Dynamics, structure and assembly of the basement membrane in developing salivary glands revealed by an exogenous EGFP-tagged nidogen probe.

Most epithelial tissues rapidly become complex during embryonic development while being surrounded by the basement membrane (BM). Thus, the BM shape is thought to change dramatically as the epithelium grows, but the underlying mechanism is not yet clear. Nidogen-1 is ubiquitous in the BM and binds to various other BM components, including laminin and type IV collagen.

Downregulation of ten-eleven translocation-2 triggers epithelial differentiation during organogenesis.

DNA methylation of cytosine bases is a major epigenetic modification that regulates gene expression and vertebrate development. The ten-eleven translocation (TET) enzymes oxidize 5-methylcytosine (5mC) to 5-hydroxymethylcytosine (5hmC), and active DNA demethylation influences gene expression specific to each developmental stage, although recent reports have shown that TET also has a non-catalytic function. In fetal mice, the epithelium in the submandibular gland (SMG) buds as a derivative of the oral cavity at embryonic day 11 (E11) and, by E15, it begins to differentiate into the salivary epithelium, which expresses water-channel aquaporin 5 (AQP5).

Histamine depolarizes rat intracardiac ganglion neurons through the activation of TRPC non-selective cation channels.

The cardiac plexus, which contains parasympathetic ganglia, plays an important role in regulating cardiac function. Histamine is known to excite intracardiac ganglion neurons, but the underlying mechanism is obscure. In the present study, therefore, the effect of histamine on rat intracardiac ganglion neurons was investigated using perforated patch-clamp recordings.

Excitatory effect of bradykinin on intrinsic neurons of the rat heart.

The heart receives sympathetic and parasympathetic innervation through the intrinsic cardiac nervous system. Although bradykinin (BK) has negative inotropic and chronotropic properties of cardiac contraction, the direct effect of BK on the intrinsic neural network of the heart is still unclear. In the present study, the effect of BK on the intracardiac ganglion neurons isolated from rats was investigated using the perforated patch-clamp technique.

Soluble Lutheran/basal cell adhesion molecule is detectable in plasma of hepatocellular carcinoma patients and modulates cellular interaction with laminin-511 in vitro.

Lutheran (Lu), an immunoglobulin superfamily transmembrane receptor, is also known as basal cell adhesion molecule (B-CAM). Lu/B-CAM is a specific receptor for laminin α5, a subunit of laminin-511 (LM-511) that is a major component of basement membranes in various tissues. Our previous study showed that Lu/B-CAM was cleaved by MT1-MMP and released from cell surfaces.

IL-18 provided in dying bacterial-infected macrophages induces IFN-γ production in functional T-cell hybridoma B6HO3 through cell conjugates.

We have previously reported that the co-culture of functional T-cell hybridoma B6HO3 with dying J774 macrophage cells infected with Listeria monocytogenes (LM) results in the production of IFN-γ by B6HO3 cells. Here, we explore the mechanism underlying this phenomenon. We found that IFN-γ production was dependent on IL-18, but that the dying LM-infected macrophages produced no more than 100 pg/ml of IL-18, much less than the amount of IL-18 required for stimulating B6HO3 cells to produce IFN-γ.

COX-2 expression in stromal fibroblasts self-limits their numbers in lymph node inflammatory responses.

We previously reported the expression of cyclooxygenase (COX)-2 in draining lymph nodes during carrageenin-induced pleurisy of rats. Here, we analyzed histological and immunohistochemical characteristics of COX-2-expressing cells. After carrageenin administration into the pleural cavity of rats, parathymic lymph nodes were enlarged beginning at 8h and peaking from 24 to 48h.

Innate IFN-γ-producing cells in the spleen of mice early after Listeria monocytogenes infection: importance of microenvironment of the cells involved in the production of innate IFN-γ.

