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3. Pituitary Tumor Transforming Gene 1 Orchestrates Gene Regulatory Variation in Mouse Ventral Midbrain During Aging

Author

Gui, Yujuan, Thomas, Mélanie H, Garcia, Pierre, Karout, Mona, Halder, Rashi, Michelucci, Alessandro, Kollmus, Heike, Zhou, Cuiqi, Melmed, Shlomo, Schughart, Klaus, Balling, Rudi, Mittelbronn, Michel, Nadeau, Joseph H, Williams, Robert W, Sauter, Thomas, Buttini, Manuel, and Sinkkonen, Lasse

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Neurosciences, Aging, Human Genome, Brain Disorders, 1.1 Normal biological development and functioning, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, Neurological, Pttg1, aging, midbrain, mouse strains, regulatory variation, Clinical Sciences, Law
Abstract

Dopaminergic neurons in the midbrain are of particular interest due to their role in diseases such as Parkinson's disease and schizophrenia. Genetic variation between individuals can affect the integrity and function of dopaminergic neurons but the DNA variants and molecular cascades modulating dopaminergic neurons and other cells types of ventral midbrain remain poorly defined. Three genetically diverse inbred mouse strains - C57BL/6J, A/J, and DBA/2J - differ significantly in their genomes (∼7 million variants), motor and cognitive behavior, and susceptibility to neurotoxins. To further dissect the underlying molecular networks responsible for these variable phenotypes, we generated RNA-seq and ChIP-seq data from ventral midbrains of the 3 mouse strains. We defined 1000-1200 transcripts that are differentially expressed among them. These widespread differences may be due to altered activity or expression of upstream transcription factors. Interestingly, transcription factors were significantly underrepresented among the differentially expressed genes, and only one transcription factor, Pttg1, showed significant differences between all three strains. The changes in Pttg1 expression were accompanied by consistent alterations in histone H3 lysine 4 trimethylation at Pttg1 transcription start site. The ventral midbrain transcriptome of 3-month-old C57BL/6J congenic Pttg1-/- mutants was only modestly altered, but shifted toward that of A/J and DBA/2J in 9-month-old mice. Principle component analysis (PCA) identified the genes underlying the transcriptome shift and deconvolution of these bulk RNA-seq changes using midbrain single cell RNA-seq data suggested that the changes were occurring in several different cell types, including neurons, oligodendrocytes, and astrocytes. Taken together, our results show that Pttg1 contributes to gene regulatory variation between mouse strains and influences mouse midbrain transcriptome during aging.

Published
2020

4. Pyruvate dehydrogenase fuels a critical citrate pool that is essential for Th17 cell effector functions

Author

Soriano-Baguet, Leticia, Grusdat, Melanie, Kurniawan, Henry, Benzarti, Mohaned, Binsfeld, Carole, Ewen, Anouk, Longworth, Joseph, Bonetti, Lynn, Guerra, Luana, Franchina, Davide G., Kobayashi, Takumi, Horkova, Veronika, Verschueren, Charlène, Helgueta, Sergio, Gérard, Deborah, More, Tushar H., Henne, Antonia, Dostert, Catherine, Farinelle, Sophie, Lesur, Antoine, Gérardy, Jean-Jacques, Jäger, Christian, Mittelbronn, Michel, Sinkkonen, Lasse, Hiller, Karsten, Meiser, Johannes, and Brenner, Dirk

Published
2023
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7. Park7deletion leads to age- and sex-specific transcriptome changes involving NRF2-CYP1B1 axis in mouse midbrain astrocytes

Author

Helgueta, Sergio, primary, Heurtaux, Tony, additional, Sciortino, Alessia, additional, Gui, Yujuan, additional, Ohnmacht, Jochen, additional, Mencke, Pauline, additional, Boussaad, Ibrahim, additional, Halder, Rashi, additional, Garcia, Pierre, additional, Krüger, Rejko, additional, Mittelbronn, Michel, additional, Buttini, Manuel, additional, Sauter, Thomas, additional, and Sinkkonen, Lasse, additional

Published
2024
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11. Impaired serine metabolism complements LRRK2-G2019S pathogenicity in PD patients

Author

Nickels, Sarah Louise, Walter, Jonas, Bolognin, Silvia, Gérard, Deborah, Jaeger, Christian, Qing, Xiaobing, Tisserand, Johan, Jarazo, Javier, Hemmer, Kathrin, Harms, Amy, Halder, Rashi, Lucarelli, Philippe, Berger, Emanuel, Antony, Paul M.A., Glaab, Enrico, Hankemeier, Thomas, Klein, Christine, Sauter, Thomas, Sinkkonen, Lasse, and Schwamborn, Jens Christian

Published
2019
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13. Cell-type-specific characterization of miRNA gene dynamics in immune cell subpopulations during aging and atherosclerosis disease development at single-cell resolution

Author

de Sande, Ana Hernandez, primary, Turunen, Tanja, additional, Bouvy-Liivrand, Maria, additional, Ord, Tiit, additional, Palani, Senthil, additional, Tundidor-Centeno, Celia, additional, Liljenback, Heidi, additional, Virta, Jenni, additional, Smolander, Olli-Pekka, additional, Sinkkonen, Lasse, additional, Sauter, Thomas, additional, Roivainen, Anne, additional, Lonnberg, Tapio, additional, Kaikkonen, Minna U, additional, and Heinaniemi, Merja, additional

Published
2023
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15. Author Reply to Peer Reviews of Multi-omics analysis identifies LBX1 and NHLH1 as central regulators of human midbrain dopaminergic neuron differentiation

