Differential effect of 2-hydroxyoleic acid enantiomers on protein (sphingomyelin synthase) and lipid (membrane) targets

The complex dual mechanism of action of 2-hydroxyoleic acid (2OHOA), a potent anti-tumor compound used in membrane lipid therapy (MLT), has yet to be fully elucidated. It has been demonstrated that 2OHOA increases the sphingomyelin (SM) cell content via SM synthase (SGMS) activation. Its presence in membranes provokes changes in the membrane lipid structure that induce the translocation of PKC to the membrane and the subsequent overexpression of CDK inhibitor proteins (e.g., p21^Cip1). In addition, 2OHOA also induces the translocation of Ras to the cytoplasm, provoking the silencing of MAPK and its related pathways. These two differential modes of action are triggered by the interactions of 2OHOA with either lipids or proteins. To investigate the molecular basis of the different interactions of 2OHOA with membrane lipids and proteins, we synthesized the R and S enantiomers of this compound. A molecular dynamics study indicated that both enantiomers interact similarly with lipid bilayers, which was further confirmed by X-ray diffraction studies. By contrast, only the S enantiomer was able to activate SMS in human glioma U118 cells. Moreover, the anti-tumor efficacy of the S enantiomer was greater than that of the R enantiomer, as the former can act through both MLT mechanisms. The present study provides additional information on this novel therapeutic approach and on the magnitude of the therapeutic effects of type-1 and type-2 MLT approaches. This article is part of a Special Issue entitled: Membrane Structure and Function: Relevance in the Cell's Physiology, Pathology and Therapy.     

Orthology, Function and Evolution of Accessory Gland Proteins in the Drosophila repleta Group

The accessory gland proteins (Acps) of Drosophila have become a model for the study of reproductive protein evolution. A major step in the study of Acps is to identify biological causes and consequences of the observed patterns of molecular evolution by comparing species groups with different biology. Here we characterize the Acp complement of Drosophila mayaguana, a repleta group representative. Species of this group show important differences in ecology and reproduction as compared to other Drosophila. Our results show that the extremely high rates of Acp evolution previously found are likely to be ubiquitous among species of the repleta group. These evolutionary rates are considerably higher than the ones observed in other Drosophila groups' Acps. This disparity, however, is not accompanied by major differences in the estimated number of Acps or in the functional categories represented as previously suggested. Among the genes expressed in accessory glands of D. mayaguana almost half are likely products of recent duplications. This allowed us to test predictions of the neofunctionalization model for gene duplication and paralog evolution in a more or less constrained timescale. We found that positive selection is a strong force in the early divergence of these gene pairs.     

The Tight Junction-Associated Protein Occludin Is Required for a Postbinding Step in Hepatitis C Virus Entry and Infection

