Human B cell development in a novel xenograft model that provides selective TSLP and IL-7 stimulation (P4390)

Abstract

Abstract IL-7 is critical for mouse B cell development and available data suggest that TSLP has overlapping functions. Our previous in vitro studies show that IL-7 expands human B cell progenitors by ~60 fold (JI 2009 82:4255). Our recent experiments provide evidence that TSLP similarly expands human B cell progenitors in vitro and that primary human bone marrow stroma provides an in vivo source of both cytokines. To study interplay between IL-7 and TSLP in early stages of in vivo human B cell lymphopoiesis, we developed a novel xenograft model system that selectively provides IL-7 and/or TSLP stimulation. While mouse IL-7 can act on human cells, TSLP is species-specific. To overcome this obstacle we coupled a xenograft model system engineered to provide human TSLP (hTSLP) with IL-7 neutralizing antibodies. Preliminary data obtained using this model system transplanted with cord blood CD34+ cells shows that the production of B cell precursors is reduce by ~90% in mice that lack both IL-7 and hTSLP stimulation as compared to mice where both are present. The absence of hTSLP stimulation, alone, reduced B cell production by about 50%, while the effects due IL-7 neutralization, alone, were about half this. These data suggest that IL-7 and TSLP play an essential and at least partially overlapping role in human B cell development. Current studies are aimed at defining the differential stage-specific effects of TSLP and IL-7 on survival and proliferation of human B cell progenitors in vivo.