EVI-1 modulates leukemogenic potential and apoptosis sensitivity in human acute lymphoblastic leukemia.

The transcriptional regulator ecotropic viral integration site-1 (EVI-1) has mainly been studied for its role in myeloid malignancies, in which high EVI-1 levels are associated with particularly aggressive disease. The role of EVI-1 in lymphoid cells, however, is largely unknown. Here we show that EVI-1 is indeed expressed in lymphoid malignancies such as acute lymphoblastic leukemia (ALL) and a subset of chronic lymphocytic leukemia. Expression data from pediatric ALL further suggest that high EVI-1 levels are associated with poor prognosis. Suppression of EVI-1 expression by RNA interference reduces cell growth and enhances apoptosis sensitivity in response to various stimuli in lymphoblastic leukemia cells. At the molecular level, EVI-1 modulates expression of several apoptosis-related genes (such as BCL2, BCL-x, XIAP, NOXA, PUMA, TRAIL-R1). Furthermore, EVI-1 knockdown strongly impairs in vivo engraftment of lymphoblastic leukemia cells upon transplantation in immune-permissive NOD/SCID/IL2Rγ(null) mice, conferring a survival benefit when compared with mice transplanted with control cells. Thus, our data show that EVI-1 is expressed not only in myeloid but also in lymphoid leukemias, and contributes to the leukemogenic potential and apoptosis resistance of ALL cells.

Activation of Evi1 inhibits cell cycle progression and differentiation of hematopoietic progenitor cells.

The transcription factor Evi1 has an outstanding role in the formation and transformation of hematopoietic cells. Its activation by chromosomal rearrangement induces a myelodysplastic syndrome with progression to acute myeloid leukemia of poor prognosis. Similarly, retroviral insertion-mediated upregulation confers a competitive advantage to transplanted hematopoietic cells, triggering clonal dominance or even leukemia. To study the molecular and functional response of primary murine hematopoietic progenitor cells to the activation of Evi1, we established an inducible lentiviral expression system. EVI1 had a biphasic effect with initial growth inhibition and retarded myeloid differentiation linked to enhanced survival of myeloblasts in long-term cultures. Gene expression microarray analysis revealed that within 24 h EVI1 upregulated 'stemness' genes characteristic for long-term hematopoietic stem cells (Aldh1a1, Abca1, Cdkn1b, Cdkn1c, Epcam, among others) but downregulated genes involved in DNA replication (Cyclins and their kinases, among others) and DNA repair (including Brca1, Brca2, Rad51). Cell cycle analysis demonstrated EVI1's anti-proliferative effect to be strictly dose-dependent with accumulation of cells in G0/G1, but preservation of a small fraction of long-term proliferating cells. Although confined to cultured cells, our study contributes to new hypotheses addressing the mechanisms and molecular targets involved in preleukemic clonal dominance or leukemic transformation by Evi1.

A novel 'sort-suicide' fusion gene vector for T cell manipulation.

Retroviral suicide gene vectors have successfully been used in clinical studies to improve the safety of adoptive immunotherapy with allogeneic T lymphocytes in the treatment of malignant and viral diseases. At the same time these studies have revealed several problems that are yet to be resolved including impaired T cell function due to long ex vivo culture. Here we present new retroviral vectors co-expressing truncated CD34, a gene transfer marker which ensures rapid enrichment of transduced cells using commercially available GMP-approved devices, and a splice-corrected variant of Herpes simplex virus thymidine kinase (scHSVtk) which confers high sensitivity to the prodrug ganciclovir. We show that a retroviral hybrid vector, MP71, based on the myeloproliferative sarcoma virus (MPSV) and the murine embryonic stem cell virus (MESV), encoding a tCD34/scHSVtk fusion protein mediates high expression of the 'sort-suicide' selection marker, thereby allowing for highly efficient purification and selective elimination of transduced cells.

Molecular cloning and characterization of the mouse tag7 gene encoding a novel cytokine.

Cloning of the mouse tag7 gene encoding a novel cytokine is described. The Tag7 protein consists of 182 amino acids. Genomic organization of the tag7 gene and its promoter region remind those of the genes of the tumor necrosis factor locus, although the tag7 gene is not linked to this locus. The gene is located on chromosome 7 at the area that corresponds to band 7A3, which has genetic linkage with lupus-like disease in mouse models. tag7 transcription is essential for lymphoid organs. It is also detected in certain areas of lungs, brain, and intestine and in some tumors. Tag7 protein is detectable in both cell-associated and soluble forms. The soluble form of Tag7 triggers apoptosis in mouse L929 cells in vitro and does not involve NF-kappaB activation. The relationship between Tag7 and tumor necrosis factor family of ligands is discussed.

Sequences of Saccharomyces cerevisiae 2 microns DNA improving plasmid partitioning in Hansenula polymorpha.

Insertion of the HindIII-PstI fragment of Saccharomyces cerevisiae 2 microns DNA into the Hansenula polymorpha replicative plasmids decreases plasmid copy number and ensures their distribution to daughter cells at both mitotic and meiotic cell divisions. This suggests that the stabilization effect is caused by the improvement of plasmid partitioning. Deletion analysis revealed that the region of 2 microns DNA sequence responsible for the increase of mitotic stability of H. polymorpha plasmids involves the 2 microns STB locus and adjoining region. Further analysis demonstrated that the stabilization effect may depend on the number of 24-28 bp imperfect repeats which were found in several copies in the STB locus and adjoining region.

[Cloning of the tag7 gene expressed in metastatic mouse tumors]. / Klonirovanie gena tag7, ékspressiruiushchegosia v v metastaziruiushchikh opukholiakh myshi.

Gene expression was compared in a metastatic (VMR-Liv) neoplastic cell line and a related nonmetastatic (VMR-O) neoplastic cell line by means of the differential display method. A fragment of cDNA corresponding to the tag7 gene, differentially expressed in the metastatic cell line, was isolated. The full-length tag7 cDNA was cloned and its nucleotide sequence was determined. No homology between the tag7 gene and known sequences was revealed. tag7 gene transcription was studied in some tumors, cell lines, and normal mouse organs.