The precise mechanisms regulating hepatitis C virus (HCV) entry into hepatic cells remain unknown. However, several cell surface proteins have been identified as entry factors for this virus. Of these molecules, claudin-1, a tight junction (TJ) component, is considered a coreceptor required for HCV entry. Recently, we have demonstrated that HCV envelope glycoproteins (HCVgp) promote structural and functional TJ alterations. Additionally, we have shown that the intracellular interaction between viral E2 glycoprotein and occludin, another TJ-associated protein, could be the cause of the mislocalization of TJ proteins. Herein we demonstrated, by using cell culture-derived HCV particles (HCVcc), that interference of occludin expression markedly reduced HCV infection. Furthermore, our results with HCV pseudotyped particles indicated that occludin, but not other TJ-associated proteins, such as junctional adhesion molecule A or zonula occludens protein 1, was required for HCV entry. Using HCVcc, we demonstrated that occludin did not play an essential role in the initial attachment of HCV to target cells. Surface protein labeling experiments showed that both expression levels and cell surface localization of HCV (co)receptors CD81, scavenger receptor class B type I, and claudin-1 were not affected upon occludin knockdown. In addition, immunofluorescence confocal analysis showed that occludin interference did not affect subcellular distribution of the HCV (co)receptors analyzed. However, HCVgp fusion-associated events were altered after occludin silencing. In summary, we propose that occludin plays an essential role in HCV infection and probably affects late entry events. This observation may provide new insights into HCV infection and related pathogenesis.Hepatitis C virus (HCV) is a small enveloped positive-strand RNA virus that belongs to the Flaviviridae family (20). More than 80% of acute infections become chronic, which eventually progress to cirrhosis and hepatocellular carcinoma (28). HCV infects mainly hepatocytes, but the precise mechanisms of infection are largely unknown (11). The HCV particle consists of a nucleocapsid surrounded by a lipid bilayer in which the two envelope glycoproteins (HCVgp), E1 and E2, are anchored as a heterodimer and play a major role in HCV entry (20). The development of an infectious cell culture model based on the production of infective HCV particles (cell culture-derived HCV particles [HCVcc]) (34) and the generation of HCV pseudotyped retroviral particles (HCVpp) (4) have provided powerful tools to study the HCV cycle. HCV entry is a complex multistep process that requires the presence of several factors. There are multiple pieces of evidence for the involvement of host cell proteins in HCV entry, including glycosaminoglycans, the low-density lipoprotein receptor, scavenger receptor class B type I (SR-BI), and the tetraspanin CD81 (11). Recently, claudin-1, a tight junction (TJ) component, has been identified as a coreceptor required for a late step in HCV entry (13).TJs are major components of cell-cell adhesion complexes and are composed of integral membrane proteins, including occludin and claudins, which associate with actin cytoskeleton-interacting proteins, such as zonula occludens protein 1 (ZO-1) (2). These structures maintain cell polarity, separating apical from basolateral membrane domains, and form a paracellular barrier that allows the selective passage of certain solutes (2). In hepatocytes, TJs seal the bile canaliculi and form the intercellular barrier between bile and blood (12). Recently, we have shown that TJ-associated proteins occludin and claudin-1 disappeared from their normal localization in both HCV-infected and genomic HCV replicon-containing Huh7 cells. Furthermore, TJ function was also altered in these cells (5). In this matter, we have reported an intracellular interaction between E2 and occludin (5). Moreover, it has been reported that claudin-1 and several TJ-associated proteins, such as coxsackievirus and adenovirus receptor (35) and junctional adhesion molecule (JAM) (3), act as virus (co)receptors. Since coxsackievirus entry across epithelial TJs requires occludin (10), we have explored the role of occludin in HCV infection.     

Single-Residue Changes in the C-Terminal Disulfide-Bonded Loop of the Pseudomonas aeruginosa Type IV Pilin Influence Pilus Assembly and Twitching Motility

