Expression of fucosyltransferases in skin, conjunctiva, and cornea during human development

During human development, type-1-precursor, sialyl-Le a, and Le x antigens were present in the periderm of skin and eye at week 6. The Le x antigen disappeared from cornea at 10 weeks and then from skin at 20 weeks. H-type-1, Le a, Le b, sialyl-Le a, H-type-2, sialyl-Le x, and Le y were found in cornea, conjunctiva, and periderm between 10 and 20 weeks. They disappear from the skin (at week 20) and progressively reappear in skin derivatives, especially in the epithelium of sweat glands. The secretory part of the sweat gland is type-1-precursor and H-type-1 positive while its excretory part is Le a, Le b, sialyl-Le a, and Le y positive. On the eye surface the disappearance of Le x at 10 weeks and of the H-type-1, sialyl-Le x, and Le y at week 35 starts in the central cornea in front of the lens. The corneal epithelium and the conjunctiva have similar antigens to those of excretory and secretory parts of the sweat gland, respectively. Invaginations and folding of the epidermis might preserve the embryonic staining. We propose that fucosylation patterns are associated with the embryonic origin and differentiation stage of tissue. The early and transient presence of Le x is associated with FUT4 or FUT9 activities, while the late appearance of Lewis antigens is related to other alpha3-fucosyltransferases.     

An envelope glycoprotein of the human endogenous retrovirus HERV-W is expressed in the human placenta and fuses cells expressing the type D mammalian retrovirus receptor

A new human endogenous retrovirus (HERV) family, termed HERV-W, was recently described (J.-L. Blond, F. Besème, L. Duret, O. Bouton, F. Bedin, H. Perron, B. Mandrand, and F. Mallet, J. Virol. 73:1175-1185, 1999). HERV-W mRNAs were found to be specifically expressed in placenta cells, and an env cDNA containing a complete open reading frame was recovered. In cell-cell fusion assays, we demonstrate here that the product of the HERV-W env gene is a highly fusogenic membrane glycoprotein. Transfection of an HERV-W Env expression vector in a panel of cell lines derived from different species resulted in formation of syncytia in primate and pig cells upon interaction with the type D mammalian retrovirus receptor. Moreover, envelope glycoproteins encoded by HERV-W were specifically detected in placenta cells, suggesting that they may play a physiological role during pregnancy and placenta formation.     

Chemokine Receptor Ccr6 Deficiency Alters Hepatic Inflammatory Cell Recruitment and Promotes Liver Inflammation and Fibrosis

Chronic liver diseases are characterized by a sustained inflammatory response in which chemokines and chemokine-receptors orchestrate inflammatory cell recruitment. In this study we investigated the role of the chemokine receptor CCR6 in acute and chronic liver injury. In the absence of liver injury Ccr6 ^-/- mice presented a higher number of hepatic macrophages and increased expression of pro-inflammatory cytokines and M1 markers Tnf-α, Il6 and Mcp1. Inflammation and cell recruitment were increased after carbon tetrachloride-induced acute liver injury in Ccr6 ^-/- mice. Moreover, chronic liver injury by carbon tetrachloride in Ccr6 ^-/- mice was associated with enhanced inflammation and fibrosis, altered macrophage recruitment, enhanced CD4⁺ cells and a reduction in Th17 (CD4⁺IL17⁺) and mature dendritic (MHCII⁺CD11c⁺) cells recruitment. Clodronate depletion of macrophages in Ccr6 ^-/- mice resulted in a reduction of hepatic pro-inflammatory and pro-fibrogenic markers in the absence and after liver injury. Finally, increased CCR6 hepatic expression in patients with alcoholic hepatitis was found to correlate with liver expression of CCL20 and severity of liver disease. In conclusion, CCR6 deficiency affects hepatic inflammatory cell recruitment resulting in the promotion of hepatic inflammation and fibrosis.     

Relationship between Urinary Level of Phytate and Valvular Calcification in an Elderly Population: A Cross-Sectional Study

