Refine
Year of publication
- 2015 (75) (remove)
Document Type
- Article (45)
- Doctoral Thesis (19)
- Conference Proceeding (4)
- Review (4)
- Postprint (2)
- Preprint (1)
Is part of the Bibliography
- yes (75)
Keywords
- Endothelin (3)
- Inflammation (2)
- Solanaceae (2)
- Sphingosine kinase (2)
- cells (2)
- coenzyme-a (2)
- database (2)
- energy-metabolism (2)
- glutathione (2)
- hallervorden-spatz-syndrome (2)
Institute
- Institut für Ernährungswissenschaft (75) (remove)
A novel common variant in DCST2 is associated with length in early life and height in adulthood
(2015)
Common genetic variants have been identified for adult height, but not much is known about the genetics of skeletal growth in early life. To identify common genetic variants that influence fetal skeletal growth, we meta-analyzed 22 genome-wide association studies (Stage 1; N = 28 459). We identified seven independent top single nucleotide polymorphisms (SNPs) (P < 1 x 10(-6)) for birth length, of which three were novel and four were in or near loci known to be associated with adult height (LCORL, PTCH1, GPR126 and HMGA2). The three novel SNPs were followed-up in nine replication studies (Stage 2; N = 11 995), with rs905938 in DC-STAMP domain containing 2 (DCST2) genome-wide significantly associated with birth length in a joint analysis (Stages 1 + 2; beta = 0.046, SE = 0.008, P = 2.46 x 10(-8), explained variance = 0.05%). Rs905938 was also associated with infant length (N = 28 228; P = 5.54 x 10(-4)) and adult height (N = 127 513; P = 1.45 x 10(-5)). DCST2 is a DC-STAMP-like protein family member and DC-STAMP is an osteoclast cell-fusion regulator. Polygenic scores based on 180 SNPs previously associated with human adult stature explained 0.13% of variance in birth length. The same SNPs explained 2.95% of the variance of infant length. Of the 180 known adult height loci, 11 were genome-wide significantly associated with infant length (SF3B4, LCORL, SPAG17, C6orf173, PTCH1, GDF5, ZNFX1, HHIP, ACAN, HLA locus and HMGA2). This study highlights that common variation in DCST2 influences variation in early growth and adult height.
Zellbasierte heterologe Expressionssysteme bieten ein einfaches und schnelles Verfahren, um neue Süßstoffe oder Süßverstärker zu finden. Unter Verwendung eines solchen Testsystems, konnte ich in Zusammenarbeit mit der Symrise AG, Holzminden und dem Institut für Pflanzenbiochemie in Halle/Saale die vietnamesische Pflanze Mycetia balansae als Quelle eines neuen Süßstoffs identifizieren. Deren Hauptkomponenten, genannt Balansine, aktivieren spezifisch den humanen Süßrezeptor. Chimäre Rezeptoren zeigten, dass die amino-terminalen Domänen der Süßrezeptoruntereinheiten, welche ein Großteil der Liganden des Süßrezeptors binden, für dessen Aktivierung durch Balansin A nicht notwendig sind.
Voraussetzung für die Anwendung zellbasierter Testsysteme zum Auffinden neuer Süßstoffe ist jedoch, dass süße Substanzen gesichert identifiziert werden, während nicht süße Substanzen zuverlässig keine Rezeptoraktivierung aufweisen. Während in HEK293 TAS1R2 TAS1R3To Galpha15i3-Zellen Süßrezeptoraktivierung gegenüber nicht süß schmeckenden Substanzen beobachtet wurde, konnte mit den HEK293PEAKrapid Galpha15-Zellen ein zuverlässiges Testsystem identifiziert, welches den Süßgeschmack der untersuchten Substanzen widerspiegelte.
Es fanden sich keine Hinweise, dass akzessorische Proteine oder verwandte Rezeptoren des Süßrezeptors das unterschiedliche Verhalten der Zellen verursachen. Es konnte gezeigt werden, dass die Verwendung unterschiedlicher G-Proteine die Signalamplituden des Süßrezeptors beeinflusst, die Unterschiede zwischen den Zellsystemen jedoch nicht vollständig erklärt. Keine der untersuchten Galpha-Proteinchimären spiegelte die intrinsische Süße der Substanzen wider.
Wenn auch nicht ursächlich für die Diskrepanz zwischen Süßrezeptoraktivierung in vitro und Süßgeschmack in vivo, so weisen die Ergebnisse dieser Arbeit auf eine Interaktion der Süßrezeptoruntereinheiten mit dem humanen Calcium-sensing Rezeptor hin. Vanillin und Ethylvanillin konnten als neue Agonisten des Calcium-sensing Rezeptors identifiziert werden.
Wie die vorliegende Arbeit zeigt, können sich kleine Unterschiede im Zellhintergrund deutlich auf die Funktionsweise heterolog exprimierter Rezeptoren auswirken. Dies zeigt wie wichtig die Wahl der Zellen für solche Screeningsysteme ist.
Background: Alcohol abuse is a major risk factor for somatic and neuropsychiatric diseases. Despite their potential clinical importance, little is known about the alterations of plasma glycerophospholipid (GPL) and sphingolipid (SPL) species associated with alcohol abuse.
Methods: Plasma GPL and SPL species were quantified using electrospray ionization tandem mass spectrometry in samples from 23 male alcohol-dependent patients before and after detoxification, as well as from 20 healthy male controls.
