Preferential adhesion of neural stem cells to surfaces covered with a novel synthetic adhesive polypeptide (AK-cyclo[RGDfC]) provided a unique, rapid procedure for isolating radial glia-like cells from both fetal and adult rodent brain. Radial glia-like (RGl) neural stem/progenitor cells grew readily on the peptide-covered surfaces under serum-free culture conditions in the presence of EGF as the only growth factor supplement. Proliferating cells derived either from fetal (E 14.5) forebrain or from different regions of the adult brain maintained several radial glia-specific features including nestin, RC2 immunoreactivity and Pax6, Sox2, Blbp, Glast gene expression. Proliferating RGl cells were obtained also from non-neurogenic zones including the parenchyma of the adult cerebral cortex and dorsal midbrain. Continuous proliferation allowed isolating one-cell derived clones of radial glia-like cells. All clones generated neurons, astrocytes and oligodendrocytes under appropriate inducing conditions. Electrophysiological characterization indicated that passive conductance with large delayed rectifying potassium current might be a uniform feature of non-induced radial glia-like cells. Upon induction, all clones gave rise to GABAergic neurons. Significant differences were found, however, among the clones in the generation of glutamatergic and cathecolamine-synthesizing neurons and in the production of oligodendrocytes.
Cell adhesivity is a basic biological principle, which provides mechanisms for construction of multicellular organisms, tissue genesis, migration and individual cell survival. In vivo, the cell adhesive environment is provided by extracellular matrix molecules, neighboring cell surfaces and soluble factors delivered either by tissue cells or by blood circulation. The exact molecular composition of the microenvironment of a cell is not properly understood. The nondefined molecular composition of "native" adhesive components hinders their application when defined culture conditions are necessary, as, for an example, growing human cells for further clinical application. Applying large, substrate-coating molecules as backbones for carrying specific adhesive peptide motifs provides a relatively cheap, reproducible, and chemically defined group of synthetic adhesion molecules. Here, we report on the design, synthesis, and testing of a novel cyclic RGD-containing coating material, which promotes initial attachment, spreading, survival, and proliferation of a number of different cell types. The potent adhesive polypeptide-brush, composed of poly[Lys(DL-Ala(m))] branched chain polypeptide (AK) and multiple copies of cyclic(arginyl-glycyl-aspartyl-D-phenylalanyl-cysteine) pentapeptide prevents anoikis and supports cell attachment in the absence of serum or other biological additives. The defined conditions for cell maintenance make this material a promising candidate for coating artificial cell substrates even for therapeutic applications.
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