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Determination of the Pathological Features of NPC1 Variants in a Cellular Complementation Test
(2019)
Niemann-Pick Type C (NP-C) is a rare disorder of lipid metabolism caused by mutations
within the NPC1 and NPC2 genes. NP-C is a neurovisceral disease leading to a heterogeneous,
multisystemic spectrum of symptoms in those affected. Until now, there is no investigative tool to
demonstrate the significance of single variants within the NPC genes. Hence, the aim of the study
was to establish a test that allows for an objective assessment of the pathological potential of NPC1
gene variants. Chinese hamster ovary cells defective in the NPC1 gene accumulate cholesterol in
lysosomal storage organelles. The cells were transfected with NPC1-GFP plasmid vectors carrying
distinct sequence variants. Filipin staining was used to test for complementation of the phenotype.
The known variant p.Ile1061Thr showed a significantly impaired cholesterol clearance after 12 and
24 h compared to the wild type. Among the investigated variants, p.Ser954Leu and p.Glu1273Lys
showed decelerated cholesterol clearance as well. The remaining variants p.Gln60His, p.Val494Met,
and p.Ile787Val showed a cholesterol clearance indistinguishable from wild type. Further, p.Ile1061Thr
acquired an enhanced clearance ability upon 25-hydroxycholesterol treatment. We conclude that the
variants that caused an abnormal clearance phenotype are highly likely to be of clinical relevance.
Moreover, we present a system that can be utilized to screen for new drugs.
GPR68 (OGR1) belongs to the proton-sensing G protein-coupled receptors that are involved
in cellular adaptations to pH changes during tumour development. Although expression of GPR68
has been described in many tumour cell lines, little is known about its presence in human tumour
entities. We characterised the novel rabbit monoclonal anti-human GPR68 antibody 16H23L16
using various cell lines and tissue specimens. The antibody was then applied to a large series of
formalin-fixed, paraffin-embedded normal and neoplastic human tissue samples. Antibody specificity
was demonstrated in a Western blot analysis of GPR68-expressing cells using specific siRNAs.
Immunocytochemical experiments revealed pH-dependent changes in subcellular localisation of the
receptor and internalisation after stimulation with lorazepam. In normal tissue, GPR68 was present in
glucagon-producing islet cells, neuroendocrine cells of the intestinal tract, gastric glands, granulocytes,
macrophages, muscle layers of arteries and arterioles, and capillaries. GPR68 was also expressed
in neuroendocrine tumours, where it may be a positive prognostic factor, in pheochromocytomas,
cervical adenocarcinomas, and endometrial cancer, as well as in paragangliomas, medullary thyroid
carcinomas, gastrointestinal stromal tumours, and pancreatic adenocarcinomas. Often, tumour
capillaries were also strongly GPR68-positive. The novel antibody 16H23L16 will be a valuable tool for
basic research and for identifying GPR68-expressing tumours during histopathological examinations.
Renal drug transporters such as the organic cation transporters (OCTs), organic anion
transporters (OATs) and multidrug resistance proteins (MRPs) play an important role in the tubular
secretion of many drugs influencing their efficacy and safety. However, only little is known about
the distinct protein abundance of these transporters in human kidneys, and about the impact of
age and gender as potential factors of inter-subject variability in their expression and function.
The aim of this study was to determine the protein abundance of MDR1, MRP1-4, BCRP, OAT1-3,
OCT2-3, MATE1, PEPT1/2, and ORCTL2 by liquid chromatography-tandem mass spectrometry-based
targeted proteomics in a set of 36 human cortex kidney samples (20 males, 16 females; median age
53 and 55 years, respectively). OAT1 and 3, OCT2 and ORCTL2 were found to be most abundant
renal SLC transporters while MDR1, MRP1 and MRP4 were the dominating ABC transporters.
Only the expression levels of MDR1 and ORCTL2 were significantly higher abundant in older donors.
Moreover, we found several significant correlations between different transporters, which may
indicate their functional interplay in renal vectorial transport processes. Our data may contribute to
a better understanding of the molecular processes determining renal excretion of drugs.
Salivary glands provide secretory functions, including secretion of xenobiotics and among
them drugs. However, there is no published information about protein abundance of drug transporters
measured using reliable protein quantification methods. Therefore, mRNA expression and absolute
protein content of clinically relevant ABC (n = 6) and SLC (n = 15) family member transporters in the
human parotid gland, using the qRT-PCR and liquid chromatography-tandem mass spectrometry
(LC−MS/MS) method, were studied. The abundance of nearly all measured proteins ranged between
0.04 and 0.45 pmol/mg (OCT3 > MRP1 > PEPT2 > MRP4 > MATE1 > BCRP). mRNAs of ABCB1,
ABCC2, ABCC3, SLC10A1, SLC10A2, SLC22A1, SLC22A5, SLC22A6, SLC22A7, SLC22A8, SLCO1A2,
SLCO1B1, SLCO1B3 and SLCO2B1 were not detected. The present study provides, for the first time,
information about the protein abundance of membrane transporters in the human parotid gland,
which could further be used to define salivary bidirectional transport (absorption and secretion)
mechanisms of endogenous compounds and xenobiotics.
The Spider Anatomy Ontology (SPD)—A Versatile Tool to Link Anatomy with Cross-Disciplinary Data
(2019)
Solid Phase Assembly of Fully Protected Trinucleotide Building Blocks for Codon-Based Gene Synthesis
(2019)
The Role of Evidence-Based Practice in German Special Education—State of Research and Discussion
(2019)
A hydroxy-sodalite/cancrinite zeolite composite was synthesized from low-grade calcite-bearing kaolin by hydrothermal alkali-activation method at 160 C for 6 h. The effect of calcite addition on the formation of the hydroxy-sodalite/cancrinite composite was investigated
using artificial mixtures. The chemical composition and crystal morphology of the synthesized zeolite composite were characterized by X-ray powder diffraction, infrared spectroscopy, scanning electron microscopy, and N2 adsorption/desorption analyses. The average specific surface area is around 17–20 m2g-1, whereas the average pore size lies in the mesoporous range (19–21 nm). The synthesized zeolite composite was used as an adsorbent for the removal of heavy metals in aqueous solutions. Batch experiments were employed to study the influence of adsorbent dosage on heavy metal removal eciency. Results demonstrate the effective removal of significant quantities of Cu, Pb, Ni, and Zn from aqueous media. A comparative study of synthesized hydroxy-sodalite and
hydroxy-sodalite/cancrinite composites revealed the latter was 16–24% more effcient at removing heavy metals from water. The order of metal uptake effciency for these zeolites was determined to be Pb > Cu > Zn > Ni. These results indicate that zeolite composites synthesized from natural calcite-bearing kaolin materials could represent effective and low-cost adsorbents for heavy metal removal using water treatment devices in regions of water hortage.