The Oncoprotein EVI1 and the DNA Methyltransferase Dnmt3 Co-Operate in Binding and De Novo Methylation of Target DNA

EVI1 has pleiotropic functions during murine embryogenesis and its targeted disruption leads to prenatal death by severely affecting the development of virtually all embryonic organs. However, its functions in adult tissues are still unclear. When inappropriately expressed, EVI1 becomes one of the most aggressive oncogenes associated with human hematopoietic and solid cancers. The mechanisms by which EVI1 transforms normal cells are unknown, but we showed recently that EVI1 indirectly upregulates self-renewal and cell-cycling genes by inappropriate methylation of CpG dinucleotides in the regulatory regions of microRNA-124-3 (miR-124-3), leading to the repression of this small gene that controls normal differentiation and cell cycling of somatic cells. We used the regulatory regions of miR-124-3 as a read-out system to investigate how EVI1 induces de novo methylation of DNA. Here we show that EVI1 physically interacts with DNA methyltransferases 3a and 3b (Dnmt3a/b), which are the only de novo DNA methyltransferases identified to date in mouse and man, and that it forms an enzymatically active protein complex that induces de novo DNA methylation in vitro. This protein complex targets and binds to a precise region of miR-124-3 that is necessary for repression of a reporter gene by EVI1. Based on our findings, we propose that in cooperation with Dnmt3a/b EVI1 regulates the methylation of DNA as a sequence-specific mediator of de novo DNA methylation and that inappropriate EVI1 expression contributes to carcinogenesis through improper DNA methylation

A glycosylated recombinant human granulocyte colony stimulating factor produced in a novel protein production system (AVI-014) in healthy subjects: a first-in human, single dose, controlled study

BACKGROUND: AVI-014 is an egg white-derived, recombinant, human granulocyte colony-stimulating factor (G-CSF). This healthy volunteer study is the first human investigation of AVI-014. METHODS: 24 male and female subjects received a single subcutaneous injection of AVI-014 at 4 or 8 mcg/kg. 16 control subjects received 4 or 8 mcg/kg of filgrastim (Neupogen, Amgen) in a partially blinded, parallel fashion. RESULTS: The Geometric Mean Ratio (GMR) (90% CI) of 4 mcg/kg AVI-014/filgrastim AUC(0-72 hr) was 1.00 (0.76, 1.31) and Cmax was 0.86 (0.66, 1.13). At the 8 mcg/kg dose, the AUC(0-72) GMR was 0.89 (0.69, 1.14) and Cmax was 0.76 (0.58, 0.98). A priori pharmacokinetic bioequivalence was defined as the 90% CI of the GMR bounded by 0.8-1.25. Both the white blood cell and absolute neutrophil count area under the % increase curve AUC(0-9 days) and Cmax (maximal % increase from baseline)GMR at 4 and 8 mcg/kg fell within the 0.5-2.0 a priori bound set for pharmacodynamic bioequivalence. The CD 34+ % increase curve AUC(0-9 days) and Cmax GMR for both doses was approximately 1, but 90% confidence intervals were large due to inherent variance, and this measure did not meet pharmacodynamic bioequivalence. AVI-014 demonstrated a side effect profile similar to that of filgrastim. CONCLUSION: AVI-014 has safety, pharmacokinetic, and pharmacodynamic properties comparable to filgrastim at an equal dose in healthy volunteers. These findings support further investigation in AVI-014

Structure-activity analysis of C-terminal endothelin analogues

Several synthetic endothelin (ET) analogues of the C-terminal ET hexapeptide (ET16-21) were analyzed by radio-receptor competition binding assays and biologic activity using both ETA and ETB receptor subtypes. In addition, we produced a hybridoma monoclonal antibody, anti-ET15-21, that appeared to crossreact with the entire ET molecule and was able to neutralize its biologic activity. Antibody binding was measured with competition enzyme-linked immunosorbent assays and a surface plasmon resonance-based biosensor (BIA technology). The ET16-21 moiety was modified with systematic replacement of each residue by alanine (Ala-scan). Whereas the C-terminal residues (Asp(18), Ile(20), and particularly Trp(21)) were very important for both receptor binding and immunologic activity, Ala substitution in positions 16, 17, and 19 hardly affected such activities. Analysis of another series of synthetic ET16-21 analogues with the His(16) residue replaced by a non-amino-acidic block confirmed that the last two C-terminal residues are essential for receptor and antibody binding, whereas the central region of this hexapeptide is much more tolerant to modification. However, a critical steric conformation of the active hexapeptide is necessary

NATURALLY OCCURRING AND THERAPY-INDUCED ANTIBODIES TO HUMAN GRANULOCYTE COLONY-STIMULATING FACTOR (G-CSF) IN HUMAN SERUM

Sera were obtained from two groups of patients. Group A included 7 patients with low-grade non-Hodgkin's lymphoma treated with three or more cycles of standard-dose chemotherapy and recombinant human granulocyte-colony stimu- lating factor (rhG-CSF). The cytokine was administered to half the patients after the ®rst chemotherapy cycle and to the other half after the second according to a randomized design and then to all patients from the third chemotherapy cycle on, until documented hemopoietic reconstitution. Group B included 3 patients with high-grade non-Hodgkin's lymphoma, 1 patient with resistant Hodgkin's disease, and 1 patient with multiple myeloma who received high-dose chemotherapy and rhG-CSF. Anti-G-CSF antibodies were detected in the sera of 4 patients. Both immunoglobulin IgM and IgG antibodies were detected at low levels in pretreatment sera from one group A patient. IgG antibody titers increased markedly during the ®rst and second periods of G-CSF administration. IgG class antibodies developed in 3 group B patients during the ®rst course of rhG-CSF administration. Circulating anti-G-CSF antibodies did not seem to affect hematological recovery. Low levels of anti-G-CSF antibodies were also detected in sera (15/135) from different healthy adults and in sera (5/40) from umbilical cord blood. Saturable antibody binding and competition enzyme-linked immunosorbent assay (ELISA) and immunoblotting con®rmed antibody speci®city

Natural and therapy-induced anti-GM-CSF and anti-G-CSF antibodies in human serum

Serum samples were obtained from patients with lymphoid and plasma cell malignancies who received after chemotherapy human recombinant GM-CSF or G-CSF. Sera from some patients revealed the presence of anti-cytokine antibodies, particularly after repetitive cytokine injections. Antibody Fab binding in a saturable manner by ELISA and Western immuno-blotting confirmed antibody specificity. Anti-cytokine antibodies were detected before the exogenous cytokine injections in some patients, but increasing antibody levels were found after one or subsequent treatments. Low levels of anti-GM-CSF and anti-G-CSF antibodies were also detected in a relatively large proportion (about 10-30%) of normal sera from different adult healthy volunteers who had never been treated before with exologous cytokines as well as from cord blood. EBV-immortalized cord blood derived B-cell cultures were also found to produce anti GM-CSF and/or anti-G-CSF antibodies with high frequency