Expression of Snai3 by retroviral transduction of hematopoietic stem cells using bone marrow chimera studies demonstrated a block in lymphoid-cell development and enhanced expansion of myeloid-lineage cells. Analysis of Snai3-expressing hematopoietic Buparlisib order precursor cells showed normal numbers of immature cells, but a block in the development of cells

committed to lymphoid lineages. These data indicate that the overexpression of Snai3 does alter bone marrow cell development and that the identification of genes whose expression is altered by the presence of Snai3 would aid in our understanding of these developmental pathways. In vertebrate species there are four members of the Snail superfamily: Snai1, Snai2, Snai3, and Scratch [[1]]. Snail family members function as transcriptional repressors by their N-terminal-repressor domain or by sequence-specific binding to DNA by their C-terminal zinc finger domain [[1, 2]]. Mammalian family members have a conserved N-terminal SNAG (Snail/Gfi-1) domain that interacts with corepressors and is either

required for, or augments repression [[2-4]]. The DNA binding, C2H2 zinc fingers of the Snail proteins are similar and conserved; the zinc fingers of the mouse Snai1, Snai2, and Snai3 proteins are ∼ 60–95% identical in amino acid sequence [[2, 3]]. Snail family members bind to E box consensus sites of CAGGTG (or CANNTG) [[3]] with the mouse Snai3 protein showing specificity Dasatinib solubility dmso for CACCA/TG/T [[5]]. In the mouse, Snai1 and Snai2 have been associated with embryogenesis and epithelial-mesenchymal Metalloexopeptidase transition [[6-10]]. Snai2 is a downstream effector of the stem cell factor (SCF)/c-Kit signaling pathway and Snai2-knockout mice have a similar phenotype to the SCF (sl) and c-Kit (w/wv) mutant mice [[11]]. Snai2–/– mice have atrophied thymus, however, other hematopoietic

lineages develop normally in these mice [[11]]. Overexpression of Snai1 also causes an atrophied thymus, but peripheral blood CD4+ and CD8+ T-cell populations are unaffected [[12]]. Forced expression of either Snai1or Snai2 can lead to B-cell and myeloid leukemias [[12-14]]. Snai3 has been shown to actively repress transcription [[3]]. Snai3 expression has been reported in skeletal muscle, thymus, and myeloid cells [[3, 5, 15, 16]]. Human Snai3 (SNAI3) has been identified in silico and contains the same SNAG and zinc finger domains as the mouse protein [[17]]. To elucidate the function of mouse Snai3, we adopted a gain of function approach to determine if the expression of Snai3 in hematopoietic stem cell (HSC) precursors would alter the derivation of mature end-stage lineage cells.