Author

Gomez Ramos, Borja, primary, Ohnmacht, Jochen, additional, de Lange, Nikola, additional, Ginolhac, Aurélien, additional, Valceschini, Elena, additional, Rakovic, Aleksandar, additional, Halder, Rashi, additional, Massart, Francois, additional, Klein, Christine, additional, Krause, Roland, additional, Schulz, Marcel, additional, Sauter, Thomas, additional, Krueger, Rejko, additional, and Sinkkonen, Lasse, additional

Published
2023
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16. Multi-omics analysis identifies LBX1 and NHLH1 as central regulators of human midbrain dopaminergic neuron differentiation

Author

Ramos, Borja Gomez, primary, Ohnmacht, Jochen, additional, de Lange, Nikola, additional, Ginolhac, Aurélien, additional, Valceschini, Elena, additional, Rakovic, Aleksandar, additional, Halder, Rashi, additional, Massart, François, additional, Klein, Christine, additional, Krause, Roland, additional, Schulz, Marcel H., additional, Sauter, Thomas, additional, Krüger, Rejko, additional, and Sinkkonen, Lasse, additional

Published
2023
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19. Focal adhesion kinase plays a dual role in TRAIL resistance and metastatic outgrowth of malignant melanoma

Author

University of Luxembourg: High Performance Computing - ULHPC [research center], Del Mistro, Greta, Riemann, Shamala, Schindler, Sebastian, Beissert, Stefan, Kontermann, Roland E, Ginolhac, Aurélien, Halder, Rashi, Presta, Luana, Sinkkonen, Lasse, Sauter, Thomas, Kulms, Dagmar, University of Luxembourg: High Performance Computing - ULHPC [research center], Del Mistro, Greta, Riemann, Shamala, Schindler, Sebastian, Beissert, Stefan, Kontermann, Roland E, Ginolhac, Aurélien, Halder, Rashi, Presta, Luana, Sinkkonen, Lasse, Sauter, Thomas, and Kulms, Dagmar

Abstract

Despite remarkable advances in therapeutic interventions, malignant melanoma (MM) remains a life-threating disease. Following high initial response rates to targeted kinase-inhibition metastases quickly acquire resistance and present with enhanced tumor progression and invasion, demanding alternative treatment options. We show 2nd generation hexameric TRAIL-receptor-agonist IZI1551 (IZI) to effectively induce apoptosis in MM cells irrespective of the intrinsic BRAF/NRAS mutation status. Conditioning to the EC50 dose of IZI converted the phenotype of IZI-sensitive parental MM cells into a fast proliferating and invasive, IZI-resistant metastasis. Mechanistically, we identified focal adhesion kinase (FAK) to play a dual role in phenotype-switching. In the cytosol, activated FAK triggers survival pathways in a PI3K- and MAPK-dependent manner. In the nucleus, the FERM domain of FAK prevents activation of wtp53, as being expressed in the majority of MM, and consequently intrinsic apoptosis. Caspase-8-mediated cleavage of FAK as well as FAK knockdown, and pharmacological inhibition, respectively, reverted the metastatic phenotype-switch and restored IZI responsiveness. FAK inhibition also re-sensitized MM cells isolated from patient metastasis that had relapsed from targeted kinase inhibition to cell death, irrespective of the intrinsic BRAF/NRAS mutation status. Hence, FAK-inhibition alone or in combination with 2nd generation TRAIL-receptor agonists may be recommended for treatment of initially resistant and relapsed MM, respectively.

Published
2022

20. Review of Current Human Genome-Scale Metabolic Models for Brain Cancer and Neurodegenerative Diseases.

Author

Kishk, Ali, Pires Pacheco, Maria Irene, Heurtaux, Tony, Sinkkonen, Lasse, Pang, Jun, Fritah, Sabrina, Niclou, Simone, Sauter, Thomas, Kishk, Ali, Pires Pacheco, Maria Irene, Heurtaux, Tony, Sinkkonen, Lasse, Pang, Jun, Fritah, Sabrina, Niclou, Simone, and Sauter, Thomas

Abstract

Brain disorders represent 32% of the global disease burden, with 169 million Europeans affected. Constraint-based metabolic modelling and other approaches have been applied to predict new treatments for these and other diseases. Many recent studies focused on enhancing, among others, drug predictions by generating generic metabolic models of brain cells and on the contextualisation of the genome-scale metabolic models with expression data. Experimental flux rates were primarily used to constrain or validate the model inputs. Bi-cellular models were reconstructed to study the interaction between different cell types. This review highlights the evolution of genome-scale models for neurodegenerative diseases and glioma. We discuss the advantages and drawbacks of each approach and propose improvements, such as building bi-cellular models, tailoring the biomass formulations for glioma and refinement of the cerebrospinal fluid composition.

