Journal ArticleDOI
Analysis of colonies developing in vitro from mouse bone marrow cells stimulated by kidney feeder layers or leukemic serum
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TLDR
Cell colonies developing in agar cultures from mouse bone marrow cells following stimulation either by neonatal kidney cell feeder layers or AKR lymphoid leukemia serum were mixtures of granulocytic and mononuclear cells.Abstract:
An analysis has been made of cell colonies developing in agar cultures from mouse bone marrow cells following stimulation either by neonatal kidney cell feeder layers or AKR lymphoid leukemia serum. Colonies arose by cell proliferation and were mixtures of granulocytic and mononuclear cells.
Colonies stimulated by kidney feeder layers reached a mean size of 2000 cells by day 10 of incubation and remained predominantly granulocytic in nature. When bovine serum was substituted for fetal calf serum, cell colonies grew to a smaller size and lost their granulocytic nature, finally becoming almost pure populations of mononuclear cells.
Colonies stimulated by AKR leukemic serum reached a mean size of 350 cells by day 10 of incubation. Although these colonies initially were granulocytic in nature, they finally became almost pure populations of mononuclear cells.
The colony mononuclear cells actively phagocytosed carbon, and contained metachromatic granules probably derived from ingestion of agar.
The mononuclear cells in these colonies may not have been members of the original colony, but may have been incorporated in the colony as it expanded in size, subsequently proliferating in the favourable environment of the colony.read more
Citations
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Journal ArticleDOI
Human bone marrow colony growth in agar-gel.
TL;DR: A technique for growing human bone marrow cell colonies in agar-gel medium is described in this paper, where feeder layers containing 1 × 106 normal human peripheral white blood cells are used as the stimulus for colony growth.
Journal ArticleDOI
Ontogeny of the haemopoietic system: yolk sac origin of in vivo and in vitro colony forming cells in the developing mouse embryo.
TL;DR: The mouse yolk sac has been shown to contain in‐vivo colony forming cells capable of producing granulocytic, megakaryocytic and erythroid spleen colonies, and haemopoietic precursor cells demonstrated in the blood at the time of initiation of the circulation and in the early embryonic liver.
Journal ArticleDOI
Factors regulating macrophage production and growth. Purification and some properties of the colony stimulating factor from medium conditioned by mouse L cells.
E R Stanley,P M Heard +1 more
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Purification and properties of colony-stimulating factor from mouse lung-conditioned medium.
TL;DR: Colony-stimulating factor, which specifically stimulates mouse bone marrow cells to proliferate in vitro and generate colonies of granulocytes, or macrophages, or both, was purified 3500-fold from mouse lung-conditioned medium, indicating that it is a glycoprotein.
Journal ArticleDOI
Physical separation of hemopoietic stem cells from cells forming colonies in culture.
TL;DR: Mouse bone marrow cells in suspension were separated into a number of fractions on the basis of cell density by equilibrium density gradient centrifugation, or on the based of cell size by velocity sedimentation, to demonstrate that cells in some fractions formed more colonies in vivo than in the culture system.
References
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Journal ArticleDOI
The growth of mouse bone marrow cells in vitro
TR Bradley,Donald Metcalf +1 more
TL;DR: A simple in vitro technique for the growth of colonies from single cell suspensions of mouse bone marrow involves the plating of marrow cells in agar on feeder layers of other cells, those from 8-day-old mouse kidney and 17th day mouse embryo being shown to be the most efficient types of feeder layer.
Journal ArticleDOI
The cloning of normal “Mast” cells in tissue culture
Dov H. Pluznik,Leo Sachs +1 more
TL;DR: The results indicate that the substance(s) required for the growth and differentiation of “mast” cells can pass through agar.
Journal Article
The fate of parental preleukemic cells in leukemia-susceptible and leukemia-resistant f1 hybrid mice.
TL;DR: The results indicate that leukemia-resistant (AKR X C57BL)Fi mice can retard the development of neoplasia in preleukemic AKR cells and can possibly influence the type of reticular tumor finally developing from the injected cells.