Your search keyword '"Treiber C"' showing total 22 results

1. Core-shell based nanocarriers as delivery systems for biologically active metal ions and drugs

Author

Quadir, M. A., Treiber, C., Multhaup, G., Körner, M., and Haag, R.

Published

2008

2. A new approach to investigating neural transposition challenges current insertion mapping strategies and provides an alternative explanation for differential transposon expression

Author

Treiber, C and Waddell, S

Abstract

Prior work has suggested the provocative, and somewhat controversial idea, that transposable element mobilization introduces genomic heterogeneity in certain regions of the mammalian brain. Findings in the fruit fly suggested that this might be a conserved phenomenon. Perrat et al. (2013) reported that transposons are overexpressed in the αβ-Kenyon Cells (αβ-KCs) of the Drosophila mushroom bodies and whole genome sequencing suggested that de-novo insertions map to neural genes within these cells. In this study I revisited these topics and investigated what impact elevated transposon expression has on the heterogeneity of the genomes of αβ-KCs. Since post-mitotic transposon insertions occur in single DNA molecules, they are rare and difficult to detect, and are particularly hard to distinguish from experimental artefacts. I developed a new protocol to analyse transposon insertions in individual flies, instead of groups. This approach significantly increased the theoretical power to detect rare somatic insertion events, and it also enabled comparison to somatic genomes from cells isolated from the same animal. This advance allowed me to distinguish true somatic events from rare germline polymorphism in the fly population. Furthermore, the new analysis pipeline utilises longer overlapping sequencing reads, which permits the identification of the precise break points of transposon insertion events. I confirmed that some transposons are more highly expressed in αβ-KCs, but I did not find evidence that this increase correlates with an increased number of transposon insertions. In addition, I did not detect an increase in the number of transposon insertions with age, challenging the idea that damage accumulates with age. A set of in-silico simulation experiments revealed that the rate of putative somatic insertion events is comparable to the rate of presently unavoidable experimental artefacts. Lastly, my analyses suggest that elevated and cell-restricted expression of the LINE-like retrotransposon Ivk in αβ-KCs might result from its co-expression with the αβ-KC specific gene CG17684, within which a germline insertion of Ivk resides.

Published

2017

3. Molecular evidence for a founder effect in South African Afrikaners with pseudoxanthoma elasticum

Author

Beck, K.B., O Le Saux, O., Sachsinger, C., Treiber, C., Marais, AS., Johnson, E., Berovitch, L., Terry, S.F., Viljoen, D.L., and Boyd, C.D.

Subjects

Afrikaners -- Diseases, Health and race -- Research, Genetic disorders -- Research, Collagen diseases -- Genetic aspects, Biological sciences

Published

2001

4. A spectrum of ABCC6 mutations is responsible for pseudoxanthoma elasticum

Author

Le Saux, O., Beck, K., Sachsinger, C., Silvertri, C., Treiber, C., Gring, H., Johnson, E., De Paepe, A., Pope, M., Pasquali-Ronchetti, I., Bercovitch, L., Terry, S.F., and Boyd, C.

Subjects

Human genetics -- Research, Genetic disorders -- Research, Gene mutations -- Analysis, Biological sciences

Published

2001

5. Neural transposition in the Drosophila brain: is it all bad news?

Author

Waddell, S, Barnstedt, O, and Treiber, C

Subjects

fungi

Abstract

Transposition of mobile genetic elements can radically alter genome structure and sequence. In doing so, they can alter gene expression and cellular function. Perhaps unsurprisingly, this potentially catastrophic process is heavily constrained, especially in the germ line where aberrations lead to sterility or could be passed onto the next generation. However, recent studies in mammals and fruit flies suggest that transposition happens at measurable levels in the brain, and possibly more so in some cell types than in others. This has led to the suggestion that certain cell types may utilize transposable elements to diversify cellular properties. In this review, we discuss these findings and ideas in light of our current understanding of transposons and their control in the fly, and the growing evidence for an involvement of transposition in neurological disease in humans.

