Antony C. Cambareri

Isoforms of c-KIT differ in activation of signalling pathways and transformation of NIH3T3 fibroblasts.

Alternate splicing of mRNA encoding c-KIT results in isoforms which differ in the presence or absence of four amino acids (GNNK) in the juxtamembrane region of the extracellular domain of the receptor. In this study we show that these isoforms of human c-KIT, expressed at similar levels in NIH3T3 cells, display differential effects on various attributes of transformation. The GNNK− isoform strongly promoted anchorage independent growth (colony formation in semi-solid medium), loss of contact inhibition (focus formation), and led to tumorigenicity in nude mice. In contrast, the GNNK+ isoform elicited colony formation but relatively poor focus formation and no tumorigenicity. Saturation binding analysis indicated that the isoforms do not differ significantly in their affinity for the KIT ligand, Steel Factor (SLF). Negligible ligand-independent receptor phosphorylation was observed in either case but, after ligand stimulation, the GNNK− isoform displayed more rapid and extensive tyrosine autophosphorylation and faster internalization. Both isoforms recruited the p85 subunit of phosphatidylinositol 3-kinase and led to similar phosphorylation of its downstream effector c-Akt, but the GNNK− isoform gave rise to more MAP kinase phosphorylation. Thus the c-KIT isoforms display different signalling characteristics and have different transforming activity in NIH3T3 cells.

Effects of Mutant c-Kit in Early Myeloid Cells

Activating mutations in c-Kit, the receptor for Stem Cell Factor (SCF), have been identified in dysplasias and leukaemias of the mast cell lineage and have been shown to contribute to transformation in model systems. Early myeloid cells also normally express c-Kit and their survival, proliferation and differentiation is promoted by SCE It might therefore be expected that c-Kit mutations could also be involved in some acute and/or chronic myeloid leukaemias. We have found that mutant c-Kit (and normal c-Kit in the presence of SCF) provides a strong differentiation stimulus in normal and immortalised murine early myeloid cells. Since maturation of haemopoietic cells, with the exception of mast cells, results in down-regulation of c-Kit expression, the transforming effects of mutant receptor may be self-limiting in most lineages. This is consistent with the observation that multipotential progenitor cells from some patients with systemic mastocytosis express mutant c-Kit. However, c-Kit mutations have been observed in a few cases of myelodysplastic syndromes or AML without mast cell features. Oncogenesis involves multiple genetic changes and the phenotype of malignant haemopoietic cells expressing mutant c-Kit may be influenced by co-oncogenic events. For example mutations blocking the differentiative effect of mutant c-Kit might result in AML rather than mastocytosis. Thus the extent to which c-Kit mutations contribute to malignancies of early myeloid phenotype remains unknown, and resolution of this issue is complicated by the heterogeneity of this family of diseases.

A monoclonal antibody to a human mast cell/ myeloid leukaemia-specific antigen binds to normal haemopoietic progenitor cells and inhibits colony formation in vitro

An antigen identified by murine monoclonal antibody YB5.B8 has previously been detected only on acute non-lymphoblastic leukaemia (ANLL) cells and tissue mast cells. We now report that the YB5.B8 antigen is present on a minor population (up to 3%) of normal bone marrow mononuclear cells which overlaps the set of progenitor cells capable of forming haemopoietic colonies in vitro. The results indicate that the antigen is a normal haemopoietic progenitor cell marker which is selectively retained on mast cells during maturation, and that leukaemias which express the antigen are not necessarily committed to the mast cell lineage. Furthermore, the antibody was capable of partially inhibiting the formation of haemopoietic colonies in vitro, indicating an important functional role for the antigen. This is consistent with the observation, reported in the accompanying paper, that expression of the YB5.B8 antigen is strongly correlated with poor response to therapy in patients with ANLL.

Transformation of NIH3T3 fibroblasts by the c-Kit receptor tyrosine kinase: effect of receptor density and ligand-requirement

Ectopic expression of the normal murine receptor tyrosine kinase, c-Kit, in NIH3T3 cells induced many phenotypic changes characteristic of transformation including anchorage-independent growth, focus formation and tumorigenicity in nude mice. Although transformation was largely dependent on the presence of recombinant murine Steel Factor (SLF), the ligand to the c-Kit receptor, anchorage independent growth did occur at a low frequency in the absence of added factor, and this could not be inhibited by neutralising antibodies or by SLF anti-sense mRNA. Clones from factor-independent colonies in semi-solid agar displayed a narrow range of c-Kit surface protein levels (4.3 – 6.4×104 receptors/cell) which was relatively high compared with the pool from which they were derived. Analysis of a larger series of random clones derived from adherent cultures expressing different levels of c-Kit demonstrated a positive correlation between SLF-dependent, anchorage-independent growth and c-Kit protein and mRNA expression levels (respectively, RS=0.58, P<0.01; and RS=0.53, P<0.01) with consistent colony formation observed with clones having >2.5×104 receptors/cell. Interestingly, two of the three clones expressing the highest levels of c-Kit protein and mRNA produced few or no colonies in the presence or absence of SLF. Sequential over-expression of human c-KIT in NIH3T3 cells using a dihydrofolate reductase (DHFR)-encoding vector and gene co-amplification through methotrexate selection, which resulted in pools expressing up to 1.5×105 receptors/cell, confirmed that high receptor densities resulted in a decrease in colony numbers. Thus, analysis of clonal and selected populations has indicated that an optimal level of c-Kit is required for transformation of NIH3T3 cells in the presence of SLF, and that some ligand-independent transformation occurs.

The murine monoclonal antibody, 14A2.H1, identifies a novel platelet surface antigen.

Summary A murine monoclonal antibody 14A2.H1, raised against acute myeloid leukaemia cells, identifies a previously undescribed 27 kDa platelet surface glycoprotein which is expressed at low copy number (103/platelet). MAb 14A2.H1 caused aggregation of platelets which was dependent on FcγRII. Binding of the antibody to platelets was not altered by activation by thrombin or phorbol ester. In haemopoietic cell populations the antibody bound to megakaryocytes, monocytes (weakly), several myeloid leukaemic cell lines and fresh myeloid leukaemic blasts from some patients. Lymphocytes, lymphoid cell lines, neutrophils and haemopoietic progenitor cells were negative. Expression of the antigen was not restricted to haemopoietic cells as epithelial cells in tonsillar crypts and endothelial cells were positive.

A monoclonal antibody that inhibits the action of GM-CSF on normal but not leukaemic progenitors

Monoclonal antibody YB5.B8 was previously shown to inhibit haemopoietic colony formation in response to a complex growth factor supplement in vitro (Cambareri A. C., Ashman L. K., Cole S. R. & Lyons A. B. (1988), Leukemia Res. 12, 929). We now report studies of the effect of the antibody on colony formation by normal human bone marrow cells in response to recombinant human colony-stimulating factors GM-CSF, G-CSF and IL-3. MAb YB5.B8 significantly reduced the yield of colonies of all types examined (granulocyte-macrophage, granulocyte, macrophage and eosinophil) in response to GM-CSF but not to IL-3 or G-CSF. However, MAb YB5.B8 failed to influence the proliferation of the myelomonocytic leukaemia cell line RC-2A in response to GM-CSF, G-CSF or IL-3. Direct binding studies demonstrated the presence of low numbers of receptors for GM-CSF on RC-2A cells, however, the binding of this cytokine was not influenced by co- and/or pre-incubation with MAb YB5.B8. Therefore the antigen identified by YB5.B8 is probably not a receptor for GM-CSF and may indirectly influence the response of normal haemopoietic progenitors to this cytokine.