It is known that STAT3 has an essential function in LIF-mediated maintaining of mouse embryonic stem cells. However, it is unclear what are the functional roles of STAT3 in adult stem cells/early progenitors. Because functional deletion of STAT3 in mice is embryonic lethal, it was difficult to evaluate the roles of STAT3 in adult. To address this problem, we have generated a number of mouse stains of tissue specific disruption of STAT3, including in bone marrow/hematopoietic lineages (Welte et al., PNAS 100: 1879, 2003) and in neuronal lineages (Gao et al., PNAS 101: 4661, 2004). The availability of these conditional STAT3 -/- mouse models have provided tools for studies of functional roles of STAT3 during cell differentiation from early progenitor cells. We have evaluated potential roles for STAT3 in hematopoiesis after birth, and found that STAT3 would be one critical factor involved in the proliferation of myeloid progenitor cells (MPC: CFU-GM, BFU-E, CFU-GEMM) in bone marrow and spleen. Particularly, we found that deletion of STAT3 after birth results in marked decreases in absolute numbers and cell cycling status of marrow and spleen myeloid progenitor cells, and STAT3 appeared to be a critical molecule in mediating synergistically stimulated progenitor cell proliferation. In the studies of neuronal lineage, we have found that highly tyrosine-phosphorylated STAT3 is often present and enriched in regions of neuronal precursor cells/layers (such as in subventricular areas) but is transiently disappeared in differentiated cells/layers. This observation suggested a possible role of STAT3 in regulation of neuronal precursors. To further study the role of STAT3, we generated neuronal STAT3 -/- mouse (using floxed STAT3 and Nestin-cre). In particular, the effect of STAT3 deletion in vivo on astrocyte differentiation was examined. We found that deletion of STAT3 alone has a limited effect on astrocyte differentiation as measure by GFAP expression. However, the double deletion of STAT3 and STAT1 has almost completely abolished GFAP expression, indicating STAT3 and STAT1 has a redundant role during astrocyte differentiation. The details of our findings will be further discussed in the meeting.