Published

2014

6. A vicious circle: role of oxidative stress, intraneuronal Abeta and Cu in Alzheimer's disease

Author

Ta, Bayer, Schäfer S, Breyhan H, Oliver Wirths, Treiber C, and Multhaup G

Subjects

Neurons, Amyloid beta-Peptides, Superoxide Dismutase, Mice, Transgenic, Prion Diseases, Amyloid beta-Protein Precursor, Disease Models, Animal, Mice, Oxidative Stress, Superoxide Dismutase-1, Alzheimer Disease, Animals, Humans, Copper

Abstract

Recent evidence indicates that both intraneuronal Abeta and Cu are involved in the pathological processes in Alzheimer's disease (AD). This perspective shows a possible interrelation of these factors. AbetaPP, the precursor of Abeta which represents the main constituent of amyloid plaques, is involved in Cu homeostasis in mammals. In vitro observations and in vivo data obtained from AbetaPP mouse models provide strong evidence that AbetaPP and the resulting Abeta overproduction facilitate intracellular Cu to leave the cell. An increased Cu efflux seems to lead to Cu deficiency and, subsequently, reduced SOD-1 activity. The Cu-dependent SOD-1 activity is the main enzyme involved in detoxifying free radicals. Several reports have shown that oxidative stress is an invariable age-dependent feature in the brain of AD patients. Increased oxidative stress leads to an increase in intraneuronal Abeta accumulation, which has been shown to be the main trigger for neuronal loss in transgenic mouse models. Thus, we conclude that bioavailability of Cu is a crucial point for the pathogenesis of AD.

Published

2006

7. Metals on the Brain

Author

Treiber, C., primary

Published

2005

8. A vicious circle: role of oxidative stress, intraneuronal Aβ and Cu in Alzheimer's disease.

Author

Bayer, T. A., Schäfer, S., Breyhan, H., Wirths, O., Treiber, C., and Multhaup, G.

Subjects

OXIDATIVE stress, OXIDATION-reduction reaction, ALZHEIMER'S disease, PRESENILE dementia, AMYLOID

Abstract

Recent evidence indicates that both intraneuronal Aß and Cu are involved in the pathological processes in Alzheimer's disease (AD). This perspective shows a possible interrelation of these factors. AßPP, the precursor of Aß which represents the main constituent of amyloid plaques, is involved in Cu homeostasis in mammals. In vitro observations and in vivo data obtained from AßPP mouse models provide strong evidence that AßPP and the resulting Aß overproduction facilitate intracellular Cu to leave the cell. An increased Cu efflux seems to lead to Cu deficiency and, subsequently, reduced SOD- 1 activity. The Cu-dependent SOD-1 activity is the main enzyme involved in detoxifying free radicals. Several reports have shown that oxidative stress is an invariable age-dependent feature in the brain of AD patients. Increased oxidative stress leads to an increase in intraneuronal Aß accumulation, which has been shown to be the main trigger for neuronal loss in transgenic mouse models. Thus, we conclude that bioavailability of Cu is a crucial point for the pathogenesis of AD. [ABSTRACT FROM AUTHOR]

