal cells increased disproportionally, which could be interpreted erroneously as a "basal cell hyperplasia".(ABSTRACT TRUNCATED AT 400 WORDS)     

Giant eosinophil colonies from cultures of bone marrow cells

Summary To date, the small size and slow growth of eosinophil colonies in vitro has hampered study of cloned eosinophils. We found enhanced eosinophil colony size and numbers in methylcellulose cultures of bone marrow cells utilizing defined supplemented bovine calf serum (DSBCS) in combination with EL4 conditioned medium (EL4-CM). At days 9, 16 and 23 significantly more eosinophil colonies and more cells/colony were present in cultures incubated with DSBCS/EL4-CM than in cultures incubated with fetal calf serum/EL4-CM. The ability to generate large numbers of eosinophils in vitro should facilitate study of cloned eosinophils. Supported in part by a grant from the National Institutes of Health, AI 20416, and by the Mayo Foundation. Editor's statement Previous approaches to in vitro culture of eosinophils generally have achieved, at best, mixed cultures of colonies of these cells and granulocyte-macrophage colonies. The improved culture methods described in this report produce more homogeneous eosinophil cultures and larger colonies of these cells. The procedure employs EL4 murine thymoma-conditioned medium, which apparently contains eosinophil colony-stimulating activity in the absence of granulocyte-macrophage colony-stimulating activity. David W. Barnes     

Immunocytochemical identification of murine and human megakaryocyte colonies in soft-agar cultures

Summary Murine megakaryocyte (MK) colonies in soft-agar cultures were immunocytochemically stained with platelet antiserum and an immuno-alkaline phosphatase procedure. Subsequently, cytochemical staining for acetylcholinesterase was used to confirm the specificity of the immunolabelling technique. The correlation of numbers of megakaryocyte colonies enumerated by independent observers was excellent. A comparable platelet antiserum directed against human platelet epitopes was utilized to identify human MK colonies in soft-agar cultures of human bone marrow. Using this method, we determined that the frequency of detectable human MK colonies in our agar culture system was maximal between days 10 and 12. The immunocytochemical staining technique we have developed for identification of MK colonies in soft-agar cultures yielded good cellular morphology and produced an intensely specific label against a clear background; it therefore facilitated accurate enumeration of MK colonies. This non-fluorescent method avoids dependence upon a non-permanent marker, and allows the simultaneous enumeration of positive and negative colonies.     

Cultivation of avian malaria parasites in mammalian liver cells

The exoerythrocytic stages of Plasmodium lophurae and P. fallax were grown in cell cultures derived from embryonic mouse livers. Liver cell monolayers were maintained in continuous culture with frequent subculturing for extended periods of time. Morphologically, the main cell type was a large, flat cell which closely resembled in shape the mouse parenchymal cell, although small colonies of spindle-shaped cells could also be found. Mammalian cells were labelled with thymidine-³H prior to infection with avian merozoites so they could be positively distinguished from any avian cells which might be present in the merozoite inoculum as contaminants. Merozoites were observed inside the labelled mammalian cells within three hours and large forms were seen at 48 hr. The mammalian cells supported parasite growth comparable to that observed in avian cell cultures.     

ULTRASTRUCTURAL ANALYSIS OF HEMATOPOIETIC COLONIES DERIVED FROM HUMAN PERIPHERAL BLOOD : A Newly Developed Method

The ultrastructure of granulocyte colonies derived from normal human peripheral blood leukocytes cultured in semisolid media has been studied by a new method developed for this purpose. Fixation, dehydration, and embedding of the whole content of the Petri dish resulted in a block of Epon containing colonies made up of cells with the spatial orientation of those observed in living cultures. This permitted serial sectioning through entire colonies. Cell maturation in vitro appeared to parallel that of normal marrow. However, even the most mature cells retained cytoplasmic characteristics of more immature cells. This was particularly true for eosinophils which only rarely possessed granules with electron-dense crystalline "cores," a feature typical for mature eosinophils. In addition to the normal-appearing hematopoietic cells found within colonies, very large round or spindle-shaped cells were present between colonies and firmly attached to the bottom of the culture dish. Although the histochemical and functional characterization of these cells awaits further study, it is suggested that they are related to histiocytes or macrophages. The technique described here should prove valuable in studies of the development, differentiation, and interaction of many types of cells.     

Self-Renewal Capacity and Clonal Succession of Haemopoietic Stem Cells In Long-Term Bone Marrow Culture

Abstract. The CFU-s proliferative potential varied greatly during long-term cultivation. Most of the CFU-s in the cultures were represented by cells with low renewal capacity. Pre-CFU-s cells capable of producing multipotential colonies in methylcellulose, which contained CFU-s with a high proliferative potential, were identified in the culture. In cultivation of a mixture of cells of different karyotype their ratio changed rapidly from week to week. the findings were consistent with the hypothesis that haemopoietic stem cells are maintained in the culture by the products of a small number of clones which arise and decline in succession, and that pre-CFU-s, but not the CFU-s themselves, are clonogenic progenitors.     

Self-renewal capacity and clonal succession of haemopoietic stem cells in long-term bone marrow culture

The CFU-s proliferative potential varied greatly during long-term cultivation. Most of the CFU-s in the cultures were represented by cells with low renewal capacity. Pre-CFU-s cells capable of producing multipotential colonies in methylcellulose, which contained CFU-s with a high proliferative potential, were identified in the culture. In cultivation of a mixture of cells of different karyotype their ratio changed rapidly from week to week. The findings were consistent with the hypothesis that haemopoietic stem cells are maintained in the culture by the products of a small number of clones which arise and decline in succession, and that pre-CFU-s, but not the CFU-s themselves, are clonogenic progenitors.     

