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5. Comparative transcriptome profiling of amyloid precursor protein family members in the adult cortex

Author

Eils Roland, Prinz Marco, Gretz Norbert, Tschäpe Jakob-Andreas, Filippov Mikhail A, Aydin Dorothee, Brors Benedikt, and Müller Ulrike C

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The β-amyloid precursor protein (APP) and the related β-amyloid precursor-like proteins (APLPs) undergo complex proteolytic processing giving rise to several fragments. Whereas it is well established that Aβ accumulation is a central trigger for Alzheimer's disease, the physiological role of APP family members and their diverse proteolytic products is still largely unknown. The secreted APPsα ectodomain has been shown to be involved in neuroprotection and synaptic plasticity. The γ-secretase-generated APP intracellular domain (AICD) functions as a transcriptional regulator in heterologous reporter assays although its role for endogenous gene regulation has remained controversial. Results To gain further insight into the molecular changes associated with knockout phenotypes and to elucidate the physiological functions of APP family members including their proposed role as transcriptional regulators, we performed DNA microarray transcriptome profiling of prefrontal cortex of adult wild-type (WT), APP knockout (APP-/-), APLP2 knockout (APLP2-/-) and APPsα knockin mice (APPα/α) expressing solely the secreted APPsα ectodomain. Biological pathways affected by the lack of APP family members included neurogenesis, transcription, and kinase activity. Comparative analysis of transcriptome changes between mutant and wild-type mice, followed by qPCR validation, identified co-regulated gene sets. Interestingly, these included heat shock proteins and plasticity-related genes that were both down-regulated in knockout cortices. In contrast, we failed to detect significant differences in expression of previously proposed AICD target genes including Bace1, Kai1, Gsk3b, p53, Tip60, and Vglut2. Only Egfr was slightly up-regulated in APLP2-/- mice. Comparison of APP-/- and APPα/α with wild-type mice revealed a high proportion of co-regulated genes indicating an important role of the C-terminus for cellular signaling. Finally, comparison of APLP2-/- on different genetic backgrounds revealed that background-related transcriptome changes may dominate over changes due to the knockout of a single gene. Conclusion Shared transcriptome profiles corroborated closely related physiological functions of APP family members in the adult central nervous system. As expression of proposed AICD target genes was not altered in adult cortex, this may indicate that these genes are not affected by lack of APP under resting conditions or only in a small subset of cells.

Published
2011
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6. Multisite Performance Evaluation of the cobas 5800 System and Comparison to the cobas 6800/8800 Systems for Quantitative Measurement of HBV, HCV, and HIV-1 Viral Load.

Author

Tschäpe J, Cobernuss-Rahn A, Boyle S, Parkin N, LaBrot B, Aslam S, Young S, and Gohl P

Subjects
Humans, Hepatitis B virus genetics, Viral Load methods, Reproducibility of Results, Hepacivirus genetics, HIV-1 genetics, Hepatitis C diagnosis
Abstract

The cobas 5800 System ("cobas 5800") is a new low- to mid-throughput PCR-based nucleic acid testing system which performs both qualitative and quantitative testing, including viral load (VL) determination. cobas 5800 shares numerous design elements and technical characteristics with the existing cobas 6800/8800 Systems. We compared HBV, HCV, and HIV-1 VL results from cobas 5800 in three different laboratories to those from the same specimens tested on a cobas 6800 system. We also assessed cobas 5800 assay reproducibility by repetitive testing of specimens with VL close to values used as thresholds for patient management or classification. The correlation between VL measurements generated using cobas 5800 versus 6800 was extremely high, with r 2 correlation coefficients between 0.990 and 0.999 for the three targets at the different sites. The slope of the Deming regression line ranged from 0.994 (HBV, site 3) to 1.025 (HIV-1, site 1). The standard deviation values ranged from 0.04 to 0.19 log 10 IU/mL for HBV, 0.06 to 0.33 log 10 IU/mL for HCV, and 0.05 to 0.34 log 10 copies/mL for HIV-1. In general, variability was higher at lower VL. Between 98.6% and 100% of results fell within the allowable total difference zone that defines expected variability on the existing 6800/8800 system. This multisite comparison study demonstrates equivalent performance of the new cobas 5800 system compared with cobas 6800. This establishes cobas 5800 as a new option for low- to mid-throughout laboratories seeking to optimize efficiency of their viral molecular testing. IMPORTANCE These are the first published data that demonstrate equivalent performance of the new cobas 5800 system compared with cobas 6800. This fulfills an unmet need for low- to mid-throughout laboratories seeking to optimize efficiency of their viral molecular testing.