Results: A comparison of alcohol-dependent patients with controls revealed higher phosphatidylcholine (PC; P-value = 0.008) and phosphatidylinositol (PI; P-value = 0.001) concentrations in patients before detoxification, and higher PI (P-value = 0.001) and phosphatidylethanolamine (PE)-based plasmalogen (PEP; P-value = 0.003) concentrations after detoxification. Lysophosphatidylcholines (LPC) were increased by acute intoxication (P-value = 0.002). Sphingomyelin (SM) concentration increased during detoxification (P-value = 0.011). The concentration of SM 23:0 was lower in patients (P-value = 2.79 x 10(-5)), and the concentrations of ceramide Cer d18:1/16:0 and Cer d18:1/18:0 were higher in patients (P-value = 2.45 x 10(-5) and 3.73 x 10(-5)). Activity of lysosomal acid sphingomyelinase (ASM) in patients correlated positively with the concentrations of eight LPC species, while activity of secreted ASM was inversely correlated with several PE, PI and PC species, and positively correlated with the molar ratio of PC to SM (Pearson's r = 0.432; P-value = 0.039).
Conclusion: Plasma concentrations of numerous GPL and SPL species were altered in alcohol-dependent patients. These molecules might serve as potential biomarkers to improve the diagnosis of patients and to indicate health risks associated with alcohol abuse. Our study further indicates that there are strong interactions between plasma GPL concentrations and SPL metabolism. (C) 2015 Elsevier B.V. All rights reserved.
Scope: Arsenic-containing hydrocarbons (AsHCs) and arsenic-containing fatty acids (AsFAs) represent two classes of arsenolipids occurring naturally in marine food. Toxicological data are yet scarce and an assessment regarding the risk to human health has not been possible. Here, we investigated the transfer and presystemic metabolism of five arsenolipids in an intestinal barrier model.
Methods and results: Three AsHCs and two AsFAs were applied to the Caco-2 intestinal barrier model. Thereby, the short-chain AsHCs reached up to 50% permeability. Transport is likely to occur via passive diffusion. The AsFAs showed lower intestinal bioavailability, but respective permeabilities were still two to five times higher as compared to arsenobetaine or arsenosugars. Interestingly, AsFAs were effectively biotransformed while passing the in vitro intestinal barrier, whereas AsHCs were transported to the blood-facing compartment essentially unchanged.
Conclusion: AsFAs can be presystemically metabolised and the amount of transferred arsenic is lower than that for AsHCs. In contrast, AsHCs are likely to be highly intestinally bioavailable to humans. Since AsHCs exert strong toxicity in vitro and in vivo, toxicity studies with experimental animals as well as a human exposure assessment are needed to assess the risk to human health related to the presence of AsHCs in seafood.
Background: Previous studies have shown that BMP4 may play an important part in the development of auditory neurons (ANs), which are degenerated in sensorineural hearing loss. However, whether BMP4 can promote sensory fate specification from mesenchymal stromal cells (MSCs) is unknown so far.
Methods: MSCs isolated from Sprague-Dawley (SD) rats were confirmed by expression of MSC markers using flow cytometry and adipogenesis/osteogenesis using differentiation assays. MSCs treated with a complex of neurotrophic factors (BMP4 group and non-BMP4 group) were induced into auditory neuron-like cells, then the differences between the two groups were analyzed in morphological observation, cell growth curve, qRT-PCR, and immunofluorescence.
Results: Flow cytometric analysis showed that the isolated cells expressed typical MSC surface markers. After adipogenic and osteogenic induction, the cells were stained by oil red O and Alizarin Red. The neuronal induced cells were in the growth plateau and had special forms of neurons. In the presence of BMP4, the inner ear genes NF-M, Neurog1, GluR4, NeuroD, Calretinin, NeuN, Tau, and GATA3 were up-regulated in MSCs.
Conclusions: MSCs have the capacity to differentiate into auditory neuron-like cells in vitro. As an effective inducer, BMP4 may play a key role in transdifferentiation.
Characterization of freeze-fractured epithelial plasma membranes on nanometer scale with ToF-SIMS
(2015)
Time-of-flight secondary ion mass spectrometry (ToF-SIMS) was used to characterize the freeze-fracturing process of human epithelial PANC-1 and UROtsa cells. For this purpose, phosphatidylcholine, sphingomyelin, phosphatidylethanolamine, and phosphatidylserine standard samples were investigated to find specific signals with both high specificity and signal intensity. The results were used to investigate single cells of subconfluent cell layers prepared with a special silicon wafer sandwich preparation technique. This freeze-fracturing technique strips cell membranes off the cells, isolating them on opposing silicon wafer substrates. Criteria were found for defining regions with stripped off cell membranes and, on the opposing wafer, complementary regions with the remaining cells. Measured ethanolamine/choline and serine/choline ratios in these regions clearly showed that in the freeze-fracturing process, the lipid bilayer of the plasma membrane is split along its central zone. Accordingly, only the outer lipid monolayer is stripped off the cell, while the inner lipid monolayer remains attached to the cell on the opposing wafer, thus allowing detailed analysis of a single lipid monolayer. Furthermore, it could be shown that using different washing procedures did not influence the transmembrane lipid distribution. Under optimized preparation conditions, it became feasible to detect lipids with a lateral resolution of approximately 100 nm. The data indicate that ToF-SIMS would be a very useful technique to study with very high lateral resolution changes in lipid composition caused, for example, by lipid storage diseases or pharmaceuticals that interfere with the lipid metabolism.