Published

2006

9. Fly Cell Atlas: A single-nucleus transcriptomic atlas of the adult fruit fly.

Author

Li H, Janssens J, De Waegeneer M, Kolluru SS, Davie K, Gardeux V, Saelens W, David FPA, Brbić M, Spanier K, Leskovec J, McLaughlin CN, Xie Q, Jones RC, Brueckner K, Shim J, Tattikota SG, Schnorrer F, Rust K, Nystul TG, Carvalho-Santos Z, Ribeiro C, Pal S, Mahadevaraju S, Przytycka TM, Allen AM, Goodwin SF, Berry CW, Fuller MT, White-Cooper H, Matunis EL, DiNardo S, Galenza A, O'Brien LE, Dow JAT, Jasper H, Oliver B, Perrimon N, Deplancke B, Quake SR, Luo L, Aerts S, Agarwal D, Ahmed-Braimah Y, Arbeitman M, Ariss MM, Augsburger J, Ayush K, Baker CC, Banisch T, Birker K, Bodmer R, Bolival B, Brantley SE, Brill JA, Brown NC, Buehner NA, Cai XT, Cardoso-Figueiredo R, Casares F, Chang A, Clandinin TR, Crasta S, Desplan C, Detweiler AM, Dhakan DB, Donà E, Engert S, Floc'hlay S, George N, González-Segarra AJ, Groves AK, Gumbin S, Guo Y, Harris DE, Heifetz Y, Holtz SL, Horns F, Hudry B, Hung RJ, Jan YN, Jaszczak JS, Jefferis GSXE, Karkanias J, Karr TL, Katheder NS, Kezos J, Kim AA, Kim SK, Kockel L, Konstantinides N, Kornberg TB, Krause HM, Labott AT, Laturney M, Lehmann R, Leinwand S, Li J, Li JSS, Li K, Li K, Li L, Li T, Litovchenko M, Liu HH, Liu Y, Lu TC, Manning J, Mase A, Matera-Vatnick M, Matias NR, McDonough-Goldstein CE, McGeever A, McLachlan AD, Moreno-Roman P, Neff N, Neville M, Ngo S, Nielsen T, O'Brien CE, Osumi-Sutherland D, Özel MN, Papatheodorou I, Petkovic M, Pilgrim C, Pisco AO, Reisenman C, Sanders EN, Dos Santos G, Scott K, Sherlekar A, Shiu P, Sims D, Sit RV, Slaidina M, Smith HE, Sterne G, Su YH, Sutton D, Tamayo M, Tan M, Tastekin I, Treiber C, Vacek D, Vogler G, Waddell S, Wang W, Wilson RI, Wolfner MF, Wong YE, Xie A, Xu J, Yamamoto S, Yan J, Yao Z, Yoda K, Zhu R, and Zinzen RP

Subjects

Animals, Cell Nucleus metabolism, Databases, Genetic, Drosophila Proteins genetics, Drosophila melanogaster physiology, Female, Gene Expression Regulation, Gene Regulatory Networks, Genes, Insect, Male, RNA-Seq, Sex Characteristics, Single-Cell Analysis, Transcription Factors genetics, Drosophila melanogaster cytology, Drosophila melanogaster genetics, Transcriptome

Abstract

For more than 100 years, the fruit fly Drosophila melanogaster has been one of the most studied model organisms. Here, we present a single-cell atlas of the adult fly, Tabula Drosophilae , that includes 580,000 nuclei from 15 individually dissected sexed tissues as well as the entire head and body, annotated to >250 distinct cell types. We provide an in-depth analysis of cell type-related gene signatures and transcription factor markers, as well as sexual dimorphism, across the whole animal. Analysis of common cell types between tissues, such as blood and muscle cells, reveals rare cell types and tissue-specific subtypes. This atlas provides a valuable resource for the Drosophila community and serves as a reference to study genetic perturbations and disease models at single-cell resolution.

Published

2022

10. Cytoarchitectural disruption of the superior colliculus and an enlarged acoustic startle response in the Tuba1a mutant mouse.

Author

Edwards A, Treiber CD, Breuss M, Pidsley R, Huang GJ, Cleak J, Oliver PL, Flint J, and Keays DA

Subjects

Animals, Apoptosis genetics, Cell Movement genetics, Immunohistochemistry, In Situ Hybridization, Mice, Mice, Mutant Strains, Mutation, Superior Colliculi physiopathology, Neurogenesis genetics, Reflex, Startle genetics, Superior Colliculi pathology, Tubulin genetics