Published
2022
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7. Neurotoxic effects induced by the Drosophila amyloid-beta peptide suggest a conserved toxic function.

Author

Carmine-Simmen K, Proctor T, Tschäpe J, Poeck B, Triphan T, Strauss R, and Kretzschmar D

Subjects
Aging, Amino Acid Sequence, Amyloid Precursor Protein Secretases metabolism, Amyloid beta-Protein Precursor genetics, Animals, Apoptosis physiology, Behavior, Animal, Blotting, Western, Brain metabolism, Drosophila Proteins genetics, Drosophila melanogaster cytology, Drosophila melanogaster genetics, Gene Expression, Immunohistochemistry, Light, Membrane Proteins genetics, Microscopy, Electron, Molecular Sequence Data, Nerve Degeneration, Nerve Tissue Proteins genetics, Peptide Fragments metabolism, Protease Nexins, Receptors, Cell Surface genetics, Amyloid metabolism, Drosophila Proteins metabolism, Drosophila melanogaster metabolism, Membrane Proteins metabolism, Nerve Tissue Proteins metabolism, Neurons metabolism
Abstract

The accumulation of amyloid-beta (Abeta) into plaques is a hallmark feature of Alzheimer's disease (AD). While amyloid precursor protein (APP)-related proteins are found in most organisms, only Abeta fragments from human APP have been shown to induce amyloid deposits and progressive neurodegeneration. Therefore, it was suggested that neurotoxic effects are a specific property of human Abeta. Here we show that Abeta fragments derived from the Drosophila orthologue APPL aggregate into intracellular fibrils, amyloid deposits, and cause age-dependent behavioral deficits and neurodegeneration. We also show that APPL can be cleaved by a novel fly beta-secretase-like enzyme. This suggests that Abeta-induced neurotoxicity is a conserved function of APP proteins whereby the lack of conservation in the primary sequence indicates that secondary structural aspects determine their pathogenesis. In addition, we found that the behavioral phenotypes precede extracellular amyloid deposit formation, supporting results that intracellular Abeta plays a key role in AD.

Published
2009
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8. Glial and neuronal expression of polyglutamine proteins induce behavioral changes and aggregate formation in Drosophila.

Author

Kretzschmar D, Tschäpe J, Bettencourt Da Cruz A, Asan E, Poeck B, Strauss R, and Pflugfelder GO

Subjects
Age Factors, Animals, Ataxin-3, Behavior, Animal physiology, Cell Death genetics, Cell Nucleus metabolism, Cell Nucleus pathology, Cell Nucleus ultrastructure, Disease Models, Animal, Drosophila melanogaster, Female, Gait Disorders, Neurologic genetics, Gait Disorders, Neurologic metabolism, Humans, Inclusion Bodies genetics, Inclusion Bodies ultrastructure, Longevity genetics, Male, Microscopy, Electron, Transmission, Nerve Tissue Proteins genetics, Nervous System ultrastructure, Neurodegenerative Diseases genetics, Neurodegenerative Diseases metabolism, Neurodegenerative Diseases pathology, Neuroglia pathology, Neuroglia ultrastructure, Neurons pathology, Neurons ultrastructure, Nuclear Proteins, Repressor Proteins, Inclusion Bodies metabolism, Nerve Tissue Proteins biosynthesis, Nervous System metabolism, Neuroglia metabolism, Neurons metabolism, Trinucleotide Repeat Expansion genetics
Abstract

