Chromosome 1, factor 2 combined scores. Factor two explains 14% of the variance and is loaded such that higher values reflect a later age of onset of drinking, higher harm avoidance and lower novelty seeking. Peak was plotted between D1S1595 (155688364) and D1S518 (187550535)
Authors:
Dick DM, Nurnberger J Jr, Edenberg HJ, Goate A, Crowe R, Rice J, Bucholz KK, Kramer J, Schuckit MA, Smith TL, Porjesz B, Begleiter H, Hesselbrock V, Foroud T
The chromosome 1 region has peak markers with of LOD of 3.45 and 3.46 for Alcoholism gender age and constraint as D1S2878 (165403366) D1S196 (167604128). Arbitrary interval of 25 MBp on each side of the peak makers was uploaded.
Authors:
Hill SY, Shen S, Zezza N, Hoffman EK, Perlin M, Allan W
List of positional candidate genes after correcting for multiple testing and controlling the false discovery rate from genome wide association studies (GWAS) retrieved from the NHGRI-EBI Catalog of published genome-wide association studies (http://www.ebi.ac.uk/gwas/). The disease/trait examined in this study, as reported by the authors, was Parental longevity (combined parental age at death). The EFO term parental longevity was annotated to this set after curation by NHGRI-EBI. Intergenic SNPS were mapped to both the upstream and downstream gene. P-value uploaded. This gene set was generated using gwas2gs v. 0.1.8 and the GWAS Catalog v. 1.0.1.
Authors:
LC Pilling, JL Atkins, K Bowman, SE Jones, J Tyrrell, RN Beaumont, KS Ruth, MA Tuke, H Yaghootkar, AR Wood, RM Freathy, A Murray, MN Weedon, L Xue, K Lunetta, JM Murabito, LW Harries, JM Robine, C Brayne, GA Kuchel, L Ferrucci, TM Frayling, D Melzer
List of positional candidate genes after correcting for multiple testing and controlling the false discovery rate from genome wide association studies (GWAS) retrieved from the NHGRI-EBI Catalog of published genome-wide association studies (http://www.ebi.ac.uk/gwas/). The disease/trait examined in this study, as reported by the authors, was QT interval. The EFO term QT interval was annotated to this set after curation by NHGRI-EBI. Intergenic SNPS were mapped to both the upstream and downstream gene. P-value uploaded. This gene set was generated using gwas2gs v. 0.1.8 and the GWAS Catalog v. 1.0.1.
Authors:
JG Smith, CL Avery, DS Evans, MA Nalls, YA Meng, EN Smith, C Palmer, T Tanaka, R Mehra, AM Butler, T Young, SG Buxbaum, KF Kerr, GS Berenson, RB Schnabel, G Li, PT Ellinor, JW Magnani, W Chen, JC Bis, JD Curb, WC Hsueh, JI Rotter, Y Liu, AB Newman, MC Limacher, KE North, AP Reiner, PM Quibrera, NJ Schork, AB Singleton, BM Psaty, EZ Soliman, AJ Solomon, SR Srinivasan, A Alonso, R Wallace, S Redline, ZM Zhang, WS Post, AB Zonderman, HA Taylor, SS Murray, L Ferrucci, DE Arking, MK Evans, ER Fox, N Sotoodehnia, SR Heckbert, EA Whitsel, C Newton-Cheh
List of positional candidate genes after correcting for multiple testing and controlling the false discovery rate from genome wide association studies (GWAS) retrieved from the NHGRI-EBI Catalog of published genome-wide association studies (http://www.ebi.ac.uk/gwas/). The disease/trait examined in this study, as reported by the authors, was Mitochondrial DNA levels. The EFO term mitochondrial DNA measurement was annotated to this set after curation by NHGRI-EBI. Intergenic SNPS were mapped to both the upstream and downstream gene. P-value uploaded. This gene set was generated using gwas2gs v. 0.1.8 and the GWAS Catalog v. 1.0.1.
Authors:
S López, A Buil, JC Souto, J Casademont, A Martinez-Perez, L Almasy, JM Soria
List of positional candidate genes after correcting for multiple testing and controlling the false discovery rate from genome wide association studies (GWAS) retrieved from the NHGRI-EBI Catalog of published genome-wide association studies (http://www.ebi.ac.uk/gwas/). The disease/trait examined in this study, as reported by the authors, was QT interval. The EFO term QT interval was annotated to this set after curation by NHGRI-EBI. Intergenic SNPS were mapped to both the upstream and downstream gene. P-value uploaded. This gene set was generated using gwas2gs v. 0.1.8 and the GWAS Catalog v. 1.0.1.