Abstract

The Jenna mutant mouse harbours an S140G mutation in Tuba1a that impairs tubulin heterodimer formation resulting in defective neuronal migration during development. The consequence of decreased neuronal motility is a fractured pyramidal cell layer in the hippocampus and wave-like perturbations in the cerebral cortex. Here, we extend our characterisation of this mouse investigating the laminar architecture of the superior colliculus (SC). Our results reveal that the structure of the SC in mutant animals is intact; however, it is significantly thinner with an apparent fusion of the intermediate grey and white layers. Birthdate labelling at E12.5 and E13.5 showed that the S140G mutation impairs the radial migration of neurons in the SC. A quantitative assessment of neuronal number in adulthood reveals a massive reduction in postmitotic neurons in mutant animals, which we attribute to increased apoptotic cell death. Consistent with the role of the SC in modulating sensorimotor gating, and the circuitry that modulates this behaviour, we find that Jenna mutants exhibit an exaggerated acoustic startle response. Our results highlight the importance of Tuba1a for correct neuronal migration and implicate postnatal apoptotic cell death in the pathophysiological mechanisms underlying the tubulinopathies., (Copyright © 2011 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2011

11. EMCD real space maps of Magnetospirillum magnetotacticum.

Author

Stöger-Pollach M, Treiber CD, Resch GP, Keays DA, and Ennen I

Subjects

Circular Dichroism methods, Microscopy, Electron, Transmission methods, Magnetite Nanoparticles ultrastructure, Magnetospirillum ultrastructure

Abstract

In this study we combine energy loss magnetic circular dichroism (EMCD) and energy filtered transmission electron microscopy (EFTEM) to map magnetic properties of nanoparticles. We show that it is a functional tool for investigating the magnetic behaviour of bio-mineralized magnetite crystals of Magnetospirillum magnetotacticum. We find that the spatial resolution of our experimental set-up is in the range of less than 2 nm. The results are compared with EMCD studies of abiogenic magnetite., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

12. Cellular copper import by nanocarrier systems, intracellular availability, and effects on amyloid beta peptide secretion.

Author

Treiber C, Quadir MA, Voigt P, Radowski M, Xu S, Munter LM, Bayer TA, Schaefer M, Haag R, and Multhaup G

Subjects

Amyloid beta-Peptides metabolism, Animals, Biological Transport, CHO Cells, Copper chemistry, Cricetinae, Cricetulus, Drug Carriers, Endocytosis, Fluorescent Dyes pharmacology, Humans, Nanoparticles chemistry, Nanotechnology methods, Polymers chemistry, Amyloid beta-Peptides chemistry, Copper metabolism, Peptides chemistry

Abstract

Studies in animals have reported that normalized or elevated Cu levels can inhibit or even remove Alzheimer's disease-related pathological plaques and exert a desirable amyloid-modifying effect. We tested engineered nanocarriers composed of diverse core-shell architectures to modulate Cu levels under physiological conditions through bypassing the cellular Cu uptake systems. Two different nanocarrier systems were able to transport Cu across the plasma membrane of yeast or higher eukaryotic cells, CS-NPs (core-shell nanoparticles) and CMS-NPs (core-multishell nanoparticles). Intracellular Cu levels could be increased up to 3-fold above normal with a sublethal dose of carriers. Both types of carriers released their bound guest molecules into the cytosolic compartment where they were accessible for the Cu-dependent enzyme SOD1. In particular, CS-NPs reduced Abeta levels and targeted intracellular organelles more efficiently than CMS-NPs. Fluorescently labeled CMS-NPs unraveled a cellular uptake mechanism, which depended on clathrin-mediated endocytosis in an energy-dependent manner. In contrast, the transport of CS-NPs was most likely driven by a concentration gradient. Overall, nanocarriers depending on the nature of the surrounding shell functioned by mediating import of Cu across cellular membranes, increased levels of bioavailable Cu, and affected Abeta turnover. Our studies illustrate that Cu-charged nanocarriers can achieve a reasonable metal ion specificity and represent an alternative to metal-complexing agents. The results demonstrate that carrier strategies have potential for the treatment of metal ion deficiency disorders.

Published

2009

13. Homophilic interactions of the amyloid precursor protein (APP) ectodomain are regulated by the loop region and affect beta-secretase cleavage of APP.

