Norio Nishi scite author profile

Laminin ␣ chains (␣ 1 -␣ 5 chains) have diverse chainspecific biological functions. The LG4 modules of laminin ␣ chains consist of a 14-stranded ␤-sheet (A-N) sandwich structure. Several biologically active sequences have been identified in the connecting loop regions. Here, we evaluated the biological activities of the loop regions of the E and F strands in the LG4 modules using five homologous peptides from each of the mouse ␣ chains (EF-1: DYATLQLQEGRLHFMFDLG, ␣ 1 chain 2747-2765; EF-2: DFGTVQLRNGFPFFSYDLG, ␣ 2 chain 2808 -2826; EF-3: RDSFVALYLSEGHVIFALG, ␣ 3 chain 2266 -2284; EF-4: DFMTLFLAHGRLVFMFNVG, ␣ 4 chain 1511-1529; EF-5: SPSLVLFLNHGHFVAQTEGP, ␣ 5 chain 3304 -3323). These homologous peptides showed chainspecific cell attachment and neurite outgrowth activities. Well organized actin stress fibers and focal contacts with vinculin accumulation were observed in fibroblasts attached on EF-1, whereas fibroblasts on EF-2 and EF-4 showed filopodia with ruffling. Fibroblast attachment to EF-2 and EF-4 was mediated by syndecan-2. In contrast, EF-1 promoted ␣ 2 ␤ 1 integrin-mediated fibroblast attachment and inhibited fibroblast attachment to a recombinant laminin ␣ 1 chain LG4-5. The receptors for EF-3 and EF-5 are unknown. Further, when the active core sequence of EF-1 was cyclized, utilizing two additional cysteine residues at both the N and C termini through a disulfide bridge, the cyclic peptide significantly enhanced integrin-mediated cell attachment. These results indicate that integrin-mediated cell attachment to the EF-1 sequence is conformation-dependent and that the loop structure is important for the activity. The homologous peptides, which promote either integrin-or syndecan-mediated cell attachment, may be useful for understanding the cell type-and chain-specific biological activities of the laminins.

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Laminin‐1 peptide‐conjugated chitosan membranes as a novel approach for cell engineering

Mochizuki

et al. 2003

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Laminin, a major component of the basement membrane, has diverse biological activities. Recently, we identified various biologically active sequences on laminin-1 by using a large set of synthetic peptides. Chitosan, a polysaccharide, is biodegradable and has been used as a biomaterial. Here, we conjugated several biologically active laminin peptides onto chitosan membranes and measured the cell attachment activity of peptide-conjugated chitosan membranes with various cell types. The active laminin peptide-conjugated chitosan membranes promoted cell attachment with cell type specificity. A99 (AGTFALRGDNPQG)-chitosan membrane promoted cell attachment with well-organized actin stress fibers. This adhesion was inhibited by EDTA but not by heparin. AG73 (RKRLQVQLSIRT)-chitosan membrane promoted cell attachment with filopodia formation, and this adhesion was inhibited by heparin but not by EDTA. These data suggest that the A99-chitosan membrane interacted with an integrin cellular receptor and that the AG73-chitosan membrane promoted proteoglycan-mediated cell attachment, as previously reported. Furthermore, both AG73-chitosan and A99-chitosan membranes effectively promoted neurite outgrowth with PC12 rat pheochromocytoma cells. We conclude that conjugation on a chitosan membrane is applicable for testing quantitatively the biological activity of synthetic peptides and that these constructs have a potential ability to serve as bioadhesive materials for tissue regeneration and engineering.

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Preparation and Characterization of DNA Films Induced by UV Irradiation

et al. 2002

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Large amounts of DNA‐enriched materials, such as salmon milts and shellfish gonads, are discarded as industrial waste. We have been able to convert the discarded DNA to a useful material by preparing novel DNA films by UV irradiation. When DNA films were irradiated with UV light, the molecular weight of DNA was greatly increased. The reaction was inhibited by addition of the radical scavenger galvinoxyl suggesting that the DNA polymerization with UV irradiation proceeded by a radical reaction. Although this UV‐irradiated DNA film was water‐insoluble and resistant to hydrolysis by nuclease, the structure of the DNA film in water was similar to non‐irradiated DNA and maintained B‐form structure. In addition, the UV‐irradiated DNA film could effectively accumulate and condense harmful DNA‐intercalating compounds, such as ethidium bromide and acridine orange, from diluted aqueous solutions. The binding constant and exclusion number of ethidium bromide for UV‐irradiated DNA were determined to be 6.8±0.3×104 M−1 and 1.6±0.2, respectively; these values are consisted with reported results for non‐irradiated DNA. The UV‐irradiated DNA films have potential uses as a biomaterial filter for the removal of harmful DNA intercalating compounds.

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Syndecan Binding Sites in the Laminin α1 Chain G Domain

et al. 2003

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The laminin alpha1 chain G domain has multiple biological activities. Previously, we identified cell binding sequences in the laminin alpha1 chain G domain by screening 113 synthetic peptide-polystyrene beads for cell attachment activity. Here, we have used a recombinant protein of the laminin alpha1 G domain (rec-alpha1G) and a large set of synthetic peptides to further identify and characterize heparin, cell, and syndecan-4 binding sites in the laminin alpha1 chain G domain. The rec-alpha1G protein promoted both cell attachment and heparin binding (K(D) = 19 nM). Cell attachment to the rec-alpha1G protein was inhibited 60% by heparin and 30% by EDTA. The heparin binding sites were identified by competing heparin binding to the rec-alpha1G protein with 110 synthetic peptides in solution. Only two peptides, AG73 (IC(50) = 147 microM) and AG75 (IC(50) = 206 microM), inhibited heparin binding to rec-alpha1G. When the peptides were compared in a solid-phase heparin binding assay, AG73 showed more heparin binding than AG75. AG73 also inhibited fibroblast attachment to the rec-alpha1G protein, but AG75 did not. Cell attachment to the peptides was studied using peptide-coated plates and peptide-conjugated sepharose beads. AG73 promoted cell attachment in both assays, but AG75 only showed cell attachment activity in the bead assay. Additionally, AG73, but not AG75, inhibited branching morphogenesis of mouse submandibular glands in organ culture. Furthermore, the rec-alpha1G protein bound syndecan-4, and both AG73 and AG75 inhibited this binding. These results suggest that the AG73 and AG75 sites are important for heparin and syndecan-4 binding in the laminin alpha1 chain G domain. These sites may play a critical role in the diverse biological activities involving heparin and syndecan-4 binding.

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Norio Nishi

Biological Activities of Homologous Loop Regions in the Laminin α Chain G Domains

Laminin‐1 peptide‐conjugated chitosan membranes as a novel approach for cell engineering

Preparation and Characterization of DNA Films Induced by UV Irradiation

Syndecan Binding Sites in the Laminin α1 Chain G Domain

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