Authors:
DE Arking, SL Pulit, L Crotti, P van der Harst, PB Munroe, TT Koopmann, N Sotoodehnia, EJ Rossin, M Morley, X Wang, AD Johnson, A Lundby, DF Gudbjartsson, PA Noseworthy, M Eijgelsheim, Y Bradford, KV Tarasov, M Dörr, M Müller-Nurasyid, AM Lahtinen, IM Nolte, AV Smith, JC Bis, A Isaacs, SJ Newhouse, DS Evans, WS Post, D Waggott, LP Lyytikäinen, AA Hicks, L Eisele, D Ellinghaus, C Hayward, P Navarro, S Ulivi, T Tanaka, DJ Tester, S Chatel, S Gustafsson, M Kumari, RW Morris, ÅT Naluai, S Padmanabhan, A Kluttig, B Strohmer, AG Panayiotou, M Torres, M Knoflach, JA Hubacek, K Slowikowski, S Raychaudhuri, RD Kumar, TB Harris, LJ Launer, AR Shuldiner, A Alonso, JS Bader, G Ehret, H Huang, WH Kao, JB Strait, PW Macfarlane, M Brown, MJ Caulfield, NJ Samani, F Kronenberg, J Willeit, JG Smith, KH Greiser, H Meyer Zu Schwabedissen, K Werdan, M Carella, L Zelante, SR Heckbert, BM Psaty, JI Rotter, I Kolcic, O Polašek, AF Wright, M Griffin, MJ Daly, DO Arnar, H Hólm, U Thorsteinsdottir, JC Denny, DM Roden, RL Zuvich, V Emilsson, AS Plump, MG Larson, CJ O'Donnell, X Yin, M Bobbo, AP D'Adamo, A Iorio, G Sinagra, A Carracedo, SR Cummings, MA Nalls, A Jula, KK Kontula, A Marjamaa, L Oikarinen, M Perola, K Porthan, R Erbel, P Hoffmann, KH Jöckel, H Kälsch, MM Nöthen, M den Hoed, RJ Loos, DS Thelle, C Gieger, T Meitinger, S Perz, A Peters, H Prucha, MF Sinner, M Waldenberger, RA de Boer, L Franke, PA van der Vleuten, BM Beckmann, E Martens, A Bardai, N Hofman, AA Wilde, ER Behr, C Dalageorgou, JR Giudicessi, A Medeiros-Domingo, J Barc, F Kyndt, V Probst, A Ghidoni, R Insolia, RM Hamilton, SW Scherer, J Brandimarto, K Margulies, CE Moravec, F del Greco M, C Fuchsberger, JR O'Connell, WK Lee, GC Watt, H Campbell, SH Wild, NE El Mokhtari, N Frey, FW Asselbergs, I Mateo Leach, G Navis, MP van den Berg, DJ van Veldhuisen, M Kellis, BP Krijthe, OH Franco, A Hofman, JA Kors, AG Uitterlinden, JC Witteman, L Kedenko, C Lamina, BA Oostra, GR Abecasis, EG Lakatta, A Mulas, M Orrú, D Schlessinger, M Uda, MR Markus, U Völker, H Snieder, TD Spector, J Ärnlöv, L Lind, J Sundström, AC Syvänen, M Kivimaki, M Kähönen, N Mononen, OT Raitakari, JS Viikari, V Adamkova, S Kiechl, M Brion, AN Nicolaides, B Paulweber, J Haerting, AF Dominiczak, F Nyberg, PH Whincup, AD Hingorani, JJ Schott, CR Bezzina, E Ingelsson, L Ferrucci, P Gasparini, JF Wilson, I Rudan, A Franke, TW Mühleisen, PP Pramstaller, TJ Lehtimäki, AD Paterson, A Parsa, Y Liu, CM van Duijn, DS Siscovick, V Gudnason, Y Jamshidi, V Salomaa, SB Felix, S Sanna, MD Ritchie, BH Stricker, K Stefansson, LA Boyer, TP Cappola, JV Olsen, K Lage, PJ Schwartz, S Kääb, A Chakravarti, MJ Ackerman, A Pfeufer, PI de Bakker, C Newton-Cheh
Postmortem human brain tissue from the caudate nucleus region of a total of 48 individuals with Alcohol Use Disorder (AUD) and 51 control individuals were taken and RNA extracted from frozen tissue. Sequencing was carried out using the NovaSeq 6000 (Illumina) platform, and gene expression analysis was carried out with respect to AUD and control samples. Gene symbols from Entrez ids are used and Logbase2 FC as provided by the authors are annotated.
Authors:
Lea Zillich, Eric Poisel, Josef Frank, Jerome C Foo, Marion M Friske, Fabian Streit, Lea Sirignano, Stefanie Heilmann-Heimbach, André Heimbach, Per Hoffmann, Franziska Degenhardt, Anita C Hansson, Georgy Bakalkin, Markus M Nöthen, Marcella Rietschel, Rainer Spanagel, Stephanie H Witt
Postmortem human brain tissue from the putamen region of a total of 48 individuals with Alcohol Use Disorder (AUD) and 51 control individuals were taken and RNA extracted from frozen tissue. Sequencing was carried out using the NovaSeq 6000 (Illumina) platform, and gene expression analysis was carried out with respect to AUD and control samples. Gene symbols from Entrez ids are used and Logbase2 FC as provided by the authors are annotated.