Published
2022
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21. Normal and Pathological NRF2 Signalling in the Central Nervous System

Author

Heurtaux, Tony, Bouvier, David S, Benani, Alexandre, Helgueta Romero, Sergio, Frauenknecht, Katrin B M, Mittelbronn, Michel, Sinkkonen, Lasse, Heurtaux, Tony, Bouvier, David S, Benani, Alexandre, Helgueta Romero, Sergio, Frauenknecht, Katrin B M, Mittelbronn, Michel, and Sinkkonen, Lasse

Abstract

The nuclear factor erythroid 2-related factor 2 (NRF2) was originally described as a master regulator of antioxidant cellular response, but in the time since, numerous important biological functions linked to cell survival, cellular detoxification, metabolism, autophagy, proteostasis, inflammation, immunity, and differentiation have been attributed to this pleiotropic transcription factor that regulates hundreds of genes. After 40 years of in-depth research and key discoveries, NRF2 is now at the center of a vast regulatory network, revealing NRF2 signalling as increasingly complex. It is widely recognized that reactive oxygen species (ROS) play a key role in human physiological and pathological processes such as ageing, obesity, diabetes, cancer, and neurodegenerative diseases. The high oxygen consumption associated with high levels of free iron and oxidizable unsaturated lipids make the brain particularly vulnerable to oxidative stress. A good stability of NRF2 activity is thus crucial to maintain the redox balance and therefore brain homeostasis. In this review, we have gathered recent data about the contribution of the NRF2 pathway in the healthy brain as well as during metabolic diseases, cancer, ageing, and ageing-related neurodegenerative diseases. We also discuss promising therapeutic strategies and the need for better understanding of cell-type-specific functions of NRF2 in these different fields.

Published
2022

22. Nanopore Single-Molecule Sequencing for Mitochondrial DNA Methylation Analysis: Investigating Parkin-Associated Parkinsonism as a Proof of Concept

Author

Lüth, Theresa, Wasner, Kobi, Klein, Christine, Schaake, Susen, Tse, Ronnie, Pereira, Sandro L., Laß, Joshua, Sinkkonen, Lasse, Grünewald, Anne, Trinh, Joanne, and German Research Foundation, Luxembourg National Research Fund, Personalized Medicine Consortium (PMC) of Luxembourg, European Community, Canadian Institutes of Health Research, Peter and Traudl Engelhorn Foundation, and the Joachim Herz Stiftung. [sponsor]

Subjects
Nanopore, mitochondrial DNA, methylation, Biochemistry, biophysics & molecular biology [F05] [Life sciences], Biochimie, biophysique & biologie moléculaire [F05] [Sciences du vivant]
Abstract

Objective: To establish a workflow for mitochondrial DNA (mtDNA) CpG methylation using Nanopore whole-genome sequencing and perform first pilot experiments on affected Parkin biallelic mutation carriers (Parkin-PD) and healthy controls. Background: Mitochondria, including mtDNA, are established key players in Parkinson's disease (PD) pathogenesis. Mutations in Parkin, essential for degradation of damaged mitochondria, cause early-onset PD. However, mtDNA methylation and its implication in PD is understudied. Herein, we establish a workflow using Nanopore sequencing to directly detect mtDNA CpG methylation and compare mtDNA methylation between Parkin-related PD and healthy individuals. Methods: To obtain mtDNA, whole-genome Nanopore sequencing was performed on blood-derived from five Parkin-PD and three control subjects. In addition, induced pluripotent stem cell (iPSC)-derived midbrain neurons from four of these patients with PD and the three control subjects were investigated. The workflow was validated, using methylated and unmethylated 897 bp synthetic DNA samples at different dilution ratios (0, 50, 100% methylation) and mtDNA without methylation. MtDNA CpG methylation frequency (MF) was detected using Nanopolish and Megalodon. Results: Across all blood-derived samples, we obtained a mean coverage of 250.3X (SD ± 80.5X) and across all neuron-derived samples 830X (SD ± 465X) of the mitochondrial genome. We detected overall low-level CpG methylation from the blood-derived DNA (mean MF ± SD = 0.029 ± 0.041) and neuron-derived DNA (mean MF ± SD = 0.019 ± 0.035). Validation of the workflow, using synthetic DNA samples showed that highly methylated DNA molecules were prone to lower Guppy Phred quality scores and thereby more likely to fail Guppy base-calling. CpG methylation in blood- and neuron-derived DNA was significantly lower in Parkin-PD compared to controls (Mann-Whitney U-test p < 0.05). Conclusion: Nanopore sequencing is a useful method to investigate mtDNA methylation architecture, including Guppy-failed reads is of importance when investigating highly methylated sites. We present a mtDNA methylation workflow and suggest methylation variability across different tissues and between Parkin-PD patients and controls as an initial model to investigate.

Published
2021

23. Quantitative trait locus mapping identifies a locus linked to striatal dopamine and points to collagen IV alpha-6 chain as a novel regulator of striatal axonal branching in mice

Author

Thomas, Melanie, Gui, Yujuan, Garcia, Pierre, Karout, Mona, Gomez Ramos, Borja, Jaeger, Christian, Michelucci, Alessandro, Gaigneaux, Anthoula, Kollmus, Heike, Centeno, Arthur, Schughart, Klaus, Balling, Rudi, Mittelbronn, Michel, Nadeau, Joseph H., Sauter, Thomas, Williams, Robert W., Sinkkonen, Lasse, Buttini, Manuel, and Fonds National de la Recherche - FnR, Helmholtz-Association [sponsor]

Subjects
nervous system, dopamine, Biochemistry, biophysics & molecular biology [F05] [Life sciences], nigrostriatal circuit, Biochimie, biophysique & biologie moléculaire [F05] [Sciences du vivant], collaborative cross
Abstract