PilA, the major pilin subunit of Pseudomonas aeruginosa type IV pili (T4P), is a principal structural component. PilA has a conserved C-terminal disulfide-bonded loop (DSL) that has been implicated as the pilus adhesinotope. Structural studies have suggested that DSL is involved in intersubunit interactions within the pilus fiber. PilA mutants with single-residue substitutions, insertions, or deletions in the DSL were tested for pilin stability, pilus assembly, and T4P function. Mutation of either Cys residue of the DSL resulted in pilins that were unable to assemble into fibers. Ala replacements of the intervening residues had a range of effects on assembly or function, as measured by changes in surface pilus expression and twitching motility. Modification of the C-terminal P-X-X-C type II beta-turn motif, which is one of the few highly conserved features in pilins across various species, caused profound defects in assembly and twitching motility. Expression of pilins with suspected assembly defects in a pilA pilT double mutant unable to retract T4P allowed us to verify which subunits were physically unable to assemble. Use of two different PilA antibodies showed that the DSL may be an immunodominant epitope in intact pili compared with pilin monomers. Sequence diversity of the type IVa pilins likely reflects an evolutionary compromise between retention of function and antigenic variation. The consequences of DSL sequence changes should be evaluated in the intact protein since it is technically feasible to generate DSL-mimetic peptides with mutations that will not appear in the natural repertoire due to their deleterious effects on assembly.The gram-negative opportunistic pathogen Pseudomonas aeruginosa uses polar type IV pili (T4P) to attach to various materials, to move across surfaces via twitching motility, and to initiate host colonization and biofilm formation. T4P are widely distributed among bacteria and have been most extensively studied in Neisseria spp., Escherichia coli, Vibrio cholerae, and P. aeruginosa (8, 16, 42). T4P are divided into two major groups, type IVa and type IVb pili (T4aP and T4bP, respectively); there are several differences that distinguish these subfamilies (reviewed in reference 16). Most P. aeruginosa strains express T4aP composed of one of five different variants of the 15- to 17-kDa PilA protein (37).The crystal structures of N-terminally truncated or full-length forms of PilA from P. aeruginosa strains PAK and K122-4 have been solved (17, 18, 28, 34), as has the structure of the type IVa pilin from Neisseria gonorrhoeae MS11, called PilE (45). The pilins have a ladle-like structure, with a long, hydrophobic, kinked N-terminal alpha helix joined to a C-terminal domain of antiparallel beta-sheet architecture, terminating in a characteristic disulfide-bonded loop (DSL; also called the D-region). In a recent report describing the cryo-electron microscopy-derived ultrastructure of an assembled type IV pilus from N. gonorrhoeae, Craig and colleagues confirmed the predictions of earlier models that the N-terminal alpha helices of the subunits form the hydrophobic core of the fiber, with the hydrophilic C-terminal beta sheet and loop domains forming its outer surface (17).P. aeruginosa T4P mediate attachment to, and twitching motility on, an astonishing array of living and nonliving surfaces, from stainless steel and plastic to living cells (15, 20, 22, 25, 27, 44), contributing to the ability of this organism to cause opportunistic infections in a wide range of hosts. Twitching motility involves cycles of pilus extension, adherence, and subsequent pilus retraction that pulls the cell body forward (51). For twitching to occur, the pilus must adhere with sufficient strength that retraction of the pilus will result in translocation of the cell, overcoming the combination of surface tension and other cell surface adhesins that hold the cell body in place.Most bacterial pili, such as the types 1 and P pili of uropathogenic E. coli, are composed of separate structural (FimA and PapA) and adhesive (FimH and PapG) subunits, with the adhesive subunit present only at the tip of the pilus fiber (7, 32). P. aeruginosa T4P are unusual in this respect, in that the PilA subunit has been reported to act as both the main structural component and the tip adhesin (39, 50). The C-terminal DSL of the PilA subunit has been shown to mediate attachment of piliated P. aeruginosa to host cells and to abiotic surfaces such as stainless steel (25, 39, 50). This subdomain of PilA was shown by immunogold labeling studies to be exposed only at the pilus tip, suggesting that it is otherwise masked by adjacent subunits in the assembled pilus (39). These data are consistent with recent ultrastructural studies of N. gonorrhoeae T4P, which suggest that the C termini of the pilins are involved in intersubunit contacts throughout the length of the pilus fiber (17).To address the roles of specific residues within the DSL in host cell attachment, Wong and colleagues synthesized peptides corresponding to C-terminal residues 128 to 144 of the pilins from strains PAK and KB7, as well as analogues thereof containing Ala substitutions at each position (57). The peptides were oxidized to allow disulfide bond formation and used in a competition assay, measuring their ability to block binding of biotinylated PAK pili to buccal epithelial cells. Their study confirmed earlier observations that the Cys residues involved in disulfide bond formation contributed significantly to adhesin function and implicated a number of other residues in binding. However, a single adhesinotope common to both peptides could not be defined since they have only partial sequence identity. Conserved residues contributing to conformational elements, particularly type I and type II beta turns, were found to be important while a conserved hydrophobic residue (F137 in the PAK pilin) was not crucial for binding (57).As a prelude to studies examining the effects of sequence variation within the key DSL region on the adhesive capacity of the pilin subunit, we investigated the effects of PilA mutations on its multiple functions, including participation in protein secretion via the structurally related type II secretion (T2S) system in P. aeruginosa. A previous study (41) reported that PilA could form heterodimers with XcpT, the major pseudopilin of the Xcp T2S, and that PilA mutants were defective in T2S of proteases. In this work, the pilA gene from the laboratory strain PAO1 was mutagenized to generate single-residue variants of PilA that were expressed from an l-arabinose-inducible promoter in a pilA mutant background. This approach permitted the simultaneous interrogation of the effects of the mutations on pilin stability, assembly, and function in terms of twitching motility and pilus-specific bacteriophage susceptibility, as well as potential dominant-negative effects in the wild type upon induction. Here, we show that it is possible to identify single-residue variants of PilA that are affected in each step of pilus assembly and function.     