Author

Kaden D, Munter LM, Joshi M, Treiber C, Weise C, Bethge T, Voigt P, Schaefer M, Beyermann M, Reif B, and Multhaup G

Subjects

Amyloid beta-Protein Precursor metabolism, Aspartic Acid Endopeptidases metabolism, Cell Line, Cell Line, Tumor, Cross-Linking Reagents pharmacology, Dimerization, Humans, Kinetics, Magnetic Resonance Spectroscopy, Models, Biological, Peptides chemistry, Protein Binding, Protein Structure, Tertiary, Recombinant Proteins chemistry, Amyloid Precursor Protein Secretases metabolism, Amyloid beta-Protein Precursor chemistry

Abstract

We found previously by fluorescence resonance energy transfer experiments that amyloid precursor protein (APP) homodimerizes in living cells. APP homodimerization is likely to be mediated by two sites of the ectodomain and a third site within the transmembrane sequence of APP. We have now investigated the role of the N-terminal growth factor-like domain in APP dimerization by NMR, biochemical, and cell biological approaches. Under nonreducing conditions, the N-terminal domain of APP formed SDS-labile and SDS-stable complexes. The presence of SDS was sufficient to convert native APP dimers entirely into monomers. Addition of an excess of a synthetic peptide (APP residues 91-116) containing the disulfide bridge-stabilized loop inhibited cross-linking of pre-existing SDS-labile APP ectodomain dimers. Surface plasmon resonance analysis revealed that this peptide specifically bound to the N-terminal domain of APP and that binding was entirely dependent on the oxidation of the thiol groups. By solution-state NMR we detected small chemical shift changes indicating that the loop peptide interacted with a large protein surface rather than binding to a defined pocket. Finally, we studied the effect of the loop peptide added to the medium of living cells. Whereas the levels of alpha-secretory APP increased, soluble beta-cleaved APP levels decreased. Because Abeta40 and Abeta42 decreased to similar levels as soluble beta-cleaved APP, we conclude either that beta-secretase binding to APP was impaired or that the peptide allosterically affected APP processing. We suggest that APP acquires a loop-mediated homodimeric state that is further stabilized by interactions of hydrophobic residues of neighboring domains.

Published

2008

14. Effect of copper on the de novo generation of prion protein expressed in Pichia pastoris.

Author

Treiber C

Subjects

Cloning, Molecular, Intracellular Space drug effects, Intracellular Space metabolism, Mass Spectrometry, Pichia cytology, Copper pharmacology, Pichia drug effects, Pichia metabolism, PrPC Proteins biosynthesis

Abstract

The prion protein (PrP) is the key protein implicated in diseases known as transmissible spongiform encephalopathies. PrP has been shown to be a metallo-protein that binds copper (Cu), and copper might have a role in the normal function of the protein. Conversely, PrP expression in yeast led us to suggest that the protein might be involved in the regulation of Cu homeostasis. In the presence of excess Cu in the growth medium, PrP expression limited the increase of the total number of Cu atoms per cell to a maximum of 14-fold compared with mock control cells, which showed a 52-fold increased intracellular Cu level. Conclusively, we suggest that PrP expression itself has a regulatory or buffering function for the cellular Cu level in yeast cells, most likely due to binding of Cu to the multiple Cu binding sites.

Published

2008

15. Real-time kinetics of discontinuous and highly conformational metal-ion binding sites of prion protein.

Author

Treiber C, Thompsett AR, Pipkorn R, Brown DR, and Multhaup G

Subjects

Animals, Binding Sites, Blotting, Western, Cobalt chemistry, Endopeptidase K chemistry, Erythrocytes chemistry, Escherichia coli chemistry, Histidine chemistry, Kinetics, Manganese chemistry, Mice, Protein Binding, Protein Conformation, Rabbits, Recombinant Proteins chemistry, Surface Plasmon Resonance, Metals chemistry, Prions chemistry

