A microtubule‐LUZP1 association around tight junction promotes epithelial cell apical constriction

Apical constriction is critical for epithelial morphogenesis, including neural tube formation. Vertebrate apical constriction is induced by di‐phosphorylated myosin light chain (ppMLC)‐driven contraction of actomyosin‐based circumferential rings (CRs), also known as perijunctional actomyosin rings, around apical junctional complexes (AJCs), mainly consisting of tight junctions (TJs) and adherens junctions (AJs). Here, we revealed a ppMLC‐triggered system at TJ‐associated CRs for vertebrate apical constriction involving microtubules, LUZP1, and myosin phosphatase. We first identified LUZP1 via unbiased screening of microtubule‐associated proteins in the AJC‐enriched fraction. In cultured epithelial cells, LUZP1 was found localized at TJ‐, but not at AJ‐, associated CRs, and LUZP1 knockout resulted in apical constriction defects with a significant reduction in ppMLC levels within CRs. A series of assays revealed that ppMLC promotes the recruitment of LUZP1 to TJ‐associated CRs, where LUZP1 spatiotemporally inhibits myosin phosphatase in a microtubule‐facilitated manner. Our results uncovered a hitherto unknown microtubule‐LUZP1 association at TJ‐associated CRs that inhibits myosin phosphatase, contributing significantly to the understanding of vertebrate apical constriction.     

Administration of fibroblast growth factor 2 in combination with bone marrow transplantation synergistically improves carbon-tetrachloride-induced liver fibrosis in mice

We previously reported that fibroblast growth factor 2 (FGF2) facilitated the differentiation of transplanted bone marrow cells (BMCs) into hepatocytes. Our earlier study also demonstrated that administration of FGF2 in combination with bone marrow transplantation (BMT) synergistically activated tumor necrosis factor-alpha signaling and significantly improved liver function and prognosis more than BMT alone. However, the way that it affected the extracellular matrix remained unclear. Here, we investigated the effect of FGF2 treatment together with BMT on liver fibrosis in mice treated with carbon tetrachloride (CCl₄). Transplantation of BMCs and concurrent treatment with FGF2 caused a statistically significant reduction in CCl₄-induced liver fibrosis that was accompanied by strong expression of matrix metalloproteinase 9 as compared with FGF2-only treatment or BMT alone. Moreover, in this process, the proliferation of bone-marrow-derived cells was accelerated without causing apoptosis. Thus, the administration of FGF2 in combination with BMT synergistically improves CCl₄-induced liver fibrosis in mice. This treatment has the potential of being an effective therapy for patients with liver cirrhosis. This study was supported by Grants-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (nos. 16390211 and 16590597) and for translational research from the Ministry of Health, Labor and Welfare (H-trans-5 and H17-Special-015).     

Occludin Phosphorylation and Ubiquitination Regulate Tight Junction Trafficking and Vascular Endothelial Growth Factor-induced Permeability