Clinical Results of an Autologous Engineered Skin

Introduction: An artificial complete skin (dermis and epidermis) model has been developed in the Tissue engineering unit of the Centro Comunitario de Sangre y Tejidos del Principado de Asturias (CCST) and CIEMAT. This engineered skin has been employed for the treatment of severe epithelial injuries. In this paper, the clinical results obtained with this engineered skin during the last 18 months were evaluated. Patients, material and methods: (a) Culture: Cells (fibroblasts and keratinocytes) were obtained from biopsies by a double enzymatic digestion. After an expansion period, fibroblasts were seeded in an artificial dermis based on human plasma. Keratinocytes were seeded over this dermal surface. (b) Patients: 20 skin biopsies were processed (13 burned patients, 5 giant nevus, 1 GVHD, 1 neurofibromatosis), which came from different hospitals across the country. About 97,525 cm² of engineered skin were cultured. Results: The engineered skin took in all patients. The take percentage depended on previous pathology (burned patients 10–90%; non-critical patients 70–90%). The epithelization obtained was permanent in all cases. During the follow-up period, epithelial loss, blistering injuries or skin retractions were not observed. The aesthetic and functional results were acceptable. Conclusions: This artificial skin has demonstrated to be useful for the definitive treatment of patients with severe skin injuries. This work shows that it is possible to produce this prototype in an hospitalarian laboratory and distribute it to different hospitals across the country.     

Psychosocial functioning, self-perception and body image and their auxologic correlates in growth hormone and oestrogen-treated young adult women with Turner syndrome

BACKGROUND: Few data are available on the psychosocial status of growth hormone (GH) and oestrogen treated women with Turner syndrome (TS). In this study, we evaluated psychosocial functioning, self-concept and body image in GH and oestrogen treated young adult women with TS and we studied the relationship with auxological parameters. PATIENTS AND METHODS: Thirty women with TS (mean +/- SD age: 22.1 +/- 2.4 years), all treated with GH and oestrogens if indicated, and an age-matched reference group of 44 non-Turner female students (age: 20.5 +/- 2.1 years) completed 3 questionnaires evaluating, respectively, behavioural and emotional problems (Young Adult Self Report), self-concept (Self Perception Profile for College Students) and body-image (Body Attitude Scale). RESULTS: TS patients did not report more behavioural and emotional problems compared to the non-TS females except for attention problems; they even reported fewer problems on some subscales (somatic complaints, thought problems, delinquent behaviour). TS patients did not differ from the non-TS female group in their bodily satisfaction. TS patients, particularly patients with a 45,X karyotype, perceived themselves as less socially competent. BMI was significantly related to the appraisal score of the Body Attitude Scale, whereas height was not related to any of the evaluated psychosocial parameters. CONCLUSION: The psychosocial adaptation of young adult women with TS, diagnosed at an early age and treated during childhood with GH and oestrogens if indicated, appears to be quite satisfactory. Follow-up of adult TS patients should not neglect the problem of overweight and associated psychosocial consequences.     

Phenology and dispersal modes of wood species in the Carrasco,a tropical deciduous shrubland in the Brazilian semiarid

We provide, for the first time, data on phenology and dispersal modes for the Carrasco, a tropical deciduous shrubland in the Brazilian semiarid. The study was conducted in the Serra das Almas Reserve (5°8′45″S, 40°55′43″W), northeastern Brazil. We sampled 2,790 individuals from 39 species, 30 genera, and 17 families. Fabaceae, Euphorbiaceae, and Myrtaceae were the most representative. All species lose leaves, fully or partially, during the dry season. Leaf flush was observed to increase at the end of the dry season with a peak during the rainy season. Similarly, the peak of flowering/fruiting occurred at the end of the dry and the beginning of the rainy season. Air humidity and maximum temperature were the only variables correlated with leaf flush. Most species showed annual flowering/fruiting. Flowering lasted 2–5 months, but even longer fruiting periods were observed. Zoochory was the most frequent dispersal mode, followed by autochory. Zoochoric, barochoric, and autochoric species fruited throughout the year, while for anemochorics fruiting occurred at the end of the rainy and/or during dry season. Despite both, the Carrasco and the Caatinga are deciduous, the Carrasco has a greater intensity and duration of phenological events and a higher frequency of zoochory, thus being more similar to less arid ecosystems. We discuss the local implications of these patterns, as well as how our results are in accordance with other regional and global studies with similar approaches.     