Dopaminergic neurons (DA neurons) are controlled by multiple factors, many involved in neurological disease. Parkinson's disease motor symptoms are caused by the demise of nigral DA neurons, leading to loss of striatal dopamine (DA). Here, we measured DA concentration in the dorsal striatum of 32 members of Collaborative Cross (CC) family and their eight founder strains. Striatal DA varied greatly in founders, and differences were highly heritable in the inbred CC progeny. We identified a locus, containing 164 genes, linked to DA concentration in the dorsal striatum on chromosome X. We used RNAseq profiling of the ventral midbrain of two founders with substantial difference in striatal DA–C56BL/6 J and A/J—to highlight potential protein-coding candidates modulating this trait. Among the five differentially expressed genes within the locus, we found that the gene coding for the collagen IV alpha 6 chain (Col4a6) was expressed nine times less in A/J than in C57BL/6J. Using single cell RNA-seq data from developing human midbrain, we found that COL4A6 is highly expressed in radial glia-like cells and neuronal progenitors, indicating a role in neuronal development. Collagen IV alpha-6 chain (COL4A6) controls axogenesis in simple model organisms. Consistent with these findings, A/J mice had less striatal axonal branching than C57BL/6J mice. We tentatively conclude that DA concentration and axonal branching in dorsal striatum are modulated by COL4A6, possibly during development. Our study shows that genetic mapping based on an easily measured Central Nervous System (CNS) trait, using the CC population, combined with follow-up observations, can parse heritability of such a trait, and nominate novel functions for commonly expressed proteins.

Published
2021

24. The Parkinson’s-disease-associated mutation LRRK2-G2019S alters dopaminergic differentiation dynamics via NR2F1

Author

Walter, Jonas, primary, Bolognin, Silvia, additional, Poovathingal, Suresh K., additional, Magni, Stefano, additional, Gérard, Deborah, additional, Antony, Paul M.A., additional, Nickels, Sarah L., additional, Salamanca, Luis, additional, Berger, Emanuel, additional, Smits, Lisa M., additional, Grzyb, Kamil, additional, Perfeito, Rita, additional, Hoel, Fredrik, additional, Qing, Xiaobing, additional, Ohnmacht, Jochen, additional, Bertacchi, Michele, additional, Jarazo, Javier, additional, Ignac, Tomasz, additional, Monzel, Anna S., additional, Gonzalez-Cano, Laura, additional, Krüger, Rejko, additional, Sauter, Thomas, additional, Studer, Michèle, additional, de Almeida, Luis Pereira, additional, Tronstad, Karl J., additional, Sinkkonen, Lasse, additional, Skupin, Alexander, additional, and Schwamborn, Jens C., additional

Published
2021
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25. Quantitative trait locus mapping identifies a locus linked to striatal dopamine and points to collagen IV alpha‐6 chain as a novel regulator of striatal axonal branching in mice

Author

Thomas, Mélanie H., primary, Gui, Yujuan, additional, Garcia, Pierre, additional, Karout, Mona, additional, Gomez Ramos, Borja, additional, Jaeger, Christian, additional, Michelucci, Alessandro, additional, Gaigneaux, Anthoula, additional, Kollmus, Heike, additional, Centeno, Arthur, additional, Schughart, Klaus, additional, Balling, Rudi, additional, Mittelbronn, Michel, additional, Nadeau, Joseph H., additional, Sauter, Thomas, additional, Williams, Robert W., additional, Sinkkonen, Lasse, additional, and Buttini, Manuel, additional

Published
2021
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27. Stress-induced inflammation evoked by immunogenic cell death is blunted by the IRE1α kinase inhibitor KIRA6 through HSP60 targeting

Author

Rufo, Nicole, primary, Korovesis, Dimitris, additional, Van Eygen, Sofie, additional, Derua, Rita, additional, Garg, Abhishek D., additional, Finotello, Francesca, additional, Vara-Perez, Monica, additional, Rožanc, Jan, additional, Dewaele, Michael, additional, de Witte, Peter A., additional, Alexopoulos, Leonidas G., additional, Janssens, Sophie, additional, Sinkkonen, Lasse, additional, Sauter, Thomas, additional, Verhelst, Steven H. L., additional, and Agostinis, Patrizia, additional

Published
2021
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28. ATG5 and ATG7 Expression Levels Are Reduced in Cutaneous Melanoma and Regulated by NRF1

Author

Frangež, Živa, primary, Gérard, Deborah, additional, He, Zhaoyue, additional, Gavriil, Marios, additional, Fernández-Marrero, Yuniel, additional, Seyed Jafari, S. Morteza, additional, Hunger, Robert E., additional, Lucarelli, Philippe, additional, Yousefi, Shida, additional, Sauter, Thomas, additional, Sinkkonen, Lasse, additional, and Simon, Hans-Uwe, additional

Published
2021
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29. Additional file 1 of Single-nuclei chromatin profiling of ventral midbrain reveals cell identity transcription factors and cell-type-specific gene regulatory variation

Author

Gui, Yujuan, Grzyb, Kamil, Thomas, Mélanie H., Ohnmacht, Jochen, Garcia, Pierre, Buttini, Manuel, Skupin, Alexander, Sauter, Thomas, and Sinkkonen, Lasse

Subjects
fungi, genetic processes, natural sciences
Abstract

Additional file 1: Figure S1. snATAC-seq on ventral midbrains of C57BL/6J and A/J revealed cell-type-specific chromatin accessibility. Figure S2. H3K27ac ChIP-seq and ATAC-seq correlating with gene expression. Figure S3. Differential peaks can reveal strain-specific TFs.