Production of innate interferon-γ (IFN-γ) is a crucial step in immunological defense against bacteria. However, there is little information regarding cellular mechanisms underlying IFN-γ production in vivo early after bacterial infection. Here we analyze innate IFN-γ production in the spleen of mice early after Listeria monocytogenes (LM) infection ex vivo by flow-cytometry and in situ by immunohistochemistry, and compare them with the IFN-γ-producing cells reported previously in our in vitro coculture system in which cell-cell interaction between lymphocytes and dying bacterial-infected macrophages is required for the production of IFN-γ.

Syndecan- and integrin-binding peptides synergistically accelerate cell adhesion.

Integrins and syndecans mediate cell adhesion to extracellular matrix and their synergistic cooperation is implicated in cell adhesion processes. We previously identified two active peptides, AG73 and EF1, from the laminin alpha1 chain LG4 module, that promote cell attachment through syndecan- and alpha2beta1 integrin-binding, respectively. Here, we examined time-dependent cell attachment on the mixed peptides AG73/EF1.

Amino acid sequence requirements of laminin beta1 chain peptide B133 (DISTKYFQMSLE) for amyloid-like fibril formation, syndecan binding, and neurite outgrowth promotion.

Peptide B133 (DSITKYFQMSLE), derived from mouse laminin beta1 chain (residues 1298-1309), promotes cell attachment, neurite outgrowth, and amyloid-like fibril formation. Previously, we showed that the N-terminal Asp-deleted peptide B133a (SITKYFQMSLE) promotes integrin alpha2beta1-mediated cell attachment and spreading but does not form amyloid-like fibrils, and that the C-terminal Glu-deleted peptide B133g (DSITKYFQMSL) attaches cells without cell spreading and forms amyloid-like fibrils. In this study, we further investigated the amino acid sequence requirements of B133 for biological function using a set of truncated and Ala-substituted peptides.

Cellular dynamics of epithelial clefting during branching morphogenesis of the mouse submandibular gland.

We cultured the rudimental submandibular gland (SMG) of mice with a non-cell-permeable fluorescent tracer, and observed cell behavior during epithelial branching morphogenesis using confocal time-lapse microscopy. We traced movements of individual cells as shadowgraph movies. Individual epithelial cells migrated dynamically but erratically.

B133 (DSITKYFQMSLE), a laminin beta1-derived peptide, contains distinct core sequences for both integrin alpha2beta1-mediated cell adhesion and amyloid-like fibril formation.

The B133 peptide (DSITKYFQMSLE, mouse laminin beta1 chain 1319-1330) promotes cell attachment, and forms amyloid-like fibrils. Here, we evaluated the active core sequences using B133 deletion peptides. B133a, lacking the N-terminal Asp residue, promoted cell spreading via integrin alpha2beta1, whereas B133g, lacking the C-terminal Glu residue, lost the activity.

A collagen-mimetic triple helical supramolecule that evokes integrin-dependent cell responses.

Collagen is an abundantly distributed extracellular matrix protein in mammalian bodies that maintains structural integrity of the organs and tissues. Besides its function as a structural protein, collagen has various biological functions which regulate cell adhesion, migration and differentiation. In order to develop totally synthetic collagen-surrogates, we recently reported a basic concept for preparing collagen-like triple helical supramolecules based on the self-assembly of staggered trimeric peptides with self-complementary shapes.

Biologically active sequences in the mouse laminin alpha3 chain G domain.

The laminin alpha3 chain is mainly expressed at the skin, and its C-terminal G domain has a critical role in multiple biological functions. We screened for biologically active sites on the mouse laminin alpha3 chain G domain using 107 synthetic peptides on coated plates and conjugated to Sepharose beads with HT1080 human fibrosarcoma cells, HaCaT human skin keratinocyte cells, and human dermal fibroblasts (HDFs). Eleven peptides exhibited cell attachment activity with respect to the peptide-coated plates and/or peptide-Sepharose beads.

A novel cell-adhesive scaffold material for delivering keratinocytes reduces granulation tissue in dermal wounds.

