β-(1,3)-Glucan Exposure Assessment by Passive Airborne Dust Sampling and New Sensitive Immunoassays

Associations between house dust-associated β-(1,3)-glucan exposure and airway inflammatory reactions have been reported, while such exposures in early childhood have been suggested to protect against asthma and wheezing. Most epidemiological studies have used reservoir dust samples and an inhibition enzyme immunoassay (EIA) for β-(1,3)-glucan exposure assessment. The objective of this study was to develop inexpensive but highly sensitive enzyme immunoassays to measure airborne β-(1,3)-glucans in low-exposure environments, like homes. Specificities of available anti-β-(1,3)-glucan antibodies were defined by direct and inhibition experiments. Three suitable antibody combinations were selected for sandwich EIAs. β-(1,3)-Glucans in passive airborne dust collected with an electrostatic dust fall collector (EDC) and floor dust from seven homes were measured with the three EIAs. Floor dust samples were additionally analyzed in the inhibition EIA. The sandwich EIAs were sensitive enough for airborne glucan measurement and showed different specificities for commercial glucans, while the β-(1,3)-glucan levels in house dust samples correlated strongly. The feasibility of measuring glucans in airborne dust with the recently introduced EDC method was further investigated by selecting the most suitable of the three EIAs to measure and compare β-(1,3)-glucan levels in the EDC and in floor and actively collected airborne dust samples of the previously performed EDC validation study. The EDC β-(1,3)-glucan levels correlated moderately with β-(1,3)-glucans in actively collected airborne dust and floor dust samples, while the glucan levels in the airborne dust and floor dust samples did not correlate. The combination of the newly developed β-(1,3)-glucan sandwich EIA with EDC sampling now allows assessment in large-scale population studies of exposure to airborne β-(1,3)-glucans in homes or other low-exposure environments.β-(1,3)-Glucans are polysaccharides produced by plants, bacteria, and fungi. Their chain lengths, their degrees of branching, and the numbers and positions of their other glycosidic linkages, like β-(1,4)- and/or β-(1,6)-linkages, may vary largely. While β-(1,3)-(1,4)-glucan structures are typically found in plant material, β-(1,3)-(1,6)-chains are more prevalent in fungi and bacteria (31). Because they are typical microbe-associated molecular patterns (MAMPs), β-(1,3)-glucans activate cells of the innate immune system by binding to glucan-specific receptors like dectin-1 (1, 4, 6) and other cellular membrane receptors (5, 21). Associations between indoor β-(1,3)-glucan exposure and inflammatory reactions of the respiratory system have been reported (3, 10, 25, 33, 34, 40), but protective effects of glucan exposure in early childhood against the development of asthma and allergy have also been suggested (9, 13, 15, 29). β-(1,3)-Glucans are less potent inducers of inflammatory reactions than bacterial endotoxins (16, 30, 35), but since their total amounts in our environment may be much higher—glucans are measured in micrograms per milligram of house dust, whereas endotoxins are measured in nanograms per milligram of house dust (10, 14, 29, 37)—their proinflammatory impact may be similar to that of endotoxin exposure.An inexpensive and relatively simple β-(1,3)-glucan-specific inhibition immunoassay was introduced in the mid-1990s by Douwes et al. (8). This assay has found wide application in large-scale population studies in which glucans have been routinely measured in dust from mattresses and living room and/or bedroom floors (9, 10, 12, 13, 29). However, while useful for quantification of β-(1,3)-glucans in extracts with >1 to 2% (wt/vol) floor or mattress dust, the sensitivity of the assay is usually too low for airborne measurements. Even in environments with high microbial contaminations, like the household waste recycling industry (36), β-(1,3)-glucan levels in airborne dust samples may often remain under the limit of detection. Until recently, the only published methods sensitive enough to measure β-(1,3)-glucans in airborne dust samples were the modified Limulus amebocyte lysate (LAL) assay (a modification of the endotoxin assay with which glucans can be specifically detected [11]) and two sandwich enzyme immunoassays (EIAs) (2, 23, 27). Due to its high cost, which is at least 5-fold higher than that of the inhibition EIA, the LAL assay has thus far hardly been used in epidemiological studies. The assay developed by Sander et al. (27) has been applied to only a limited number of samples from the work environment, and the EIA described by Blanc et al. (2) and Rao et al. (23) has been used only to analyze reservoir and airborne dust samples from heavily mold-contaminated houses in New Orleans after the hurricanes Katrina and Rita. A third sensitive EIA makes use of galactosyl ceramide, a receptor specific for β-(1,3)-glucans (41), as the capture reagent and of a monoclonal antibody specific for β-(1,3)-(1,6)-glucans as the detecting antibody (20). Application of this EIA in population studies has, however, not yet been reported.Apart from the low sensitivity of the inhibition EIA and/or high cost of the modified LAL assay, the time, equipment, and budget needed for active sampling of airborne dust are reasons why epidemiological studies have relied mainly on β-(1,3)-glucan analyses of reservoir dust samples from floors or mattresses. β-(1,3)-Glucan levels in airborne dust samples may, however, be more representative of real inhalatory exposures.The aim of this study was to develop new sensitive but inexpensive assays for β-(1,3)-glucans in airborne dust from homes or other locations with low exposure levels. We combined methods and reagents from three laboratories that previously developed and applied β-glucan EIAs (2, 8, 23, 27). The specificities of available antibodies to a panel of 13 different glucans were determined to assess whether it is possible to develop sandwich assays that would show clear differences in specificities toward glucans from different taxonomic sources—bacterial, fungal, or plant derived—and/or between glucans with different chemical structures.Another objective of the present study was to explore the feasibility of using our recently developed passive airborne dust sampling method, the electrostatic dust fall collector (EDC) (22), for assessing exposure to glucans in airborne dust in the home environment, when combined with the new sensitive immunoassays.     