Pathological calcification generally consists of the formation of solid deposits of hydroxyapatite (calcium phosphate) in soft tissues. Supersaturation is the thermodynamic driving force for crystallization, so it is believed that higher blood levels of calcium and phosphate increase the risk of cardiovascular calcification. However several factors can promote or inhibit the natural process of pathological calcification. This cross-sectional study evaluated the relationship between physiological levels of urinary phytate and heart valve calcification in a population of elderly out subjects. A population of 188 elderly subjects (mean age: 68 years) was studied. Valve calcification was measured by echocardiography. Phytate determination was performed from a urine sample and data on blood chemistry, end-systolic volume, concomitant diseases, cardiovascular risk factors, medication usage and food were obtained. The study population was classified in three tertiles according to level of urinary phytate: low (<0.610 μM), intermediate (0.61–1.21 μM), and high (>1.21 μM). Subjects with higher levels of urinary phytate had less mitral annulus calcification and were less likely to have diabetes and hypercholesterolemia. In the multivariate analysis, age, serum phosphorous, leukocytes total count and urinary phytate excretion appeared as independent factors predictive of presence of mitral annulus calcification. There was an inverse correlation between urinary phytate content and mitral annulus calcification in our population of elderly out subjects. These results suggest that consumption of phytate-rich foods may help to prevent cardiovascular calcification evolution.     

Determination of the Diversity of Rhodopirellula Isolates from European Seas by Multilocus Sequence Analysis

In the biogeography of microorganisms, the habitat size of an attached-living bacterium has never been investigated. We approached this theme with a multilocus sequence analysis (MLSA) study of new strains of Rhodopirellula sp., an attached-living planctomycete. The development of an MLSA for Rhodopirellula baltica enabled the characterization of the genetic diversity at the species level, beyond the resolution of the 16S rRNA gene. The alleles of the nine housekeeping genes acsA, guaA, trpE, purH, glpF, fumC, icd, glyA, and mdh indicated the presence of 13 genetically defined operational taxonomic units (OTUs) in our culture collection. The MLSA-based OTUs coincided with the taxonomic units defined by DNA-DNA hybridization experiments. BOX-PCR supported the MLSA-based differentiation of two closely related OTUs. This study established a taxon-area relationship of cultivable Rhodopirellula species. In European seas, three closely related species covered the Baltic Sea and the eastern North Sea, the North Atlantic region, and the southern North Sea to the Mediterranean. The last had regional genotypes, as revealed by BOX-PCR. This suggests a limited habitat size of attached-living Rhodopirellula species.The biogeography of microorganisms describes the habitat size of the species and the distribution of microorganisms on Earth. The experimental approaches depend on the focus of the studies. Habitats are often analyzed by environmental microbiologists with genetic-fingerprinting techniques, with up to 200 bands or fragments representing the whole community. Although the taxonomic resolution of these operational taxonomic units (OTUs) is limited, the studies revealed a community biogeography (22). Medical microbiologists analyze the alleles of housekeeping genes of microorganisms to gain insight into the epidemiology of pathogens, the population biogeography (2). This strain-specific, fine-scale taxonomic resolution within a species is well suited to observance of recent dispersal events. At the species level, multilocus sequence typing (MLST) and analysis (MLSA), which were developed for intraspecies and intragenus specific studies, respectively, consist of the sequences of several (at least seven) housekeeping gene fragments concatenated to an approximately 5-kilobase alignment (17). Recent MLSA studies revealed its applicability to marine isolates and the analysis of biogeographic patterns: Alteromonas macleodii isolates could be grouped in an epipelagic and an abyssal clade (6), and strains of Pseudomonas aeruginosa were genetically well separated into groups of coastal and oceanic origin (8). However, for Salinibacter ruber strains, biogeographical distinctness was not resolved in an MLSA study but showed allopatry in a metabolic analysis (31). Several studies used MLSA together with DNA-DNA hybridization (DDH) for the delineation of new species, e.g., for Vibrio and Ensifer spp. (20, 36).In the biogeography of microorganisms, the experimental proof of a local genetic evolution was first revealed at sample sites that were physically separated by over 18,000 km (39). Large populations and the small size of microbes have been considered as facilitators for dispersal over long distances, eventually establishing cosmopolitan microbial populations. On the other hand, the smallest spatial scale of a microbial species in an open system has not been investigated. Attached-living bacteria disperse only during a distinct, short time span in their lives. This limitation of the dispersal time stimulated this study of the biogeography of Rhodopirellula baltica in European seas.R. baltica is a planctomycete with typical morphological features. The peptidoglycanless bacteria have an intracellular compartmentation: the riboplasm with the nucleoid is separated by a membrane from the surrounding paryphoplasm. Cells attach with a holdfast substance to surfaces or, in culture, to themselves, forming typical rosettes. Proliferation occurs by budding, and offspring cells live free in the water column: they are motile with a flagellum until they settle on the sediment (4).Seventy recently isolated strains affiliated according to the 16S rRNA gene analysis with R. baltica SH1^T as the closest validly described species (40). The 16S rRNA gene sequences do not offer sufficient information at the species level. A dissimilarity of the 16S rRNA genes of more than 3%, recently reduced to 1.3% (34, 35), indicates that the strains under consideration belong to two species. These thresholds yielded in our strain collection, according to an ARB-based calculation, five or eight operational taxonomic units besides the species R. baltica (40). For strains with highly identical sequences, whole-genome DDH experiments have to be performed to identify the affiliation to established species. Recently, multilocus sequence analyses have emerged as a possible alternative method. Our strain collection comprised many strains with a 16S rRNA gene sequence very closely related to that of R. baltica SH1^T. To gain insight into the genetic identity of the isolates on the species level and the habitat sizes of the species, we developed a multilocus sequence analysis and applied it to the strain collection. The MLSA results were calibrated with a DDH study. The closely related strains were additionally characterized by BOX-PCR, a fingerprinting method (15). Transmission electron microscopy (EM) was performed on some isolates to support the identification as Planctomycetes and to visualize morphological differences between strains.     