Novel peptide-conjugated chitosan membranes were fabricated and used to deliver keratinocytes to dermal wounds in mice. Three active peptides of 12 or 13 amino acids each, RLVSYNGIIFFLK (A5G27), ASKAIQVFLLAG (A5G33), and AGTFALRGDNPQG (A99) were selected from a cell-adhesive peptide library of laminin, a major constituent of basement membrane. The peptides were synthesized and coupled to chitosan membranes, and the resulting peptide-chitosan membranes were tested for keratinocyte attachment.

Mixed peptide-chitosan membranes to mimic the biological activities of a multifunctional laminin alpha1 chain LG4 module.

Laminin alpha1 chain LG4 module is multifunctional and interacts with syndecans and integrin alpha2beta1 via AG73 (RKRLQVQLSIRT) and EF-I (DYATLQLQEGRLHFMFDLG) sites, respectively. Here, we conjugated the AG73 and EF1zz (ATLQLQEGRLHFXFDLGKGR, X: Nle) peptides on a chitosan membrane in various ratios to develop an LG4 mimic biomaterial. The AG73-chitosan membrane promoted strong cell attachment with membrane ruffling and the EF1zz-chitosan membrane promoted integrin-mediated cell adhesion with well-organized actin stress fibers.

Rat pancreatic islet is formed by unification of multiple endocrine cell clusters.

The organogenesis of islets in rat pancreas was studied by three-dimensional reconstructions from serial section micrographs. On embryonic day (E) 12, an endocrine cluster consisting mainly of glucagon-expressing cells maintained connection with the pancreatic endoderm at several regions. On E15-E17, the cluster enlarged by fusion of newly formed buds.

Identification of multiple amyloidogenic sequences in laminin-1.

Amyloid fibril formation is associated with several pathologies, including Alzheimer's disease, Parkinson's disease, type II diabetes, and prion diseases. Recently, a relationship between basement membrane components and amyloid deposits has been reported. The basement membrane protein, laminin, may be involved in amyloid-related diseases, since laminin is present in amyloid plaques in Alzheimer's disease and binds to amyloid precursor protein.

Integrin-dependent cell behavior on ECM peptide-conjugated chitosan membranes.

Extracellular matrix (ECM) plays an important role in tissue regeneration by promoting cell adhesion, migration, proliferation, and differentiation. ECM mimetics are of importance for tissue engineering because of their functions as scaffolds for cells. Previously, we developed bioactive laminin-derived peptide-conjugated chitosan membranes and demonstrated their cell- and peptide-type specific functions.

Laminin peptide-conjugated chitosan membrane: Application for keratinocyte delivery in wounded skin.

Tissue engineering requires the delivery and survival of cells to organ sites needing repair. Previously, we showed that an active laminin peptide (AG73: RKR-LQVQLSIRT)-conjugated chitosan membrane promoted cell adhesion and spreading in vitro. Here, we seeded human keratinocytes onto AG73-chitosan membranes and found that nearly 80% of the cells were attached to the membranes within 2 h.

Bifunctional peptides derived from homologous loop regions in the laminin alpha chain LG4 modules interact with both alpha 2 beta 1 integrin and syndecan-2.

Laminin alpha chains show diverse biological functions in a chain-specific fashion. The laminin G-like modules (LG modules) of the laminin alpha chains consist of a 14-stranded beta-sheet sandwich structure with biologically active sequences found in the connecting loops. Previously, we reported that connecting loop regions between beta-strands E and F in the mouse laminin alpha chain LG4 modules exhibited chain-specific activities.

Salivary gland morphogenesis and basement membranes.

The basement membrane separates the epithelium from the surrounding mesenchyme and plays an essential role in the development of various epithelial-mesenchymal organs. Among these, the submandibular salivary gland (SMG) has been chosen to review the expression patterns and roles of the epithelial basement membrane and its components, in particular the laminins, during SMG morphogenesis. At the outset, a brief description of SMG development is provided with special reference to changes in the epithelial architecture and the epithelial basement membrane.