Derivation, culture, and characterization of VUB hESC lines

In this report, we present the derivation and characterization of 15 hESC lines established at the Vrije Universiteit Brussel, Belgium in collaboration with the Universitair Ziekenhuis Brussel, Belgium, using surplus in vitro fertilization embryos and embryos carrying monogenic disorders donated for research. Four lines were derived from blastocyst-stage embryos presumed to be genetically normal, and 11 hESC lines were obtained from embryos shown to carry genetic mutations by preimplantation genetic diagnosis. All the lines express markers of pluripotency as determined by immunocytochemistry and RT-PCR, and formed teratomas when injected into SCID mice. All VUB hESC lines, except for VUB17, are reported in the European hESC registry and are available upon request after signing a Material Transfer Agreement from the VUB (contact person: Prof. Dr. Karen Sermon; Karen.Sermon@uzbrussel.be).     

Selective killing of human immunodeficiency virus infected cells by non-nucleoside reverse transcriptase inhibitor-induced activation of HIV protease

Background

The gp41 subunit of the HIV-1 envelope glycoprotein (Env) has been widely regarded as a type I transmembrane protein with a single membrane-spanning domain (MSD). An alternative topology model suggested multiple MSDs. The major discrepancy between the two models is that the cytoplasmic Kennedy sequence in the single MSD model is assigned as the extracellular loop accessible to neutralizing antibodies in the other model. We examined the membrane topology of the gp41 subunit in both prokaryotic and mammalian systems. We attached topological markers to the C-termini of serially truncated gp41. In the prokaryotic system, we utilized a green fluorescent protein (GFP) that is only active in the cytoplasm. The tag protein (HaloTag) and a membrane-impermeable ligand specific to HaloTag was used in the mammalian system.

Results

In the absence of membrane fusion, both the prokaryotic and mammalian systems (293FT cells) supported the single MSD model. In the presence of membrane fusion in mammalian cells (293CD4 cells), the data obtained seem to support the multiple MSD model. However, the region predicted to be a potential MSD is the highly hydrophilic Kennedy sequence and is least likely to become a MSD based on several algorithms. Further analysis revealed the induction of membrane permeability during membrane fusion, allowing the membrane-impermeable ligand and antibodies to cross the membrane. Therefore, we cannot completely rule out the possible artifacts. Addition of membrane fusion inhibitors or alterations of the MSD sequence decreased the induction of membrane permeability.

Conclusions

It is likely that a single MSD model for HIV-1 gp41 holds true even in the presence of membrane fusion. The degree of the augmentation of membrane permeability we observed was dependent on the membrane fusion and sequence of the MSD.     