Patients with polyglutamine expansion diseases, like Huntington's disease or several spinocerebellar ataxias, first present with neurological symptoms that can occur in the absence of neurodegeneration. Behavioral symptoms thus appear to be caused by neuronal dysfunction, rather than cell death. Pathogenesis in polyglutamine expansion diseases is largely viewed as a cell-autonomous process in neurons. It is likely, however, that this process is influenced by changes in glial physiology and, at least in the case of DRPLA glial inclusions and glial cell death, seems to be an important part in the pathogenesis. To investigate these aspects in a Drosophila model system, we expressed polyglutamine proteins in the adult nervous system. Glial-specific expression of a polyglutamine (Q)-expanded (n=78) and also a nonexpanded (n=27) truncated version of human ataxin-3 led to the formation of protein aggregates and glial cell death. Behavioral changes were observed prior to cell death. This reveals that glia is susceptible to the toxic action of polyglutamine proteins. Neuronal expression of the same constructs resulted in behavioral changes similar to those resulting from glial expression but did not cause neurodegeneration. Behavioral deficits were selective and affected two analyzed fly behaviors differently. Both glial and neuronal aggregates of Q78 and Q27 appeared early in pathogenesis and, at the electron microscopic resolution, had a fibrillary substructure. This shows that a nonexpanded stretch can cause similar histological and behavioral symptoms as the expanded stretch, however, with a significant delay., (copyright (c) 2004 Wiley-Liss, Inc.)

Published
2005
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9. Sulfide oxidation in the phototrophic sulfur bacterium Chromatium vinosum.

Author

Reinartz M, Tschäpe J, Brüser T, Trüper HG, and Dahl C

Subjects
Base Sequence, Blotting, Southern, Chromatium genetics, Cloning, Molecular, Cytochrome c Group genetics, Escherichia coli genetics, Molecular Sequence Data, Mutagenesis, Insertional, Oxidation-Reduction, Oxidoreductases genetics, Polymerase Chain Reaction, Thiosulfates metabolism, Chromatium metabolism, Cytochrome c Group physiology, Oxidoreductases physiology, Quinone Reductases metabolism
Abstract

Sulfide oxidation in the phototrophic purple sulfur bacterium Chromatium vinosum D (DSMZ 180(T)) was studied by insertional inactivation of the fccAB genes, which encode flavocytochrome c, a protein that exhibits sulfide dehydrogenase activity in vitro. Flavocytochrome c is located in the periplasmic space as shown by a PhoA fusion to the signal peptide of the hemoprotein subunit. The genotype of the flavocytochrome-c-deficient Chr. vinosum strain FD1 was verified by Southern hybridization and PCR, and the absence of flavocytochrome c in the mutant was proven at the protein level. The oxidation of thiosulfate and intracellular sulfur by the flavocytochrome-c-deficient mutant was comparable to that of the wild-type. Disruption of the fccAB genes did not have any significant effect on the sulfide-oxidizing ability of the cells, showing that flavocytochrome c is not essential for oxidation of sulfide to intracellular sulfur and indicating the presence of a distinct sulfide-oxidizing system. In accordance with these results, Chr. vinosum extracts catalyzed electron transfer from sulfide to externally added duroquinone, indicating the presence of the enzyme sulfide:quinone oxidoreductase (EC 1.8.5.-). Further investigations showed that the sulfide:quinone oxidoreductase activity was sensitive to heat and to quinone analogue inhibitors. The enzyme is strictly membrane-bound and is constitutively expressed. The presence of sulfide:quinone oxidoreductase points to a connection of sulfide oxidation to the membrane electron transport system at the level of the quinone pool in Chr. vinosum.

Published
1998
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