Studies on human cord blood progenitor cells

Analysis of agar cultures throughout a 56-day period determined the concentration and cell cycle status of at least 4 different subclasses of hemopoietic colony forming cells (CFC) in human cord blood (CB). Although the concentration of CFC in CB was not significantly different from bone marrow (BM) in day-12 cultures, neutrophil colonies reached their peak on about day 23 in CB cultures and on day 12 in BM cultures. This suggests that the CFC in CB are more primitive than those in BM. In CB cultures, colonies of small cells contained predominantly neutrophils on day 14 and eosinophils on day 35, while the late developing (day 35) colonies of large cells contained mast-cell-like cells (MCL).     

Kinetics of the clonal proliferation of granulocytes and macrophages in cultures of mouse bone marrow cells as supported by two distinct types of colony-stimulating factors

Two different types of colony-stimulating factors (CSF) were used to support the clonal growth of myeloid progenitor cells (CFUc) in semi-solid agar or viscous methylcellulose cultures of mouse bone marrow cells. The cultures stimulated for 5 days with RSP-2-P3 cell CSF (CSFRSP) contained mainly granulocyte colonies, whereas the cultures stimulated for 10 days with human urine CSF (CSFhu) contained mainly monocyte/macrophage colonies. Four lines of study were carried out: 1) a kinetic study using combinations of the two types of CSFs in the same culture; 2) a study of transferring CFUc from the initial 3-day cultures to recipient cultures containing the same or different types of CSF; 3) an examination of the morphology over time of colonies that were confined by glass capillaries plunged in agar; and 4) electron microscopic observations on disintegrating granulocytes. The results of all these lines of study suggest that about one third of the CFUc can be stimulated both by CSFRSP and CSFhu while the other two thirds react specifically either with CSFRSP or with CSFhu. The present study also suggests that granulocytes in the culture stop proliferation and disintegrate while macrophages are still growing there. Thus, mixed-type colonies containing both macrophages and granulocytes later become macrophage colonies.     

The effect of temperature during trypsin treatment on viability and multiplication potential of single normal human and chicken fibroblasts

Both the number of colonies formed from single cells and their average size are affected by the temperature at which nontransformed human and chicken fibroblasts are harvested from monolayer cultures. At constant levels of trypsin activity, treatment of cells at temperatures less than 15 degrees C during all steps from monolayer to subsequent culture markedly improves viability and multiplication potential of single cells.     

THE DEVELOPMENT OF FIBROBLAST COLONIES IN MONOLAYER CULTURES OF GUINEA-PIG BONE MARROW AND SPLEEN CELLS

In monolayer cultures of guinea-pig bone marrow and spleen the development of discrete fibroblast colonies takes place on days 9–12. The linear increase in the number of colonies with increasing numbers of explanted cells and the distribution of male and female cells in mixed cultures support the view that fibroblast colonies are clones. The concentration of colony-forming cells in bone marrow and spleen is approximately 10^-5. Bone marrow culture (but not spleen culture) fibroblasts are capable of spontaneous bone formation in diffusion chambers. Fibroblasts from both bone marrow and spleen cultures are inducible to osteogenesis in diffusion chambers in the presence of transitional epithelium.     

Effect of FSH and HCG on progesterone secretion by cultured oocyte-cumulus complexes and granulosa cells from porcine antral follicles: Influence of follicular development

Oocyte-cumulus complexes and granulosa cells were harvested from small (1–2 mm), medium (3–5 mm), and large (6–12 mm) porcine antral follicles and cultured for 2 and 3 days. The effects of various doses of purified hCG and human FSH on progesterone secretion and monolayer formation were examined. After a 2-day culture period it was found that FSH was more effective in stimulation of progesterone secretion by cultured oocyte-cumulus complexes than in granulosa cells harvested from small follicles (P < 0.01), whereas hCG was more effective in stimulating progesterone secretion in granulosa cells than in oocytecumulus complexes harvested from large follicles. In contrast, after a 3-day culture period, granulosa cells secreted more progesterone compared to oocytecumulus complexes under control conditions or in the presence of hCG or FSH. After 3 days both FSH and hCG stimulated progesterone secretion by oocytecumulus complexes and granulosa cells; however, the hormone effect was greater upon granulosa cells than oocyte-cumulus complexes. After 3 days of culture in the case of both follicular cell types, there was a greater response to FSH in the case of cells harvested from small compared to large follicles. The reverse was true in the case of hCG responsiveness. Monolayer formation ability of oocyte-cumulus complexes was greater in the case of complexes harvested from small and medium than complexes harvested from large follicles. Addition of hCG to the cultures led to a dose-dependent decrease in monolayer formation by oocyte-cumulus complexes harvested from all sizes of follicles.     

Human epithelial cells cultured from urine: growth properties and keratin staining

Epithelial cells can be cultured from the urine of newborn infants, providing a simple, noninvasive biopsy method. We established such cultures by standard techniques from 44% of uncontaminated specimens obtained from newborn infants up to 1 week of age. There was an average of three colonies per milliliter of urine. Many cultures accomplished 15 to 25 population doublings in as many as five subcultures and yielded total potential culture sizes of 10(4) to 6 x 10(8) cells. Plating efficiency was high at each passage. The cultures displayed two morphologically distinct epithelial cell types. Immunofluorescent staining of keratin fibers in most of these cells further identified them as epithelial.