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ABSTRACT: Fibronectin (FN) was pre-adsorbed onto physicochemically distinct substrates: polyethyleneglycol-based networks or tissue culture polystyrene (TCPS). The role of these substrates in modulating FN-mediated intracellular protein tyrosine phosphorylation and cell adhesion was analyzed with human primary blood derived macrophages. Although macrophage adhesion on both FN-pre-adsorbed TCPS and networks was similarly dependent on protein tyrosine kinase (PTK) and protein serine/threonine kinase (PSK), the compensation between PTK and PSK, and the involvement of signaling molecules (such as protein kinase C (PKC) isoforms) were distinct between the substrates. The pattern and the extent of tyrosine phosphorylation of several proteins (i.e. approximately 70, approximately 44, approximately 30kDa) were differentially regulated by PKCs. FN-derived peptides were employed to probe this material-dependency in macrophage adhesion and tyrosine phosphorylation. The PHSRN domain in the peptide sequence was predominant in mediating this substrate-dependent FN signaling event. We conclude that the tyrosine phosphorylation and the cross talk between PTK and PSK are modulated by FN and the substrate onto which the protein is adsorbed.
Biomaterials 04/2003; 24(7):1183-91. · 7.40 Impact Factor
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ABSTRACT: Fibronectin and RGD- and/or PHSRN-containing oligopeptides were preadsorbed onto physicochemically distinct substrata: polyethyleneglycol-based networks or tissue culture polystyrene (TCPS). The role of selected signaling kinases (namely protein tyrosine kinases, protein serine/threonine kinases, PI3-kinase, Src, and MAPK) in the adhesion of human primary blood-derived macrophages and the formation of foreign-body giant cells (FBGC) on these modified substrata was investigated. The involvement of individual intracellular signaling molecules in mediating macrophage adhesion dynamically varied with the culture time, substrate, and ligand. For example, fibronectin on TCPS or networks involved similar signaling events for macrophage adhesion; however, fibronectin and G(3)RGDG(6)PHSRNG, but not peptides with other RGD and/or PHSRN orientations, mediated similar signaling events for macrophage adhesion on TCPS but mediated different signaling events on networks. Depending on the substrate, a specific molecule (i.e., Src, protein kinase C) within the protein tyrosine kinase or protein serine/threonine kinase family was either an antagonist or agonist in mediating FBGC formation.
Journal of Biomedical Materials Research 01/2003; 62(4):478-87.
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ABSTRACT: Fibronectin and Arg-Gly-Asp (RGD)- and/or Pro-His-Ser-Arg-Asn (PHSRN)-containing oligopeptides were immobilized onto physicochemically distinct substrata: polyethyleneglycol-based networks or tissue culture polystyrene (TCPS). The role of selected signalling kinases in the adhesion of human primary blood-derived macrophages on these modified substrata was investigated. We demonstrated that the protein tyrosine kinase (PTK) or protein serine/threonine kinase (PSK) dependency and the PTK-PSK cross-talk compensation for macrophage adhesion varied dynamically with the substratum modification and the culture time. The inhibition of MAPK kinase (MAPKK) decreased macrophage adhesion on TCPS, whereas the inhibition of phosphoinositide-3 kinase (PI3 kinase) decreased macrophage adhesion on networks at 24 h. The PI3 kinase-protein kinase C (PKC)-MAPK cascade was involved in macrophage adhesion on fibronectin-preadsorbed TCPS or networks but not on fibronectin-grafted networks. This fibronectin-mediated adhesion signalling involved both RGD and PHSRN sequences in a form of G(3)RGDG(6)PHSRNG on TCPS but not on networks. Furthermore, G(3)RGDG(6)PHSRNG grafted onto networks evoked unique signalling in macrophage adhesion from that preadsorbed onto networks. Thus, macrophage adhesion and the role of selected signalling kinases were modulated by the substratum and the ligand conjugation method.
Cellular Signalling 03/2002; 14(2):145-52. · 4.06 Impact Factor
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ABSTRACT: Leukocytes are central in directing host inflammatory and immune processes; therefore, leukocyte response to biomaterials is extremely important. Although several leukocyte-derived molecules are used clinically, the long-term efficacy of treatments involving the systemic administration of these bioactive agents has yet to be demonstrated. Hence, the localized delivery of selected cytokines and growth factors produced by endogenous leukocytes is desirable and may have potential therapeutic values in the fundamental processes of tissue healing, growth regulation, and biocompatibility. The specificity and diversity of ligand-receptor interactions offer an attractive method in manipulating cellular behavior. Therefore, a more detailed understanding of the interplay between ligands and cell membrane receptors must be obtained. We designed interleukin-1-derived biomimetic agonists and antagonists to study and modulate leukocyte function in vitro. Selected agonists increased GM-CSF release by adherent human blood-derived macrophages in the presence of the natural IL1beta antagonist, namely IL1ra. Furthermore, IL1-derived biomimetic antagonists neutralized the ability of IL1beta in increasing the release of GM-CSF by adherent macrophages. We employed similar methodologies to elucidate the molecular mechanisms of integrin and extracellular matrix interaction in regulating leukocyte function. Oligopeptides were designed based on the functional structure of fibronectin and grafted on to a polymer network containing polyethyleneglycols. Macrophage adhesion was independent of the peptide identity that contained sequence RGD, PHSRN, PRRARV, or combinations thereof in an integrin-dependent fashion in vitro. However, integrin-dependent FBGC formation in vitro was highly dependent on both RGD and PHSRN in a single peptide formulation and with a specific orientation. From our intracellular signaling studies in vitro, protein tyrosine and serine/threonine kinases were found important in integrin signaling leading to macrophage adhesion mediated by fibronectin-integrin association. Furthermore, RGD and PHSRN appear to be significant in mediating this receptor-ligand association resulting in the necessary signaling characteristic for macrophage adhesion and the subsequent development. Our in vivo results showed that peptide identity played a minimal role in modulating the host inflammatory response and adherent macrophage density. RGD-containing peptides mediated rapid FBGC formation by 4 days of implantation by significantly increasing both the number of macrophages that participate in the cell fusion process and the rate of cell fusion. Both RGD and PHSRN domains were important in mediating FBGC formation at later implantation periods. These findings represent a mechanistic correlation between the role of protein functional architectures in ligand-receptor recognition and the post-ligation signaling events that control cellular behavior in vitro and in vivo.
Journal of Controlled Release 02/2002; 78(1-3):219-33. · 5.73 Impact Factor
