Inverse Agonistic Action of 3-Iodothyronamine at the Human Trace Amine-Associated Receptor 5

ObjectiveApplication of 3-iodothyronamine (3-T₁AM) results in decreased body temperature and body weight in rodents. The trace amine-associated receptor (TAAR) 1, a family A G protein-coupled receptor, is a target of 3-T₁AM. However, 3-T₁AM effects still persist in mTaar1 knockout mice, which suggest so far unknown further receptor targets that are of physiological relevance. TAAR5 is a highly conserved TAAR subtype among mammals and we here tested TAAR5 as a potential 3-T₁AM target. First, we investigated mouse Taar5 (mTaar5) expression in several brain regions of the mouse in comparison to mTaar1. Secondly, to unravel the full spectrum of signaling capacities, we examined the distinct G_s-, G_i/o-, G_12/13-, G_q/11- and MAP kinase-mediated signaling pathways of mouse and human TAAR5 under ligand-independent conditions and after application of 3-T₁AM. We found overlapping localization of mTaar1 and mTaar5 in the amygdala and ventromedial hypothalamus of the mouse brain. Second, the murine and human TAAR5 (hTAAR5) display significant basal activity in the G_q/11 pathway but show differences in the basal activity in G_s and MAP kinase signaling. In contrast to mTaar5, 3-T₁AM application at hTAAR5 resulted in significant reduction in basal IP₃ formation and MAP kinase signaling. In conclusion, our data suggest that the human TAAR5 is a target for 3-T₁AM, exhibiting inhibitory effects on IP₃ formation and MAP kinase signaling pathways, but does not mediate G_s signaling effects as observed for TAAR1. This study also indicates differences between TAAR5 orthologs with respect to their signaling profile. In consequence, 3-T₁AM-mediated effects may differ between rodents and humans.     

Estrogen Receptor and HER2 Status on Disseminated Tumor Cells and Primary Tumor in Patients with Early Breast Cancer

BACKGROUND: We evaluated both estrogen receptor (ER) and human epidermal growth factor receptor 2 (HER2) status on disseminated tumor cells (DTCs) in the bone marrow of 54 patients with early breast cancer and compared these with the corresponding primary tumor (PT). MATERIALS AND METHODS: Bone marrow aspirates were obtained at the time of first surgery, and ER and HER2 status on DTCs was assessed simultaneously by immunocytochemistry using a triple fluorescence staining method. RESULTS: The median number of DTCs was 13 (range 1-95). The concordance rate between ER status on DTC and PT was 74%. Patients with an ER-positive PT were significantly more likely to have at least one ER-positive DTC (34 out of 42) than patients with an ER-negative PT (6 out of 12; P = .031). Thirty-nine (93%) of the 42 patients with ER-positive PT had at least one ER-negative DTC. The concordance rate between HER2 status on DTC and PT was 52%. The probability of having at least one HER2-positive DTC was not related to the HER2 status of the PT (P = 0.56). Twenty-two (46%) of the 48 patients with a HER2-negative PT had at least one HER2-positive DTC. All the six patients with a HER2-positive PT had at least one HER2-negative DTC. CONCLUSION: Taken together, our study confirms that ER and/or HER2 status may differ between DTC and PT. This discordance could be important for patients lacking ER or HER2 expression on the PT but showing ER-positive or HER2-positive DTC because they might benefit from an endocrine and/or HER2-targeted therapy.     

MEVA - An Interactive Visualization Application for Validation of Multifaceted Meteorological Data with Multiple 3D Devices

Background

To achieve more realistic simulations, meteorologists develop and use models with increasing spatial and temporal resolution. The analyzing, comparing, and visualizing of resulting simulations becomes more and more challenging due to the growing amounts and multifaceted character of the data. Various data sources, numerous variables and multiple simulations lead to a complex database. Although a variety of software exists suited for the visualization of meteorological data, none of them fulfills all of the typical domain-specific requirements: support for quasi-standard data formats and different grid types, standard visualization techniques for scalar and vector data, visualization of the context (e.g., topography) and other static data, support for multiple presentation devices used in modern sciences (e.g., virtual reality), a user-friendly interface, and suitability for cooperative work.

Methods and Results

Instead of attempting to develop yet another new visualization system to fulfill all possible needs in this application domain, our approach is to provide a flexible workflow that combines different existing state-of-the-art visualization software components in order to hide the complexity of 3D data visualization tools from the end user. To complete the workflow and to enable the domain scientists to interactively visualize their data without advanced skills in 3D visualization systems, we developed a lightweight custom visualization application (MEVA - multifaceted environmental data visualization application) that supports the most relevant visualization and interaction techniques and can be easily deployed. Specifically, our workflow combines a variety of different data abstraction methods provided by a state-of-the-art 3D visualization application with the interaction and presentation features of a computer-games engine. Our customized application includes solutions for the analysis of multirun data, specifically with respect to data uncertainty and differences between simulation runs. In an iterative development process, our easy-to-use application was developed in close cooperation with meteorologists and visualization experts. The usability of the application has been validated with user tests. We report on how this application supports the users to prove and disprove existing hypotheses and discover new insights. In addition, the application has been used at public events to communicate research results.     