Abstract

The prion protein (PrP) is a metalloprotein with an unstructured region covering residues 60-91 that bind two to six Cu(II) ions cooperatively. Cu can bind to PrP regions C-terminally to the octarepeat region involving residues His111 and/or His96. In addition to Cu(II), PrP binds Zn(II), Mn(II) and Ni(II) with binding constants several orders of magnitudes lower than those determined for Cu. We used for the first time surface plasmon resonance (SPR) analysis to dissect metal binding to specific sites of PrP domains and to determine binding kinetics in real time. A biosensor assay was established to measure the binding of PrP-derived synthetic peptides and recombinant PrP to nitrilotriacetic acid chelated divalent metal ions. We have identified two separate binding regions for binding of Cu to PrP by SPR, one in the octarepeat region and the second provided by His96 and His111, of which His96 is more essential for Cu coordination. The octarepeat region at the N-terminus of PrP increases the affinity for Cu of the full-length protein by a factor of 2, indicating a cooperative effect. Since none of the synthetic peptides covering the octarepeat region bound to Mn and recombinant PrP lacking this sequence were able to bind Mn, we propose a conformational binding site for Mn involving residues 91-230. A novel low-affinity binding site for Co(II) was discovered between PrP residues 104 and 114, with residue His111 being the key amino acid for coordinating Co(II). His111 is essential for Co(II) binding, whereas His96 is more important than His111 for binding of Cu(II).

Published

2007

16. Copper is required for prion protein-associated superoxide dismutase-I activity in Pichia pastoris.

Author

Treiber C, Pipkorn R, Weise C, Holland G, and Multhaup G

Subjects

Pichia genetics, Superoxide Dismutase analysis, Superoxide Dismutase isolation & purification, Copper chemistry, Pichia enzymology, Prions chemistry, Superoxide Dismutase chemistry, Superoxide Dismutase metabolism

Abstract

The prion protein (PrP) is the key protein implicated in transmissible spongiform encephalopathies. It is a metalloprotein that binds manganese and copper. The latter is involved in the physiological function of the protein. We have previously found that PrP expression in Pichia pastoris affects intracellular metal ion concentrations and that formation of protease-resistant PrP is induced by additional copper and/or manganese. In this study, we show that heterologously expressed PrP is post-translationally modified and transported to the cell wall. We found by combining three different test systems that PrP itself had gained superoxide dismutase-like activity in P. pastoris. However, this activity could not be inhibited by KCN and depended on additional copper in the medium. Thus, this study defines the conditions under which PrP exhibits superoxide dismutase-like activity by showing that copper must be present for the protein to participate in scavenging and detoxification of reactive oxygen species.

Published

2007

17. Effect of copper and manganese on the de novo generation of protease-resistant prion protein in yeast cells.

Author

Treiber C, Simons A, and Multhaup G

Subjects

Amino Acid Sequence, Blotting, Western, Mass Spectrometry, Molecular Sequence Data, Pichia genetics, Copper chemistry, Manganese chemistry, Peptide Hydrolases metabolism, Prions genetics

Abstract

The prion protein (PrP) is the key protein implicated in diseases known as transmissible spongiform encephalopathies. PrP has been shown to bind manganese and copper, the latter being involved in the normal function of the protein. Indeed, upon expression in yeast we noted a major increase in intracellular copper and a decrease in manganese. Interestingly, protease-resistant PrP(Sc)-like protein (PrP(res)) formation was induced when PrP-expressing yeast cells were grown in copper- and/or manganese-supplemented media. The pattern of PrP banding in SDS-PAGE was dominantly determined by manganese. This conformational transition was stable against EDTA treatment but not in the presence of the copper chelators bathocuproinedisulfonic acid or clioquinol. Conclusively, PrP itself influences manganese and copper metabolism, and a replacement of copper in PrP complexes with manganese is highly likely under the condition of copper depletion or if excess amounts of copper and manganese are present. Taken together, our present study demonstrates the involvement of PrP in the regulation of intracellular metal ion homeostasis and uncovers copper and, more severely, manganese ions as in vivo risk factors for the conversion into PrP(Sc).

