Antigen-initiated B lymphocyte differentiation. V. Electrophoretic separation of different subpopulations of AFC progenitors for unprimed IgM and memory IgG responses to the NIP determinant. |
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Authors: | R A Schlegel H von Boehmer K Shortman |
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Institution: | The Walter and Eliza Hall Institute of Medical Research, Melbourne, Australia |
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Abstract: | Spleen cells from CBA mice were separated by continuous, free-buffer film cell electrophoresis, and the capacity of cells in different fractions to mount an adoptive immune response specific for the NIP hapten determined. Experimental conditions were such that AFC progenitor B cells were measured, rather than helper or suppressor T cells. The IgM response of unprimed animals (a virgin or antigen inexperienced population) and the IgG response of long-term hapten-primed animals (a B memory cell population) were compared. The results indicated physical and biological heterogeneity in splenic B cells, with AFC progenitors for unprimed IgM and memory IgG responses being extensively separated.AFC progenitors for a primary IgM response in normal, germ-free and athymic mouse spleen, and bone marrow, separated into three distinct populations. Two of these were of much higher mobility than the typical splenic B cells and separated in the T cell zone. These cells produced a relatively early peak response of AFC after stimulation.AFC progenitors for a secondary IgG response were predominantly typical low-mobility B cells. Three regions of activity were separated, one overlapping part of the IgM progenitors. The slowest migrating activity peaks corresponded to the mobility of some recirculating B cells. These cells produced a more delayed AFC response after stimulation.AFC from the spleens of immunised mice separated as a single, broad, mediummobility peak distinct from most B cells and AFC progenitors. IgM and IgG (memory) AFC had similar electrophoretic characteristics. |
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Keywords: | Reprint requests should be directed to Dr K Shortman The Walter and Eliza Hall Institute Post Office Royal Melbourne Hospital Victoria 3050 Australia |
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