Published
2021
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30. Quantitative trait locus mapping identifies a locus linked to striatal dopamine and points to collagen IV alpha-6 chain as a novel regulator of striatal axonal branching in mice

Author

Fonds National de la Recherche - FnR, Helmholtz-Association [sponsor], Thomas, Melanie, Gui, Yujuan, Garcia, Pierre, Karout, Mona, Gomez Ramos, Borja, Jaeger, Christian, Michelucci, Alessandro, Gaigneaux, Anthoula, Kollmus, Heike, Centeno, Arthur, Schughart, Klaus, Balling, Rudi, Mittelbronn, Michel, Nadeau, Joseph H., Sauter, Thomas, Williams, Robert W., Sinkkonen, Lasse, Buttini, Manuel, Fonds National de la Recherche - FnR, Helmholtz-Association [sponsor], Thomas, Melanie, Gui, Yujuan, Garcia, Pierre, Karout, Mona, Gomez Ramos, Borja, Jaeger, Christian, Michelucci, Alessandro, Gaigneaux, Anthoula, Kollmus, Heike, Centeno, Arthur, Schughart, Klaus, Balling, Rudi, Mittelbronn, Michel, Nadeau, Joseph H., Sauter, Thomas, Williams, Robert W., Sinkkonen, Lasse, and Buttini, Manuel

Abstract

Dopaminergic neurons (DA neurons) are controlled by multiple factors, many involved in neurological disease. Parkinson's disease motor symptoms are caused by the demise of nigral DA neurons, leading to loss of striatal dopamine (DA). Here, we measured DA concentration in the dorsal striatum of 32 members of Collaborative Cross (CC) family and their eight founder strains. Striatal DA varied greatly in founders, and differences were highly heritable in the inbred CC progeny. We identified a locus, containing 164 genes, linked to DA concentration in the dorsal striatum on chromosome X. We used RNAseq profiling of the ventral midbrain of two founders with substantial difference in striatal DA–C56BL/6 J and A/J—to highlight potential protein-coding candidates modulating this trait. Among the five differentially expressed genes within the locus, we found that the gene coding for the collagen IV alpha 6 chain (Col4a6) was expressed nine times less in A/J than in C57BL/6J. Using single cell RNA-seq data from developing human midbrain, we found that COL4A6 is highly expressed in radial glia-like cells and neuronal progenitors, indicating a role in neuronal development. Collagen IV alpha-6 chain (COL4A6) controls axogenesis in simple model organisms. Consistent with these findings, A/J mice had less striatal axonal branching than C57BL/6J mice. We tentatively conclude that DA concentration and axonal branching in dorsal striatum are modulated by COL4A6, possibly during development. Our study shows that genetic mapping based on an easily measured Central Nervous System (CNS) trait, using the CC population, combined with follow-up observations, can parse heritability of such a trait, and nominate novel functions for commonly expressed proteins.

Published
2021

31. ATG5 and ATG7 Expression Levels Are Reduced in Cutaneous Melanoma and Regulated by NRF1

Author

European Commission - EC [sponsor], Frangez, Ziva, Gerard, Déborah, He, Zhahoyue, Gavriil, Marios, Fernández-Marrero, Yuniel, Seyed Jafari, Morteza, Hunger, Robert, Lucarelli, Philippe, Yousefi, Shida, Sauter, Thomas, Sinkkonen, Lasse, Simon, Hans-Uwe, European Commission - EC [sponsor], Frangez, Ziva, Gerard, Déborah, He, Zhahoyue, Gavriil, Marios, Fernández-Marrero, Yuniel, Seyed Jafari, Morteza, Hunger, Robert, Lucarelli, Philippe, Yousefi, Shida, Sauter, Thomas, Sinkkonen, Lasse, and Simon, Hans-Uwe

Published
2021

32. Nanopore Single-Molecule Sequencing for Mitochondrial DNA Methylation Analysis: Investigating Parkin-Associated Parkinsonism as a Proof of Concept

Author

German Research Foundation, Luxembourg National Research Fund, Personalized Medicine Consortium (PMC) of Luxembourg, European Community, Canadian Institutes of Health Research, Peter and Traudl Engelhorn Foundation, and the Joachim Herz Stiftung. [sponsor], Lüth, Theresa, Wasner, Kobi, Klein, Christine, Schaake, Susen, Tse, Ronnie, Pereira, Sandro L., Laß, Joshua, Sinkkonen, Lasse, Grünewald, Anne, Trinh, Joanne, German Research Foundation, Luxembourg National Research Fund, Personalized Medicine Consortium (PMC) of Luxembourg, European Community, Canadian Institutes of Health Research, Peter and Traudl Engelhorn Foundation, and the Joachim Herz Stiftung. [sponsor], Lüth, Theresa, Wasner, Kobi, Klein, Christine, Schaake, Susen, Tse, Ronnie, Pereira, Sandro L., Laß, Joshua, Sinkkonen, Lasse, Grünewald, Anne, and Trinh, Joanne

