Immunoglobulin synthesis and gene rearrangements in lymphoid cells transformed by replication-competent Rauscher murine leukemia virus: transformation of B cells at various stages of differentiation.

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Lymphoid cells transformed by Rauscher murine leukemia virus (R-MuLV) belonged to the B cell lineages. One group of cells exhibited Fc receptors but completely lacked immunoglobulin mu heavy and kappa light chains. The majority of the cells resemble pre-B type. They displayed mu chains but kappa chains were completely absent. Very rarely certain cells synthesized both mu and kappa chains. Based on the presence of Fc receptors and IgM synthesis the cells transformed by R-MuLV belonged to three B cell developmental stages. These cells were tested for immunoglobulin gene rearrangements using JH and CK probes. DNA from cell lines without any detectable levels of IgM mu exhibited embryonic as well as rearranged JH genes, whereas cells expressing IgM possess, in addition, productive and non-productive light chain gene rearrangements. The most terminally differentiated cell possesses JH and CK rearrangement associated with the synthesis of mu and kappa chains. Presumably the cells with rearranged JH and CK genes without immunoglobulin synthesis represent a developmental transition. We conclude that cells transformed by R-MuLV belonged to five step-wise compartments of B cell development. Our findings implicate definite sequential events of immunoglobulin gene rearrangement and expression during B cell development.

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