Vascular endothelial growth factor (VEGF) alters tight junctions (TJs) and promotes vascular permeability in many retinal and brain diseases. However, the molecular mechanisms of barrier regulation are poorly understood. Here we demonstrate that occludin phosphorylation and ubiquitination regulate VEGF-induced TJ protein trafficking and concomitant vascular permeability. VEGF treatment induced TJ fragmentation and occludin trafficking from the cell border to early and late endosomes, concomitant with increased occludin phosphorylation on Ser-490 and ubiquitination. Furthermore, both co-immunoprecipitation and immunocytochemistry demonstrated that VEGF treatment increased the interaction between occludin and modulators of intracellular trafficking that contain the ubiquitin interacting motif, including Epsin-1, epidermal growth factor receptor pathway substrate 15 (Eps15), and hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs). Inhibiting occludin phosphorylation by mutating Ser-490 to Ala suppressed VEGF-induced ubiquitination, inhibited trafficking of TJ proteins, and prevented the increase in endothelial permeability. In addition, an occludin-ubiquitin chimera disrupted TJs and increased permeability without VEGF. These data demonstrate a novel mechanism of VEGF-induced occludin phosphorylation and ubiquitination that contributes to TJ trafficking and subsequent vascular permeability.Under normal physiological conditions the blood-brain barrier and blood-retinal barrier regulate the transport of water, ions, amino acids, and waste products, between the neural parenchyma and blood (1). A high degree of well developed tight junctions (TJs)² in the vascular endothelium, in association with adherens junctions, contribute to both the blood-brain and blood-retinal barriers (2). Accumulating evidence suggests that a number of pathological eye diseases such as diabetes, retinopathy of prematurity, age-related macular degeneration, inflammation, and infectious diseases disrupt the TJs altering the blood-retinal barrier. Common mediators of vascular permeability and TJ deregulation are growth factors and cytokines that may induce macular edema and lead to loss of vision (1). Vascular endothelial growth factor (VEGF), in particular, induces vascular permeability and stimulates angiogenesis, contributing to disease pathogenesis in diabetic retinopathy and retinopathy of prematurity (3). VEGF also contributes to blood-brain barrier disruption with subsequent edema and angiogenesis in brain tumors and stroke (4). Recent advances in biomedical research have provided therapeutic approaches to neutralize VEGF; however, these strategies have not yet demonstrated effective resolution of diabetic macular edema (5, 6).TJs control the paracellular flux of solutes and fluids across the blood-brain and blood-retinal barriers. Several transmembrane proteins including occludin, tricellulin, the claudin family, and junction adhesion molecules are thought to confer adhesion to the TJ barrier and to be organized by members of the zonula occludens family (ZO-1, -2, or -3) (7–9). Experimental evidence has established that the claudins confer barrier properties and claudin-5 specifically contributes to the vascular component of the blood-brain barrier demonstrated by gene deletion studies (10). In contrast, the function of occludin in paracellular flux has remained less clear. Mice with occludin gene deletion continue to form TJs in gut epithelia with normal barrier properties (11). However, studies have also demonstrated that diabetes reduces occludin content in rat retina (12) and alters its distribution from continuous cell border localization to intracellular puncta (13). These observations suggest that the intracellular trafficking of TJ proteins promotes paracellular flux and vascular permeability in diabetic animals (12, 14).VEGF was originally identified as a vascular permeability factor as well as a pro-angiogenic growth factor (15, 16). Both biological effects exacerbate the pathology of retinal vascular diseases (17), and they are mediated via intracellular signal transduction, especially based on the phosphorylation of Src, protein kinase C, and so on (18). Additionally, VEGF treatment and diabetes induce occludin phosphorylation in rat retinal vasculature and endothelial cell culture coincident with increased permeability (19). Recently, using mass spectrometry five occludin phosphorylation sites were identified in retinal endothelial cell culture after VEGF treatment (20). Among these sites, phosphorylation at Ser-490 was shown to increase in response to VEGF treatment. However, no evidence has directly demonstrated the contribution of occludin phosphorylation to VEGF-induced endothelial permeability or defined the mechanism by which phosphorylation of occludin alters paracellular flux.Modification of proteins with monomeric or polymeric ubiquitin chains contributes to control of multiple biological functions including protein degradation, intracellular trafficking, translational regulation, and DNA repair (21). Phosphorylation of receptor tyrosine kinases, such as epidermal growth factor receptor or vascular endothelial growth factor receptor-2, is followed by ubiquitination and regulated trafficking to endosomes. This endocytosis process depends on the interaction between the ubiquitinated receptors and carrier proteins that possess a ubiquitin interacting motif (UIM) such as Epsin, epidermal growth factor receptor pathway substrate 15 (Eps15), and hepatocyte growth factor-regulated tyrosine kinase substrate (Hrs) (21–24). Recent publications have demonstrated that occludin can be ubiquitinated targeting the protein for degradation through the ubiquitin-proteasome system in epithelial cell types (25, 26). Here we demonstrate that phosphorylation of occludin at Ser-490 is necessary for occludin ubiquitination in response to VEGF in endothelial cells. Furthermore, the ubiquitination promotes interaction of occludin with UIM containing modulators of trafficking and regulates the internalization of TJ proteins altering endothelial permeability. Together, these results suggest that occludin phosphorylation and subsequent ubiquitination are necessary for VEGF-induced TJ trafficking and endothelial permeability.     

Significance of branched chain amino acids as possible stimulators of hepatocyte growth factor

Amino acids can serve as regulatory molecules that modulate numerous cellular functions. Branched chain amino acids (BCAAs) are known to exert influences on cellular metabolism, amino acid transport, protein turn over, and gene expression. However, the mechanisms involved in the specific effect of BCAAs have not been clarified. BCAA supplementation therapy is a current treatment for patients with liver cirrhosis, therefore, specific BCAA activities should be examined. Hepatocyte growth factor (HGF) is considered to be a pleiotropic factor, and is reported to modulate gene expression and to stimulate the proliferation and functions of many cell types, including hepatocytes. A potential application of HGF for several types of diseases has been postulated. Here, we describe the potential of BCAAs as a therapeutic agent that acts through the induction of HGF production in the liver.     

