Phenotypic and functional analysis of B lymphopoiesis in interleukin-7-transgenic mice: expansion of pro/pre-B cell number and persistence of B lymphocyte development in lymph nodes and spleen

Phenotypic and functional analysis of B lymphopoiesis in interleukin-7-transgenic mice: expansion of pro/pre-B cell number and persistence of B lymphocyte development in lymph nodes and spleen

Transgenic mice in which mouse interleukin (1L)-7 cDNA is expressed under the control of the mouse major histocompatibility complex (MHC) class I1 (Ea) promoter develop a lymphoproliferative disease characterized by the early polyclonal expansion of T cells followed in many cases by the development of lymphomas of immature B cells. Here, we have analyzed B cell development in these transgenic mice. Phenotypic analysis using monoclonal antibodies to B220, IgM, IgD, c-kit, IL-7 receptor, MHC class 11, AA4.1, CD19, CD23, CD25, CD40 and CD43 shows that B lymphopoiesis in the bone marrow is dramatically altered and the number of pro/pre-B and immature B cells is significantly increased. Interestingly, pro/pre-B and immature B cells persist in the spleens of adult transgenic mice and are also present in lymph nodes and blood. Cell cycle analysis of lymph node cells shows that subpopulations of developing B cells retain the cell cycle profiles of their bone marrow counterparts. Limiting dilution analysis shows that the number of clonable pre-B cells is significantly increased and that at limiting dilution, growth of transgenic pre-B cells is still dependent on exogenous IL-7. Using semiquantitative polymerase chain reaction (PCR) and in situ hybridization, the level of IL-7 transcripts in the spleen was found to decrease between 2 and 4 weeks in control mice with levels in transgenics mice being approximately 50 times greater. These transgenic mice represent an interesting model with which to study the effects of IL-7 overexpression in the bone marrow and raise interesting questions regarding the regulation of B lymphopoiesis in normal mice.