Improved Salinity Tolerance of Rice Through Cell Type-Specific Expression of AtHKT1;1

Previously, cell type-specific expression of AtHKT1;1, a sodium transporter, improved sodium (Na⁺) exclusion and salinity tolerance in Arabidopsis. In the current work, AtHKT1;1, was expressed specifically in the root cortical and epidermal cells of an Arabidopsis GAL4-GFP enhancer trap line. These transgenic plants were found to have significantly improved Na⁺ exclusion under conditions of salinity stress. The feasibility of a similar biotechnological approach in crop plants was explored using a GAL4-GFP enhancer trap rice line to drive expression of AtHKT1;1 specifically in the root cortex. Compared with the background GAL4-GFP line, the rice plants expressing AtHKT1;1 had a higher fresh weight under salinity stress, which was related to a lower concentration of Na⁺ in the shoots. The root-to-shoot transport of ²²Na⁺ was also decreased and was correlated with an upregulation of OsHKT1;5, the native transporter responsible for Na⁺ retrieval from the transpiration stream. Interestingly, in the transgenic Arabidopsis plants overexpressing AtHKT1;1 in the cortex and epidermis, the native AtHKT1;1 gene responsible for Na⁺ retrieval from the transpiration stream, was also upregulated. Extra Na⁺ retrieved from the xylem was stored in the outer root cells and was correlated with a significant increase in expression of the vacuolar pyrophosphatases (in Arabidopsis and rice) the activity of which would be necessary to move the additional stored Na⁺ into the vacuoles of these cells. This work presents an important step in the development of abiotic stress tolerance in crop plants via targeted changes in mineral transport.     

The Enzyme and the cDNA Sequence of a Thermolabile and Double-Strand Specific DNase from Northern Shrimps (Pandalus borealis)

Background

We have previously isolated a thermolabile nuclease specific for double-stranded DNA from industrial processing water of Northern shrimps (Pandalus borealis) and developed an application of the enzyme in removal of contaminating DNA in PCR-related technologies.

Methodology/Principal Findings

A 43 kDa nuclease with a high specific activity of hydrolysing linear as well as circular forms of DNA was purified from hepatopancreas of Northern shrimp (Pandalus borealis). The enzyme displayed a substrate preference that was shifted from exclusively double-stranded DNA in the presence of magnesium to also encompass significant activity against single-stranded DNA when calcium was added. No activity against RNA was detected. Although originating from a cold-environment animal, the shrimp DNase has only minor low-temperature activity. Still, the enzyme was irreversibly inactivated by moderate heating with a half-life of 1 min at 65°C. The purified protein was partly sequenced and derived oligonucleotides were used to prime amplification of the encoding cDNA. This cDNA sequence revealed an open reading frame encoding a 404 amino acid protein containing a signal peptide. By sequence similarity the enzyme is predicted to belong to a family of DNA/RNA non-specific nucleases even though this shrimp DNase lacks RNase activity and is highly double-strand specific in some respects. These features are in agreement with those previously established for endonucleases classified as similar to the Kamchatka crab duplex-specific nuclease (Par_DSN). Sequence comparisons and phylogenetic analyses confirmed that the Northern shrimp nuclease resembles the Par_DSN-like nucleases and displays a more distant relationship to the Serratia family of nucleases.

Conclusions/Significance

The shrimp nuclease contains enzyme activity that may be controlled by temperature or buffer compositions. The double-stranded DNA specificity, as well as the thermolabile feature, strengthens its potential for in vitro applications.     

The eukaryotic plasma membrane as a nutrient-sensing device

In eukaryotic cells, G-protein-coupled receptors (GPCRs), non-transporting nutrient carrier homologues and active nutrient carriers have been recently shown to function as sensors that directly monitor the level of nutrients in the extracellular environment. The plasma membrane is not only the cellular boundary at which signalling molecules that govern metabolism and proliferation are detected, but also the boundary across which nutrients that sustain the generation of energy and building blocks are transported. Nutrient sensors combine these functions in various ways. Classical receptor proteins detect the presence of nutrients, carriers combine the functions of nutrient transporters and receptors, and carrier homologues have lost their transport capacity and become pure receptors. The activation of signal transduction pathways by nutrients adds a new layer to the regulatory network that controls metabolism and proliferation. Nutrient sensors highlight the importance of both nutrients as signalling molecules and nutrient carriers as receptors for signalling pathways.     