Life cycle assessment and eco-efficiency analysis of drinking cups used at public events

Background, aim, and scope  

At the request of the Public Waste Agency for the Flemish Region, the Flemish Institute for Technological Research performed a life cycle assessment (LCA), according to the International Organization for Standardization (ISO) 14040 procedures (ISO 1997, 1998, 2000, and ISO 2006), followed by an eco-efficiency analysis of four alternative types of drinking cups for use at public events. The results of the LCA study served as input for the eco-efficiency analysis in which the costs related to the four cup systems were studied and combined with the environmental impacts. The objective of this study was to gain insight into the current environmental impacts and costs related to existing systems for drinking cups at public events in Flanders (Belgium) in order to outline a well-founded policy with regard to this subject. Since the results of this comparative study are publicly available, a critical review was performed according to ISO 14040 (review by interested parties, using a review panel) after each stage (goal and scope, data inventory, impact analysis/interpretation, eco-efficiency analysis) during the study.     

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.     

Characterization of two cytochrome <Emphasis Type="Italic">b</Emphasis><Subscript>6</Subscript> proteins from the cyanobacterium <Emphasis Type="BoldItalic">Gloeobacter violaceus</Emphasis> PCC 7421

In the genome of the untypical cyanobacterium Gloeobacter violaceus PCC 7421 two potential cytochrome b ₆ proteins PetB1 and PetB2 are encoded. Such a situation has not been observed in cyanobacteria, algae and higher plants before, and both proteins are not characterized at all yet. Here, we show that both apo-proteins bind heme with high affinity and the spectroscopic characteristics of both holo-proteins are distinctive for cytochrome b ₆ proteins. However, while in PetB2 one histidine residue, which corresponds to H100 and serves as an axial ligand for heme b _H in PetB1, is mutated, both PetB proteins bind two heme molecules with different midpoint potentials. To recreate the canonical heme b _H binding cavity in PetB2 we introduced a histidine residue at the position corresponding to H100 in PetB1 and subsequently characterized the generated protein variant. The presented data indicate that two bona fide cytochrome b ₆ proteins are encoded in Gloeobacter violaceus. Furthermore, the two petB genes of Gloeobacter violaceus are each organized in an operon together with a petD gene. Potential causes and consequences of the petB and petD gene heterogeneity are discussed.     

Protein glycosylation analysis with capillary-based electromigrative separation techniques

An impressive complexity is associated with glycoproteins due to the microheterogeneity of glycosylation as posttranslational modification giving rise to a vast number of isoforms. The full characterization of glycoproteins is difficult to achieve, and a number of analytical methods have to be combined for a detailed understanding of glycosylation. In this review, we focus on capillary electromigrative separation techniques in the formats capillary electrophoresis, micellar electrokinetic chromatography, and capillary sieving electrophoresis. These separation techniques can be applied to all levels of glycosylation analysis including intact glycoproteins, glycopeptides, and released glycans. We here discuss the separation characteristics for each method and the information that they can provide for each level. Detection issues, especially laser-induced fluorescence detection and mass spectrometry are taken into account. In addition, tables provide an overview on the achievements made from the very beginning of glycosylation research by electromigrative separation techniques. From the literature presented here it is clear, that glycosylation analysis by electromigrative separation techniques is on the edge of transition of basic research and method development towards applications. First proof-of-principle studies for in-depth glycoprotein characterization and clinical diagnosis are described. However, this overview also shows that many basic aspects of separation have not yet been fully understood and more research is necessary to be able to fully use the capabilities of electromigrative separation techniques.     

Deciphering proteins and their functions in the regenerating retina

Neurons of the mammalian CNS, including retinal ganglion cells, lack, in contrast to the PNS, the ability to regenerate axons spontaneously after injury. Regeneration of the CNS is extremely complex and involves various molecular factors and cells. Therewith the regenerative process remains an enormous scientific and clinical challenge. This article provides an overview of proteins that play a crucial role in axon regeneration of retinal ganglion cells and their underlying signaling pathways. In this context, we elucidate the role of 2D gel electrophoresis and highlight some additional proteins, altered upon regeneration by using this highly sensitive method.     

Optimized workflow for preparation of APTS-labeled N-glycans allowing high-throughput analysis of human plasma glycomes using 48-channel multiplexed CGE-LIF

High-throughput methods for oligosaccharide analysis are required when searching for glycan-based biomarkers. Next to mass spectrometry-based methods, which allow fast and reproducible analysis of such compounds, further separation-based techniques are needed, which allow for quantitative analysis. Here, an optimized sample preparation method for N-glycan-profiling by multiplexed capillary gel electrophoresis with laser-induced fluorescence detection (CGE-LIF) was developed, enabling high-throughput glycosylation analysis. First, glycans are released enzymatically from denatured plasma glycoproteins. Second, glycans are labeled with APTS using 2-picoline borane as a nontoxic and efficient reducing agent. Reaction conditions are optimized for a high labeling efficiency, short handling times, and only limited loss of sialic acids. Third, samples are subjected to hydrophilic interaction chromatography (HILIC) purification at the 96-well plate format. Subsequently, purified APTS-labeled N-glycans are analyzed by CGE-LIF using a 48-capillary DNA sequencer. The method was found to be robust and suitable for high-throughput glycan analysis. Even though the method comprises two overnight incubations, 96 samples can be analyzed with an overall labor allocation time of 2.5 h. The method was applied to serum samples from a pregnant woman, which were sampled during first, second, and third trimesters of pregnancy, as well as 6 weeks, 3 months, and 6 months postpartum. Alterations in the glycosylation patterns were observed with gestation and time after delivery.