Abstract

Objective: To establish a workflow for mitochondrial DNA (mtDNA) CpG methylation using Nanopore whole-genome sequencing and perform first pilot experiments on affected Parkin biallelic mutation carriers (Parkin-PD) and healthy controls. Background: Mitochondria, including mtDNA, are established key players in Parkinson's disease (PD) pathogenesis. Mutations in Parkin, essential for degradation of damaged mitochondria, cause early-onset PD. However, mtDNA methylation and its implication in PD is understudied. Herein, we establish a workflow using Nanopore sequencing to directly detect mtDNA CpG methylation and compare mtDNA methylation between Parkin-related PD and healthy individuals. Methods: To obtain mtDNA, whole-genome Nanopore sequencing was performed on blood-derived from five Parkin-PD and three control subjects. In addition, induced pluripotent stem cell (iPSC)-derived midbrain neurons from four of these patients with PD and the three control subjects were investigated. The workflow was validated, using methylated and unmethylated 897 bp synthetic DNA samples at different dilution ratios (0, 50, 100% methylation) and mtDNA without methylation. MtDNA CpG methylation frequency (MF) was detected using Nanopolish and Megalodon. Results: Across all blood-derived samples, we obtained a mean coverage of 250.3X (SD ± 80.5X) and across all neuron-derived samples 830X (SD ± 465X) of the mitochondrial genome. We detected overall low-level CpG methylation from the blood-derived DNA (mean MF ± SD = 0.029 ± 0.041) and neuron-derived DNA (mean MF ± SD = 0.019 ± 0.035). Validation of the workflow, using synthetic DNA samples showed that highly methylated DNA molecules were prone to lower Guppy Phred quality scores and thereby more likely to fail Guppy base-calling. CpG methylation in blood- and neuron-derived DNA was significantly lower in Parkin-PD compared to controls (Mann-Whitney U-test p < 0.05). Conclusion: Nanopore sequencing is a useful method to investigate mtDNA m

Published
2021

33. Single‑nuclei chromatin profiling of ventral midbrain reveals cell identity transcription factors and cell‑type‑specific gene regulatory variation

Author

Luxembourg National Research Fund, Fondation du Pélican de Mie et Pierre Hippert-Faber, Luxembourg Rotary Foundation [sponsor], Gui, Yujuan, Grzyb, Kamil, Thomas, Melanie, Ohnmacht, Jochen, Garcia, Pierre, Buttini, Manuel, Skupin, Alexander, Sauter, Thomas, Sinkkonen, Lasse, Luxembourg National Research Fund, Fondation du Pélican de Mie et Pierre Hippert-Faber, Luxembourg Rotary Foundation [sponsor], Gui, Yujuan, Grzyb, Kamil, Thomas, Melanie, Ohnmacht, Jochen, Garcia, Pierre, Buttini, Manuel, Skupin, Alexander, Sauter, Thomas, and Sinkkonen, Lasse

Abstract

Background: Cell types in ventral midbrain are involved in diseases with variable genetic susceptibility, such as Parkinson’s disease and schizophrenia. Many genetic variants affect regulatory regions and alter gene expression in a cell-type-specific manner depending on the chromatin structure and accessibility. Results: We report 20,658 single-nuclei chromatin accessibility profiles of ventral midbrain from two genetically and phenotypically distinct mouse strains. We distinguish ten cell types based on chromatin profiles and analysis of accessible regions controlling cell identity genes highlights cell-type-specific key transcription factors. Regulatory variation segregating the mouse strains manifests more on transcriptome than chromatin level. However, cell-type-level data reveals changes not captured at tissue level. To discover the scope and cell-type specificity of cis-acting variation in midbrain gene expression, we identify putative regulatory variants and show them to be enriched at differentially expressed loci. Finally, we find TCF7L2 to mediate trans-acting variation selectively in midbrain neurons. Conclusions: Our data set provides an extensive resource to study gene regulation in mesencephalon and provides insights into control of cell identity in the midbrain and identifies cell-type-specific regulatory variation possibly underlying phenotypic and behavioural differences between mouse strains.

Published
2021

34. The Parkinson’s-disease-associated mutation LRRK2-G2019S alters dopaminergic differentiation dynamics via NR2F1

Author

Walter, Jonas, Bolognin, Silvia, Poovathingal, Suresh, Magni, Stefano, Gerard, Déborah, Antony, Paul, Nickels, Sarah Louise, Salamanca, Luis, Berger, Emanuel, Smits, Lisa, Grzyb, Kamil, Perfeito, Rita, Hoel, Fredrik, Qing, Xiaobing, Ohnmacht, Jochen, Bertacchi, Michele, Jarazo, Javier, Ignac, Tomasz, Monzel, Anna, Gonzalez-Cano, Laura, Krüger, Rejko, Sauter, Thomas, Studer, Michele, Pereira de Almeida, Luis, Tronstad, Karl, Sinkkonen, Lasse, Skupin, Alexander, Schwamborn, Jens Christian, Walter, Jonas, Bolognin, Silvia, Poovathingal, Suresh, Magni, Stefano, Gerard, Déborah, Antony, Paul, Nickels, Sarah Louise, Salamanca, Luis, Berger, Emanuel, Smits, Lisa, Grzyb, Kamil, Perfeito, Rita, Hoel, Fredrik, Qing, Xiaobing, Ohnmacht, Jochen, Bertacchi, Michele, Jarazo, Javier, Ignac, Tomasz, Monzel, Anna, Gonzalez-Cano, Laura, Krüger, Rejko, Sauter, Thomas, Studer, Michele, Pereira de Almeida, Luis, Tronstad, Karl, Sinkkonen, Lasse, Skupin, Alexander, and Schwamborn, Jens Christian

Published
2021
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36. Reduced sialylation triggers homeostatic synapse and neuronal loss in middle-aged mice

Author

University of Luxembourg: High Performance Computing - ULHPC [research center], Deutsche For-schungsgemeinschaf, Innovative Medicines Initiative 2 Joint Undertaking, Boehringer IngelheimFonds [sponsor], Klaus, Christine, Hansen, Jan N., Ginolhac, Aurélien, Gérard, Deborah, Gnanapragassam, Vinayaga S., Horstkorte, Rüdiger, Rossdam, Charlotte, Buettner, Falk F. R., Sauter, Thomas, Sinkkonen, Lasse, Neumann, Harald, Linnartz-Gerlach, Bettina, University of Luxembourg: High Performance Computing - ULHPC [research center], Deutsche For-schungsgemeinschaf, Innovative Medicines Initiative 2 Joint Undertaking, Boehringer IngelheimFonds [sponsor], Klaus, Christine, Hansen, Jan N., Ginolhac, Aurélien, Gérard, Deborah, Gnanapragassam, Vinayaga S., Horstkorte, Rüdiger, Rossdam, Charlotte, Buettner, Falk F. R., Sauter, Thomas, Sinkkonen, Lasse, Neumann, Harald, and Linnartz-Gerlach, Bettina

