Novel role of interleukin 7 in myelopoiesis: stimulation of primitive murine hematopoietic progenitor cells.

Interleukin 7 (IL-7) has been demonstrated to be an important regulator of the growth of B and T cell precursors as well as mature T cells, whereas IL-7 has been reported to have no direct myeloproliferative effects. Here we show that IL-7 potently and directly enhances colony stimulating factor-induced myeloid colony formation from Lin-Sca-1+ murine bone marrow progenitor cells, increasing the cloning frequency up to ninefold and cell numbers up to 50-fold, without affecting their ability to differentiate along the myeloid lineages In contrast, IL-7 has no effect on proliferation of committed Lin- myeloid progenitors. Thus, in addition to its established lymphopoietic potential, this study implicates a novel role of IL-7 in early myelopoiesis.

Constitutive expression of c-myc does not relieve cAMP-mediated growth arrest in human lymphoid Reh cells.

The Reh cell system is suitable for evaluating events important for control of proliferation independently of mechanisms involved in differentiation, as Reh cells are unable to differentiate. In the human pre-B cell line Reh, activation of adenylate cyclase by forskolin induces a five to tenfold rapid, transient down-regulation of steady-state c-myc RNA within 4 hours. Concurrently, the cells are strongly growth arrested in the G1 phase of the cell cycle. To clarify if the observed growth arrest could be relieved by constitutive expression of c-myc, an exogenous c-myc gene under constitutive promoter control was introduced into Reh cells by electroporation. The c-myc-expressing construct pDMmycHyg contained human c-myc exons 2 and 3 driven by the Mo-MLV LTR and conferred hygromycin resistance. Exogenous c-myc RNA transcripts and protein were constitutively expressed in the transfected clones at levels roughly twice as high as the level in nontransfected cells. Total c-myc protein levels were unchanged upon treatment of transfected clones with forskolin. Yet, the transfected cells were not released from growth arrest. Furthermore, the transfected Reh cells did not differentiate upon forskolin treatment. Constitutive overexpression of c-myc is therefore not sufficient for relieving forskolin-mediated effects on growth arrest in Reh cells.

Vitamin A is a key regulator for cell growth, cytokine production, and differentiation in normal B cells.

In the present paper we demonstrate that retinol-retinol-binding protein and chylomicron remnant retinyl esters in concentrations normally found in human plasma inhibit growth of normal human B lymphocytes. Physiological concentrations of retinoic acid (about 30 nM) were less active than physiological concentrations of retinol (about 3 microM). Pharmacological concentrations of retinol and retinoic acid were more active than the concentrations normally found in plasma. Retinol (3 microM) inhibited anti-IgM-mediated DNA synthesis as measured by [3H]thymidine uptake at 72 h by 78%. Furthermore, we found that the cells were blocked in the mid-G1 phase of the cell cycle. Thus, neither MYC up-regulation measured at 3 h nor the expression of the early activation antigen 4F2 was reduced by retinol, whereas the late activation markers (transferrin receptor expression and actinomycin D staining at 48 h of stimulation) were markedly inhibited. Retinol reduced the interleukin 6 production induced by anti-IgM and interleukin 4 after 48 h, whereas the induction of interleukin 6 and tumor necrosis factor by O-tetradecanoylphorbol-13-acetate and ionomycin was less affected. We also noted that the retinoids reduced the formation of plaque-forming cells (i.e. Ig synthesis). These data imply that vitamin A present in human plasma is a normal modulator of B cell function.

Interleukin-7 differentiates a subgroup of acute lymphoblastic leukemias.

The bone marrow stromal cell-derived growth factor interleukin-7 (IL-7) is known to stimulate growth of normal human B-cell precursors. In the present report, we have examined the effect of IL-7 on neoplastic B-cell precursors. Leukemic cells from 20 patients with common acute lymphoblastic leukemia (ALL) were highly purified by removing contaminating T cells and monocytes by rosetting with immunomagnetic beads. IL-7 markedly reduced the DNA synthesis in leukemic cells from three patients. This inhibition of DNA synthesis was accompanied by maturation of the cells, as demonstrated by the induced expression of the differentiation antigens CD19, CD20, CDw75, and surface mu-chain, and a decreased expression of terminal deoxynucleotidyl transferase. By examining G1 parameters, such as MYC, 4F2, and transferrin-receptor levels analyzed by flow cytometry as well as RNA and the cell cycle regulated antigen Ki67, it appeared that the cells were inhibited late in G1. Leukemic cells from the majority of the cases (12 of the 20 patients) responded to IL-7 with enhanced DNA synthesis without detectable maturation, as has been reported for their normal counterparts. Low molecular weight B-cell growth factor greatly potentiated the IL-7-induced growth stimulation of these cells. Thus, we have shown that IL-7 is capable of inhibiting proliferation of leukemic cells isolated from a subgroup of ALLs, and that this growth inhibition is accompanied by maturation of the cells.

Immunological typing of acute leukaemias by rosetting with immunomagnetic beads: comparison with immunofluorescence staining.

Immunological phenotyping of acute leukaemias is important for a more precise diagnosis with respect to both cell lineage and maturation level. We have developed a rapid and reliable method for immunophenotyping, based on the use of magnetic monodisperse beads coated with monoclonal antibodies. After only a 10-min incubation of immunomagnetic beads (IMB) with mononuclear cells isolated from bone marrow or peripheral blood, the percentage of rosetting cells can be counted in the microscope. A panel of 16 monoclonal antibodies against haematopoietic cell-surface antigens was applied on 29 cases of acute myelogenic (AML) or lymphocytic (ALL) leukaemias, in order to compare immunological typing by immunomagnetic beads with immunofluorescence staining (IF). In all the cases tested, the two methods showed a virtually identical antigen distribution. The procedure described offers the advantages of being fast and simple to perform. Moreover, it has a high specificity and is easy to interpret in cases with low antigen expression.