Genetic manipulation of gibberellin metabolism in transgenic rice

The 'green revolution' was fueled by the introduction of the semi-dwarf trait into cereal crop cultivars. The semi-dwarf cultivars--which respond abnormally to the plant growth hormone gibberellin (GA)--are more resistant to wind and rain damage and thus yield more grain when fertilized. To generate dwarf rice plants using a biotechnological approach, we modified the level of GA by overproduction of a GA catabolic enzyme, GA 2-oxidase. When the gene encoding GA 2-oxidase, OsGA2ox1, was constitutively expressed by the actin promoter, transgenic rice showed severe dwarfism but failed to set grain because GA is involved in both shoot elongation and reproductive development. In contrast, OsGA2ox1 ectopic expression at the site of bioactive GA synthesis in shoots under the control of the promoter of a GA biosynthesis gene, OsGA3ox2 (D18), resulted in a semi-dwarf phenotype that is normal in flowering and grain development. The stability and inheritance of these traits shows the feasibility of genetic improvement of cereal crops by modulation of GA catabolism and bioactive GA content.     

Antiproliferative activity of root extract from gentian plant (Gentiana triflora) on cultured and implanted tumor cells

We describe a novel pharmacological activity of the gentian root, an ingredient of Chinese medicines. Root extract from Gentiana triflora triggered cell death of human Daudi cells in culture. In addition, daily administration of the extract to mice inhibited growth of implanted solid tumors. Extract treatment of cultured cells resulted in the appearance of shranken, fragmented, or condensed cell and nuclear morphologies, and in chromosomal DNA degradation. But, the extract-treated cells did not show DNA fragmentation, which exhibits a nucleosome ladder, suggesting that extract-triggered cell death is not mediated through a typical apoptotic pathway.     

Changes in pollinator fauna affect altitudinal variation of floral size in a bumblebee‐pollinated herb

Geographic trait variations are often caused by locally different selection regimes. As a steep environmental cline along altitude strongly influences adaptive traits, mountain ecosystems are ideal for exploring adaptive differentiation over short distances. We investigated altitudinal floral size variation of Campanula punctata var. hondoensis in 12 populations in three mountain regions of central Japan to test whether the altitudinal floral size variation was correlated with the size of the local bumblebee pollinator and to assess whether floral size was selected for by pollinator size. We found apparent geographic variations in pollinator assemblages along altitude, which consequently produced a geographic change in pollinator size. Similarly, we found altitudinal changes in floral size, which proved to be correlated with the local pollinator size, but not with altitude itself. Furthermore, pollen removal from flower styles onto bees (plant's male fitness) was strongly influenced by the size match between flower style length and pollinator mouthpart length. These results strongly suggest that C. punctata floral size is under pollinator‐mediated selection and that a geographic mosaic of locally adapted C. punctata exists at fine spatial scale.     

Detection and mapping of six miniF-encoded proteins by cloning analysis of dissected miniF segments

Summary Various DNA subfragments were derived from miniF DNA by complete or partial PstI cleavage, and cloned in the plasmid vectors pBR322 or dv1. The recombinant plasmids obtained were introduced into an Escherichia coli minicell-producing strain, and the plasmid-coded proteins were radiolabeled and analyzed by gel electrophoresis. Six miniF-encoded proteins, larger than 11 000 daltons, were detected and their coding regions were mapped on the F plasmid genome. Three of them were assigned by taking into account the known nucleotide sequences (Murotsu et al. 1981; K. Yoshioka, personal communication). The coding directions of some proteins were determined by inserting the lac promotor into one of the recombinant plasmids and analyzing the increase in production of the proteins. The coding direction of the five proteins analyzed so far was uniform. Comparison of these results with a functional map of miniF suggested possible roles of the proteins.     

Relationship between Recrystallization Rate of Ice Crystals in Sugar Solutions and Water Mobility in Freeze-Concentrated Matrix

To better understand the relation between recrystallization rate and water mobility in freeze-concentrated matrix, isothermal ice recrystallization rates in several sugar aqueous solutions and self-diffusion coefficients of water component in corresponding freeze-concentrated matrix were measured. The sugars used were fructose, glucose, maltose, and sucrose. The sugar concentrations and temperature were varied so that ice contents for all samples were almost equal. Neither recrystallization rates nor diffusion coefficients depended uniformly on temperature. The recrystallization rates increased with increasing the diffusion coefficients, and a direct relationship was found between recrystallization rate and diffusion coefficient. This indicated that self-diffusion coefficient of water component in freeze-concentrated matrix is a useful parameter for predicting and controlling recrystallization rate in sugar solutions relevant to frozen desserts.