Abstract

Sialic acid-binding receptors (Siglecs) are linked to neurodegenerative processes, but the role of sialic acids in physiological aging is still not fully understood. We investigated the impact of reduced sialylation in the brain of mice heterozygous for the enzyme glucosamine-2-epimerase/N-acetylmannosamine kinase (GNE+/-) that is essential for sialic acid biosynthesis. We demonstrate that GNE+/- mice have hyposialylation in different brain regions, less synapses in the hippocampus and reduced microglial arborization already at 6 months followed by increased loss of neurons at 12 months. A transcriptomic analysis revealed no pro-inflammatory changes indicating an innate homeostatic immune process leading to the removal of synapses and neurons in GNE+/- mice during aging. Crossbreeding with complement C3-deficient mice rescued the earlier onset of neuronal and synaptic loss as well as the changes in microglial arborization. Thus, sialic acids of the glycocalyx contribute to brain homeostasis and act as a recognition system for the innate immune system in the brain.

Published
2020

37. Missing heritability in Parkinson’s disease: the emerging role of non‑coding genetic variation

Author

Luxembourg Centre for Systems Biomedicine (LCSB) [research center], Department of Life Sciences and Medicine (DLSM) [research center], Luxembourg National Research Fund [sponsor], Fondation du Pélican de Mie et Pierre Hippert-Faber [sponsor], Ohnmacht, Jochen, May, Patrick, Sinkkonen, Lasse, Krüger, Rejko, Luxembourg Centre for Systems Biomedicine (LCSB) [research center], Department of Life Sciences and Medicine (DLSM) [research center], Luxembourg National Research Fund [sponsor], Fondation du Pélican de Mie et Pierre Hippert-Faber [sponsor], Ohnmacht, Jochen, May, Patrick, Sinkkonen, Lasse, and Krüger, Rejko

Abstract

Parkinson's disease (PD) is a neurodegenerative disorder caused by a complex interplay of genetic and environmental factors. For the stratification of PD patients and the development of advanced clinical trials, including causative treatments, a better understanding of the underlying genetic architecture of PD is required. Despite substantial efforts, genome-wide association studies have not been able to explain most of the observed heritability. The majority of PD-associated genetic variants are located in non-coding regions of the genome. A systematic assessment of their functional role is hampered by our incomplete understanding of genotype-phenotype correlations, for example through differential regulation of gene expression. Here, the recent progress and remaining challenges for the elucidation of the role of non-coding genetic variants is reviewed with a focus on PD as a complex disease with multifactorial origins. The function of gene regulatory elements and the impact of non-coding variants on them, and the means to map these elements on a genome-wide level, will be delineated. Moreover, examples of how the integration of functional genomic annotations can serve to identify disease-associated pathways and to prioritize disease- and cell type-specific regulatory variants will be given. Finally, strategies for functional validation and considerations for suitable model systems are outlined. Together this emphasizes the contribution of rare and common genetic variants to the complex pathogenesis of PD and points to remaining challenges for the dissection of genetic complexity that may allow for better stratification, improved diagnostics and more targeted treatments for PD in the future.

Published
2020

38. Pituitary Tumor Transforming Gene 1 Orchestrates Gene Regulatory Variation in Mouse Ventral Midbrain During Aging

Author

Fonds National de la Recherche - FnR [sponsor], Gui, Yujuan, Thomas, Mélanie H., Garcia, Pierre, Karout, Mona, Halder, Rashi, Michelucci, Alessandro, Kollmus, Heike, Zhou, Cuiqi, Melmed, Shlomo, Schughart, Klaus, Balling, Rudolf, Mittelbronn, Michel, Nadeau, Joseph H., Williams, Robert W., Sauter, Thomas, Buttini, Manuel, Sinkkonen, Lasse, Fonds National de la Recherche - FnR [sponsor], Gui, Yujuan, Thomas, Mélanie H., Garcia, Pierre, Karout, Mona, Halder, Rashi, Michelucci, Alessandro, Kollmus, Heike, Zhou, Cuiqi, Melmed, Shlomo, Schughart, Klaus, Balling, Rudolf, Mittelbronn, Michel, Nadeau, Joseph H., Williams, Robert W., Sauter, Thomas, Buttini, Manuel, and Sinkkonen, Lasse