Isolation, structure and antibacterial activity of pleosporone from a pleosporalean ascomycete discovered by using antisense strategy

Protein synthesis is one of the best antibacterial targets that have led to the development of a number of highly successful clinical drugs. Protein synthesis is catalyzed by ribosome, which is comprised of a number of ribosomal proteins that help the catalysis process. Ribosomal protein S4 (RPSD) is one of the proteins that is a part of the ribosomal machinery and is a potential new target for the discovery of antibacterial agents. Screening of microbial extracts using antisense-sensitized rpsD Staphylococcus aureus strain led to the isolation of pleosporone, a new compound, with modest antibacterial activities with MIC ranging from 1 to 64 microg/mL. This compound showed the highest sensitivity for Streptococcus pneumoniae and Haemophilus influenzae, and exhibited MIC's of 4 and 1 microg/mL, respectively. Pleosporone showed modest selectivity for the inhibition of RNA synthesis compared to DNA and protein synthesis, and showed activity against HeLa cells. Isolation, structure elucidation, and biological activity of pleosporone have been described.     

Convergent Functional Genomics of Oligodendrocyte Differentiation Identifies Multiple Autoinhibitory Signaling Circuits

Inadequate remyelination of brain white matter lesions has been associated with a failure of oligodendrocyte precursors to differentiate into mature, myelin-producing cells. In order to better understand which genes play a critical role in oligodendrocyte differentiation, we performed time-dependent, genome-wide gene expression studies of mouse Oli-neu cells as they differentiate into process-forming and myelin basic protein-producing cells, following treatment with three different agents. Our data indicate that different inducers activate distinct pathways that ultimately converge into the completely differentiated state, where regulated gene sets overlap maximally. In order to also gain insight into the functional role of genes that are regulated in this process, we silenced 88 of these genes using small interfering RNA and identified multiple repressors of spontaneous differentiation of Oli-neu, most of which were confirmed in rat primary oligodendrocyte precursors cells. Among these repressors were CNP, a well-known myelin constituent, and three phosphatases, each known to negatively control mitogen-activated protein kinase cascades. We show that a novel inhibitor for one of the identified genes, dual-specificity phosphatase DUSP10/MKP5, was also capable of inducing oligodendrocyte differentiation in primary oligodendrocyte precursors. Oligodendrocytic differentiation feedback loops may therefore yield pharmacological targets to treat disease related to dysfunctional myelin deposition.Demyelination and/or incomplete remyelination, followed by axonal loss and neuronal death, is associated with several neurodegenerative disorders, including multiple sclerosis (37), Pelizaeus-Merzbacher disease, and spastic paraplegia type 2 (16), while myelin abnormalities are also seen for psychiatric disorders, including major depression (2), schizophrenia, and autism (reviewed in reference 10). In humans, the central neural system consists of an unusually high proportion (50%) of white matter, which is normally maintained by proliferating, migrating, and remyelinating oligodendrocytes (10). However, in, for instance, secondary progressive multiple sclerosis, at a stage where the autoimmune insult has abated, myelin degeneration continues. This insufficiency of myelin repair has been attributed to a failure of oligodendrocyte precursors to differentiate (11, 20).In order to better understand which genes play a role in multiple sclerosis, a number of proteomic (13), genomic (25, 29), and genetic (35) approaches have been utilized. However, diseased lesions consist of different admixtures (e.g., contain immune and glia infiltrates) of cell types compared to controls, so such postmortem samples may present differential cell, rather than gene or protein, expression. Therefore, understanding how such genes fit into pathophysiological processes (and in which) is problematic. From population genetic surveys thus far, only a few genes have been found to be associated with multiple sclerosis (31).Based on these considerations, we chose to examine genome-wide gene expression changes in a murine oligodendroglial precursor cell line, Oli-neu (18), as these cells underwent differentiation into myelin basic protein (MBP)-producing cells. Even for a pure cell line, this type of transition is typically associated with changes in the expression of thousands of genes, by itself providing little meaningful information. We therefore decided to look at oligodendrocyte differentiation as induced by different agents, in the hope that from this combined data set one might extract “core genes” whose modulation is closely linked to the differentiation process. The enriched set of genes was further evaluated for their functional involvement in the differentiation process.