Murine leukemia retrovirus integration induces the formation of transcription factor complexes on palindromic sequences in the signal transducer and activator of transcription factor 5a gene during the development of pre-B lymphomagenesis.

Murine leukemia retrovirus (MLV) vectors are highly effective tools for introducing a foreign gene into a target host genome. However, it remains unclear how integrated retroviral promoter activity is influenced by the upstream or downstream sequences and how the host cell phenotype is influenced by the integrated promoter activity. Herein, we analyzed a set of pre-B lymphoma clones in which the MLV genome was integrated into the signal transducer and activator of transcription factor 5a (Stat5a) gene. Among the clones, the lymphoma clones with a provirus integrating into the middle position of the palindromic target sequences showed significantly higher transcription of the Stat5a gene; and p300 and other transcriptional factors formed complexes, with binding to the proviral-host junctional DNA segment. By using a luciferase assay, the upstream and downstream sequences of the provirus contributed to the up-regulation of proviral promoter activity. In concomitance with the higher Stat5a transcription, the immunoglobulin gene recombination was arrested. Antiapoptotic activity was significantly higher, with an increase in Bcl-xL, one of the targets of STAT5A, when IL-7 was supplied. Thus, a minute difference between MLV integration sites can lead to large differences in the host phenotype through the formation of transcription factor complexes on the proviral-host junctional DNA segment, suggesting that caution is necessary in monitoring integration sites when working with MLV vectors.

Dual retrovirus integration tagging: identification of new signaling molecules Fiz1 and Hipk2 that are involved in the IL-7 signaling pathway in B lymphoblastic lymphomas.

IL-7R, FLT3, and CD43 are surface antigens expressed during the transition from pro-B to pre-B cells in BM. To understand interactions between their signaling pathways, we analyzed spontaneous mouse B-LBLs with dual MLV integration into Stat5a and Fiz1 or Stat5a and Hipk2. MLV integration resulted in up-regulation of these genes in lymphoma cells compared with normal pro-B cells from the BM. In lymphomas with both integrations into Stat5a and Fiz1, increases in phosphorylated STAT5A and expression of c-Myc, a target gene of STAT5A, were observed following stimulation of the FLT3. Clones with the dual integrations grew faster in IL-7 and FLT3L-supplemented medium than clones with Stat5a integration alone. On the other hand, in lymphomas with integrations into Stat5a and Hipk2, increases in phosphorylated STAT5A and expression of c-Myc were observed following cross-linking of CD43. In conclusion, FLT3 and CD43 signaling pathways involve STAT5A via Fiz1 and Hipk2 in B-LBLs. Identification of the dual MLV integration sites in B-LBLs, therefore, will provide an excellent tool for identification of the signaling pathways in B-LBLs.