Published

2006

18. Prion 2005: Between Fundamentals and Society's Needs.

Author

Treiber C

Subjects

Animals, Cattle, Creutzfeldt-Jakob Syndrome diagnosis, Creutzfeldt-Jakob Syndrome genetics, Encephalopathy, Bovine Spongiform diagnosis, Encephalopathy, Bovine Spongiform genetics, Endopeptidase K metabolism, Humans, International Cooperation, Mice, Mice, Knockout, Societies, Medical, Biomedical Research organization & administration, Creutzfeldt-Jakob Syndrome physiopathology, Encephalopathy, Bovine Spongiform physiopathology, PrPC Proteins physiology

Abstract

Prion diseases for the most part affect individuals older than 60 years of age and share features with other diseases characterized by protein deposits in the brain, such as Alzheimer's disease and Parkinson's disease. The international conference "Prion 2005: Between Fundamentals and Society's Needs," organized by the German Transmissible Spongiform Encephalopathies Research Platform, aimed to integrate and coordinate the research efforts of participants to better achieve prevention, treatment, control, and management of prion diseases, including Creutzfeldt-Jakob disease and fatal familial insomnia in humans. Several main topics were discussed, such as the molecular characteristics of prion strains, the cell biology of cellular and pathogenic forms of the prion proteins, the pathogenesis of the diseases they cause, emerging problems, and promising approaches for therapy and new diagnostic tools. The presentations at the Prion 2005 conference provided new insights in both basic and applied research, which will have broad implications for society's needs.

Published

2006

19. Transcriptome response to heavy metal stress in Drosophila reveals a new zinc transporter that confers resistance to zinc.

Author

Yepiskoposyan H, Egli D, Fergestad T, Selvaraj A, Treiber C, Multhaup G, Georgiev O, and Schaffner W

Subjects

ATP-Binding Cassette Transporters biosynthesis, ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters physiology, Animals, Cadmium pharmacology, Cation Transport Proteins biosynthesis, Cation Transport Proteins genetics, Copper pharmacology, DNA-Binding Proteins genetics, Drosophila Proteins biosynthesis, Drosophila Proteins genetics, Drosophila melanogaster drug effects, Drosophila melanogaster growth & development, Drug Resistance, Ferritins physiology, Gene Expression Profiling, Genome, Insect drug effects, Male, Mutation, Oligonucleotide Array Sequence Analysis, Response Elements, Transcription Factors genetics, Transcription, Genetic drug effects, Up-Regulation, Transcription Factor MTF-1, Cation Transport Proteins physiology, DNA-Binding Proteins metabolism, Drosophila Proteins physiology, Drosophila melanogaster genetics, Metals, Heavy pharmacology, Transcription Factors metabolism, Zinc pharmacology

Abstract

All organisms are confronted with external variations in trace element abundance. To elucidate the mechanisms that maintain metal homeostasis and protect against heavy metal stress, we have determined the transcriptome responses in Drosophila to sublethal doses of cadmium, zinc, copper, as well as to copper depletion. Furthermore, we analyzed the transcriptome of a metal-responsive transcription factor (MTF-1) null mutant. The gene family encoding metallothioneins, and the ABC transporter CG10505 that encodes a homolog of 'yeast cadmium factor' were induced by all three metals. Zinc and cadmium responses have similar features: genes upregulated by both metals include those for glutathione S-transferases GstD2 and GstD5, and for zinc transporter-like proteins designated ZnT35C and ZnT63C. Several of the metal-induced genes that emerged in our study are regulated by the transcription factor MTF-1. mRNA studies in MTF-1 overexpressing or null mutant flies and in silico search for metal response elements (binding sites for MTF-1) confirmed novel MTF-1 regulated genes such as ferritins, the ABC transporter CG10505 and the zinc transporter ZnT35C. The latter was analyzed in most detail; biochemical and genetic approaches, including targeted mutation, indicate that ZnT35C is involved in cellular and organismal zinc efflux and plays a major role in zinc detoxification.

Published

2006

20. Neurochemical insights.

Author

Treiber C

Subjects

Homeostasis, Humans, Metallothionein metabolism, Metals metabolism, Metals pharmacokinetics, Neurochemistry trends, Amyloid metabolism, Neurodegenerative Diseases physiopathology

Abstract

The 20th biennial meeting of the International Society for Neurochemistry was recently held in Innsbruck, Austria. This meeting gave an overview of the latest findings in the field of molecular mechanisms and diagnosis of neurodegenerative diseases such as Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis, and prion disease. There was a focus on the molecular pathogenesis of protein misfolding in these disorders as well as on the association between oxidative metabolism and neurological diseases. RNA interference, metal chelators, and the use of metallopeptidases were discussed as possible therapeutic strategies.

