Midkine (MK) is a heparin-binding growth/differentiation factor with a molecular weight of 13 kDa, and is structurally unrelated to fibroblast growth factors (FGF). We studied MK-binding proteins in order to clarify the action mechanism of MK. A 100-kDa protein was identified in PYS-2, 3T3, and L cells as an MK-binding protein by a ligand blot experiment. This MK-binding protein was purified by affinity chromatography on an MK-agarose column followed by SDS polyacrylamide gel electrophoresis. Sequence determination of N-terminal 23 amino acid residues revealed that the MK-binding protein was nucleolin, a major nucleolar protein, which functions as a shuttle protein between the nucleus and cytoplasm and is located also on the cell surface. Heparin-binding growth associated molecule (HB-GAM), which has 50% sequence identity with MK, fused to maltose-binding protein also bound to nucleolin. On the other hand, basic FGF (bFGF) scarcely bound to nucleolin in the absence of heparin, while both MK and bFGF bound weakly to nucleolin in the presence of heparin. Nuclear localization of MK was shown in hemangioma cells by immunohistochemical staining. These findings supported the hypothesis that parts of the MK and HB-GAM are translocated to the nucleus after binding with nucleolin.
MK is a gene that is activated by retinoic acid in embryonal carcinoma (EC) cells and is expressed temporarily during the mid-gestation period of mouse embryogenesis. Midkine, the product of the gene is a novel heparin-binding growth/differentiation factor with neurite outgrowth and neurotrophic activities. The regulatory DNA element in the retinoic acid-induced expression of the MK gene has been investigated. The 1.9 kb 5'-flanking region of the MK gene can mediate retinoic acid-responsive gene expression in F9 and HM-1 EC cells. Analysis of this region by deletion mutagenesis in F9 EC cells shows that there is a retinoic acid-responsive enhancer (designated as REM1) around 900 bp upstream from the transcription start site. This enhancer is composed of two sequence elements, which are located between -1006 and -895 and between -901 and -794. The core element of the upstream region (-971 to -955), whose deletion abolished the retinoic acid responsiveness, contained a sequence highly homologous to a binding site for retinoic acid receptors. Binding of a retinoic acid receptor heterodimer to this core element was verified by gel shift assay. Thus, retinoic acid and the receptor complex can directly induce the expression of a growth/differentiation factor gene.
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