Apple polygalacturonase inhibiting protein1 expressed in transgenic tobacco inhibits polygalacturonases from fungal pathogens of apple and the anthracnose pathogen of lupins

Extracts from apple fruit (cultivar "Granny Smith") inhibited the cell-wall degrading polygalacturonase (PG) activity of Colletotrichum lupini, the causal agent of anthracnose on lupins, as well as Aspergillus niger PG. Southern blot analysis indicated that this cultivar of apple has a small gene family of polygalacturonase inhibiting proteins (pgips), and therefore heterologous expression in transgenic tobacco was used to identify the specific gene product responsible for the inhibitory activity. A previously isolated pgip gene, termed Mdpgip1, was introduced into tobacco (Nicotiana tabacum) by Agrobacterium-mediated transformation. The mature MdPGIP1 protein was purified to apparent homogeneity from tobacco leaves by high salt extraction, clarification by DEAE-Sepharose and cation exchange HPLC. Purified MdPGIP1 inhibited PGs from C. lupini and PGs from two economically important pathogens of apple trees, Botryosphaeria obtusa and Diaporthe ambigua. It did not inhibit the A. niger PG, which was in contrast to the apple fruit extract used in this study. We conclude that there are at least two active PGIPs expressed in apple, which differ in their charge properties and ability to inhibit A. niger PG.     

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.     

Anpassungen der H?moglobine von Streifengans (Anser indicus), Andengans (Chloephaga melanoptera) und Sperbergeier (Gyps rueppellii) an hypoxische Bedingungen

Zusammenfassung Das Phänomen ungewöhnlicher Hypoxietoleranz bei Vögeln wird auf der Basis von Struktur-Funktionsbeziehungen der Hämoglobine dargestellt. Die Hämoglobine der Streifengans (Anser indicus), der Andengans (Chloephaga melanoptera) und des Sperbergeiers (Gyps rueppellii) wurden untersucht. Dabei zeigt sich, daß die Hypoxietoleranz auf jeweils eine definierte Aminosäuresubstitution zurückzuführen ist, welche die Wechselwirkung zwischen den Untereinheiten des Hämoglobins schwächt. Dadurch ergeben sich für die einzelnen Hämoglobine unterschiedliche Affinitäten zum Sauerstoff. Für die Streifengans (Austausch 119 Pro Ala) und den Sperbergeier (Austausch 34 Thr/Ile; multiple Hämoglobine) entsteht eine zweibzw. dreifache Kaskade von Hämoglobinen unterschiedlicher Sauerstoffaffinität, für die Andengans (Austausch 55 Leu Ser) eine erhöhte intrinsische Affinität des Gesamtblutes. Diese beiden molekularen Muster entsprechen der Unterscheidung zwischen transitorischer und permanenter Hypoxietoleranz. Auffällig ist, daß die Sauerstoffaffinität der Hämoglobine der Andengans und der Streifengans über die gleiche Wechselwirkung zwischen den Untereinheiten reguliert werden; die Mutationen liegen jedoch auf verschiedenen Globinketten.

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Adaptation of the hemoglobins of Barheaded Goose (Anser indicus), Andean Goose (Chloephaga melanoptera) and Rüppell's Griffon (Gyps rueppellii) to life under hypoxic conditions

Summary The phenomenon of unusual hypoxic tolerance of birds is elucidated on the basis of structural and functional relationships of hemoglobins. Hemoglobins of Barheaded Goose (Anser indicus) flying over the Himalayan mountains at 8848 m, of Andean Goose (Chloephaga melanoptera) living at 6000 m in the Andes and of Rüppell's Griffon (Gyps rueppellii) reaching altitudes of 11 300 m were investigated. Hypoxic tolerance turned out to be the result of clearcut amino-acid substitutions weakening the interaction of the subunits of the hemoglobin. This entails different affinities of the single hemoglobins. For the Barheaded Goose (mutation 119 Pro Ala) and the Rüppell's Griffon (mutation 34 Thr/Ile; multiple hemoglobins) there is a two-stage resp. a three-stage cascade of hemoglobins of graded oxygen affinities, for Andean Goose (mutation 55 Leu Ser) the affinity of whole blood is raised. These two molecular patterns correspond to the distinction between transitory and permanent hypoxic stress. It is worth mentioning that the oxygen affinities of the hemoglobins of Barheaded Goose and Andean Goose are regulated via the same interface of the molecule; the substitutions, however, are found on different globin chains.