Published

2005

21. Clioquinol mediates copper uptake and counteracts copper efflux activities of the amyloid precursor protein of Alzheimer's disease.

Author

Treiber C, Simons A, Strauss M, Hafner M, Cappai R, Bayer TA, and Multhaup G

Subjects

Alzheimer Disease drug therapy, Amyloid beta-Protein Precursor genetics, Animals, Biological Transport, Active drug effects, Humans, In Vitro Techniques, Mice, Mutagenesis, Site-Directed, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Pichia genetics, Pichia metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Alzheimer Disease metabolism, Amyloid beta-Protein Precursor metabolism, Chelating Agents pharmacology, Clioquinol pharmacology, Copper metabolism

Abstract

The key protein in Alzheimer's disease, the amyloid precursor protein (APP), is a ubiquitously expressed copper-binding glycoprotein that gives rise to the Abeta amyloid peptide. Whereas overexpression of APP results in significantly reduced brain copper levels in three different lines of transgenic mice, knock-out animals revealed increased copper levels. A provoked rise in peripheral levels of copper reduced concentrations of soluble amyloid peptides and resulted in fewer pathogenic Abeta plaques. Contradictory evidence has been provided by the efficacy of copper chelation treatment with the drug clioquinol. Using a yeast model system, we show that adding clioquinol to the yeast culture medium drastically increased the intracellular copper concentration but there was no significant effect observed on zinc levels. This finding suggests that clioquinol can act therapeutically by changing the distribution of copper or facilitating copper uptake rather than by decreasing copper levels. The overexpression of the human APP or APLP2 extracellular domains but not the extracellular domain of APLP1 decreased intracellular copper levels. The expression of a mutant APP deficient for copper binding increased intracellular copper levels several-fold. These data uncover a novel biological function for APP and APLP2 in copper efflux and provide a new conceptual framework for the formerly diverging theories of copper supplementation and chelation in the treatment of Alzheimer's disease.

Published

2004

22. Evidence for a founder effect for pseudoxanthoma elasticum in the Afrikaner population of South Africa.

Author

Le Saux O, Beck K, Sachsinger C, Treiber C, Göring HH, Curry K, Johnson EW, Bercovitch L, Marais AS, Terry SF, Viljoen DL, and Boyd CD

Subjects

Haplotypes, Humans, Molecular Sequence Data, Multidrug Resistance-Associated Proteins genetics, Mutation, Pedigree, Prevalence, Pseudoxanthoma Elasticum epidemiology, Pseudoxanthoma Elasticum ethnology, South Africa epidemiology, Founder Effect, Genetics, Population, Pseudoxanthoma Elasticum genetics

Abstract

Pseudoxanthoma elasticum (PXE) is a heritable elastic tissue disorder recently shown to be attributable to mutations in the ABCC6 ( MRP6) gene. Whereas PXE has been identified in all ethnic groups studied to date, the prevalence of this disease in various populations is uncertain, although often assumed to be similar. A notable exception however is the prevalence of PXE among South African Afrikaners. A previous report has suggested that a founder effect may explain the higher prevalence of PXE in Afrikaners, a European-derived population that first settled in South Africa in the 17th century. To investigate this hypothesis, we performed haplotype and mutational analysis of DNA from 24 South African families of Afrikaner, British and Indian descent. Among the 17 Afrikaner families studied, three common haplotypes and six different disease-causing variants were identified. Three of these mutant alleles were missense variants, two were nonsense mutations and one was a single base-pair insertion. The most common variant accounted for 53% of the PXE alleles, whereas other mutant alleles appeared at lower frequencies ranging from 3% to 12%. Haplotype analysis of the Afrikaner families showed that the three most frequent mutations were identical-by-descent, indicating a founder origin of PXE in this population.

Published

2002