Abstract

Dopaminergic neurons in the midbrain are of particular interest due to their role in diseases such as Parkinson’s disease and schizophrenia. Genetic variation between individuals can affect the integrity and function of dopaminergic neurons but the DNA variants and molecular cascades modulating dopaminergic neurons and other cells types of ventral midbrain remain poorly defined. Three genetically diverse inbred mouse strains – C57BL/6J, A/J, and DBA/2J – differ significantly in their genomes (∼7 million variants), motor and cognitive behavior, and susceptibility to neurotoxins. To further dissect the underlying molecular networks responsible for these variable phenotypes, we generated RNA-seq and ChIP-seq data from ventral midbrains of the 3 mouse strains. We defined 1000–1200 transcripts that are differentially expressed among them. These widespread differences may be due to altered activity or expression of upstream transcription factors. Interestingly, transcription factors were significantly underrepresented among the differentially expressed genes, and only one transcription factor, Pttg1, showed significant differences between all three strains. The changes in Pttg1 expression were accompanied by consistent alterations in histone H3 lysine 4 trimethylation at Pttg1 transcription start site. The ventral midbrain transcriptome of 3-month-old C57BL/6J congenic Pttg1–/– mutants was only modestly altered, but shifted toward that of A/J and DBA/2J in 9-month-old mice. Principle component analysis (PCA) identified the genes underlying the transcriptome shift and deconvolution of these bulk RNA-seq changes using midbrain single cell RNA-seq data suggested that the changes were occurring in several different cell types, including neurons, oligodendrocytes, and astrocytes. Taken together, our results show that Pttg1 contributes to gene regulatory variation between mouse strains and influences mouse midbrain transcriptome during aging.

Published
2020

40. Strain- and age-dependent features of the nigro-striatal circuit in three common laboratory mouse strains, C57BL/6J, A/J, and DBA/2J -Implications for Parkinson’s disease modeling

Author

Thomas, Mélanie H., primary, Karout, Mona, additional, Rodriguez, Beatriz Pardo, additional, Gui, Yujuan, additional, Jaeger, Christian, additional, Michelucci, Alessandro, additional, Kollmus, Heike, additional, Schughart, Klaus, additional, Coowar, Djalil, additional, Balling, Rudi, additional, Mittelbronn, Michel, additional, Sinkkonen, Lasse, additional, Garcia, Pierre, additional, and Buttini, Manuel, additional

Published
2020
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42. Pituitary Tumor Transforming Gene 1 Orchestrates Gene Regulatory Variation in Mouse Ventral Midbrain During Aging

Author

Gui, Yujuan, primary, Thomas, Mélanie H., additional, Garcia, Pierre, additional, Karout, Mona, additional, Halder, Rashi, additional, Michelucci, Alessandro, additional, Kollmus, Heike, additional, Zhou, Cuiqi, additional, Melmed, Shlomo, additional, Schughart, Klaus, additional, Balling, Rudi, additional, Mittelbronn, Michel, additional, Nadeau, Joseph H., additional, Williams, Robert W., additional, Sauter, Thomas, additional, Buttini, Manuel, additional, and Sinkkonen, Lasse, additional

Published
2020
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44. Quantitative trait locus mapping identifies Col4a6 as a novel regulator of striatal dopamine level and axonal branching in mice

Author

Thomas, Mélanie H., primary, Gui, Yujuan, additional, Garcia, Pierre, additional, Karout, Mona, additional, Jaeger, Christian, additional, Hodak, Zdenka, additional, Michelucci, Alessandro, additional, Kollmus, Heike, additional, Centeno, Arthur, additional, Schughart, Klaus, additional, Balling, Rudi, additional, Mittelbronn, Michel, additional, Nadeau, Joseph H., additional, Williams, Robert W., additional, Sauter, Thomas, additional, Sinkkonen, Lasse, additional, and Buttini, Manuel, additional

Published
2020
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47. Identification of genes under dynamic post-transcriptional regulation from time-series epigenomic data

Author

Fonds National de la Recherche - FnR [sponsor], Becker, Julia Christina, Gerard, Déborah, Ginolhac, Aurélien, Sauter, Thomas, Sinkkonen, Lasse, Fonds National de la Recherche - FnR [sponsor], Becker, Julia Christina, Gerard, Déborah, Ginolhac, Aurélien, Sauter, Thomas, and Sinkkonen, Lasse

Abstract

Aim: Prediction of genes under dynamic post-transcriptional regulation from epigenomic data. Materials & methods: We used time-series profiles of chromatin immunoprecipitation-seq data of histone modifications from differentiation of mesenchymal progenitor cells toward adipocytes and osteoblasts to predict gene expression levels at five time points in both lineages and estimated the deviation of those predictions from the RNA-seq measured expression levels using linear regression. Results & conclusion: The genes with biggest changes in their estimated stability across the time series are enriched for noncoding RNAs and lineage-specific biological processes. Clustering mRNAs according to their stability dynamics allows identification of post-transcriptionally coregulated mRNAs and their shared regulators through sequence enrichment analysis. We identify miR-204 as an early induced adipogenic microRNA targeting Akr1c14 and Il1rl1.

Published
2019

48. Impaired serine metabolism complements LRRK2-G2019S pathogenicity in PD patients

Author

Nickels, Sarah, Walter, Jonas, Bolognin, Silvia, Gerard, Deborah, Jäger, Christian, Qing, Xiaobing, Tisserand, Johan, Jarazo, Javier, Hemmer, Kathrin, Harms, Amy, Halder, Rashi, Lucarelli, Philippe, Berger, Emanuel, Antony, Paul, Glaab, Enrico, Hankemeier, Thomas, Klein, Christine, Sauter, Thomas, Sinkkonen, Lasse, Schwamborn, Jens Christian, Nickels, Sarah, Walter, Jonas, Bolognin, Silvia, Gerard, Deborah, Jäger, Christian, Qing, Xiaobing, Tisserand, Johan, Jarazo, Javier, Hemmer, Kathrin, Harms, Amy, Halder, Rashi, Lucarelli, Philippe, Berger, Emanuel, Antony, Paul, Glaab, Enrico, Hankemeier, Thomas, Klein, Christine, Sauter, Thomas, Sinkkonen, Lasse, and Schwamborn, Jens Christian

Published
2019
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