Phylogenetic position of Salinibacter ruber based on concatenated protein alignments

A total of 22 genes from the genome of Salinibacter ruber strain M31 were selected in order to study the phylogenetic position of this species based on protein alignments. The selection of the genes was based on their essential function for the organism, dispersion within the genome, and sufficient informative length of the final alignment. For each gene, an individual phylogenetic analysis was performed and compared with the resulting tree based on the concatenation of the 22 genes, which rendered a single alignment of 10,757 homologous positions. In addition to the manually chosen genes, an automatically selected data set of 74 orthologous genes was used to reconstruct a tree based on 17,149 homologous positions. Although single genes supported different topologies, the tree topology of both concatenated data sets was shown to be identical to that previously observed based on small subunit (SSU) rRNA gene analysis, in which S. ruber was placed together with Bacteroidetes. In both concatenated data sets the bootstrap was very high, but an analysis with a gradually lower number of genes indicated that the bootstrap was greatly reduced with less than 12 genes. The results indicate that tree reconstructions based on concatenating large numbers of protein coding genes seem to produce tree topologies with similar resolution to that of the single 16S rRNA gene trees. For classification purposes, 16S rRNA gene analysis may remain as the most pragmatic approach to infer genealogic relationships.     

Occurrence of rhizobia in the gut of the higher termite Nasutitermes nigriceps

Wood-eating termites feed on a diet highly deficient in nitrogen. They must complement their diet with the aid of nitrogen-fixing bacteria. Nitrogen fixation in the gut has been demonstrated, but information about nitrogen-fixing bacteria in pure culture is scarce. From the higher termite Nasutitermes nigriceps the symbiotic bacterial strain M3A was isolated, which thrives in the hindgut contents. The Gram-negative strain exhibited similarities to the species of the genus Ensifer (including Sinorhizobium) on the basis of morphological and physiological/biochemical features. The 16S rRNA gene analysis showed the highest sequence similarity of the isolate M3A to Ensifer adhaerens (>99%; ATCC 33499). The DNA-DNA hybridization revealed a similarity of 66% with E. adhaerens (NCIMB12342(T)). In contrast to the type strain the isolate M3A possesses the capacity to nodulate plant roots. This is the first report on the detailed identification of a rhizobia-related strain from the intestinal tract of animals. Strain M3A has been deposited with two culture collections (DSM10169; ATCC BAA-396).     

Dynamics and mechanical stability of the developing dorsoventral organizer of the wing imaginal disc

Shaping the primordia during development relies on forces and mechanisms able to control cell segregation. In the imaginal discs of Drosophila the cellular populations that will give rise to the dorsal and ventral parts on the wing blade are segregated and do not intermingle. A cellular population that becomes specified by the boundary of the dorsal and ventral cellular domains, the so-called organizer, controls this process. In this paper we study the dynamics and stability of the dorsal-ventral organizer of the wing imaginal disc of Drosophila as cell proliferation advances. Our approach is based on a vertex model to perform in silico experiments that are fully dynamical and take into account the available experimental data such as: cell packing properties, orientation of the cellular divisions, response upon membrane ablation, and robustness to mechanical perturbations induced by fast growing clones. Our results shed light on the complex interplay between the cytoskeleton mechanics, the cell cycle, the cell growth, and the cellular interactions in order to shape the dorsal-ventral organizer as a robust source of positional information and a lineage controller. Specifically, we elucidate the necessary and sufficient ingredients that enforce its functionality: distinctive mechanical properties, including increased tension, longer cell cycle duration, and a cleavage criterion that satisfies the Hertwig rule. Our results provide novel insights into the developmental mechanisms that drive the dynamics of the DV organizer and set a definition of the so-called Notch fence model in quantitative terms.