Authors:
Lea Zillich, Eric Poisel, Josef Frank, Jerome C Foo, Marion M Friske, Fabian Streit, Lea Sirignano, Stefanie Heilmann-Heimbach, André Heimbach, Per Hoffmann, Franziska Degenhardt, Anita C Hansson, Georgy Bakalkin, Markus M Nöthen, Marcella Rietschel, Rainer Spanagel, Stephanie H Witt
Postmortem human brain tissue from the ventral striatum from postmortem human brain tissue with Alcohol Use Disorder (AUD) region of a total of 48 individuals with Alcohol Use Disorder (AUD) and 51 control individuals were taken and RNA extracted from frozen tissue. Sequencing was carried out using the NovaSeq 6000 (Illumina) platform, and gene expression analysis was carried out with respect to AUD and control samples. Gene symbols from Entrez ids are used and Logbase2 FC as provided by the authors are annotated.
Authors:
Lea Zillich, Eric Poisel, Josef Frank, Jerome C Foo, Marion M Friske, Fabian Streit, Lea Sirignano, Stefanie Heilmann-Heimbach, André Heimbach, Per Hoffmann, Franziska Degenhardt, Anita C Hansson, Georgy Bakalkin, Markus M Nöthen, Marcella Rietschel, Rainer Spanagel, Stephanie H Witt
Data from GEO GSE194368 and analyzed using GEO2R, only top gene shown. Authors identified transcriptional adaptations of GR signaling in the amygdala of humans with OUD. Thus, GRs, their coregulators and downstream systems may represent viable therapeutic targets to treat the “stress side” of OUD.
Authors:
Stephanie A Carmack, Janaina C M Vendruscolo, M Adrienne McGinn, Jorge Miranda-Barrientos, Vez Repunte-Canonigo, Gabriel D Bosse, Daniele Mercatelli, Federico M Giorgi, Yu Fu, Anthony J Hinrich, Francine M Jodelka, Karen Ling, Robert O Messing, Randall T Peterson, Frank Rigo, Scott Edwards, Pietro P Sanna, Marisela Morales, Michelle L Hastings, George F Koob, Leandro F Vendruscolo
Data from GEO GSE194368 and analyzed using GEO2R, only top gene shown. Authors identified transcriptional adaptations of GR signaling in the amygdala of humans with OUD. Thus, GRs, their coregulators and downstream systems may represent viable therapeutic targets to treat the “stress side” of OUD.
Authors:
Stephanie A Carmack, Janaina C M Vendruscolo, M Adrienne McGinn, Jorge Miranda-Barrientos, Vez Repunte-Canonigo, Gabriel D Bosse, Daniele Mercatelli, Federico M Giorgi, Yu Fu, Anthony J Hinrich, Francine M Jodelka, Karen Ling, Robert O Messing, Randall T Peterson, Frank Rigo, Scott Edwards, Pietro P Sanna, Marisela Morales, Michelle L Hastings, George F Koob, Leandro F Vendruscolo
Transcriptional alterations in dorsolateral prefrontal cortex and nucleus accumbens implicate neuroinflammation and synaptic remodeling in opioid use disorder. Transcriptomic profile of 20 control subjects and 20 OUD subjects in brain region DLPFC and NAC. Analyzed using GEO2R (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE174409) separately for each brain region, comparing OUD and control samples.
Authors:
Xiangning Xue, Wei Zong, Jill R Glausier, Sam-Moon Kim, Micah A Shelton, BaDoi N Phan, Chaitanya Srinivasan, Andreas R Pfenning, George C Tseng, David A Lewis, Marianne L Seney, Ryan W Logan
Transcriptional alterations in dorsolateral prefrontal cortex and nucleus accumbens implicate neuroinflammation and synaptic remodeling in opioid use disorder. Transcriptomic profile of 20 control subjects and 20 OUD subjects in brain region DLPFC and NAC. Analyzed using GEO2R (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE174409) separately for each brain region, comparing OUD and control samples.
Authors:
Xiangning Xue, Wei Zong, Jill R Glausier, Sam-Moon Kim, Micah A Shelton, BaDoi N Phan, Chaitanya Srinivasan, Andreas R Pfenning, George C Tseng, David A Lewis, Marianne L Seney, Ryan W Logan
Transcriptional alterations in dorsolateral prefrontal cortex and nucleus accumbens implicate neuroinflammation and synaptic remodeling in opioid use disorder. Transcriptomic profile of 20 control subjects and 20 OUD subjects in brain region DLPFC and NAC. Analyzed using GEO2R (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE174409) separately for each brain region, comparing OUD and control samples.
Authors:
Xiangning Xue, Wei Zong, Jill R Glausier, Sam-Moon Kim, Micah A Shelton, BaDoi N Phan, Chaitanya Srinivasan, Andreas R Pfenning, George C Tseng, David A Lewis, Marianne L Seney, Ryan W Logan
Postmortem tissue samples of the dorsolateral prefrontal cortex (DLPFC) from 153 deceased individuals (Mage = 35.4; 62% male; 77% European ancestry). Study groups included 72 brain samples from individuals who died of acute opioid intoxication, 53 psychiatric controls, and 28 normal controls. Whole transcriptome RNA-sequencing was used to generate exon counts, and differential expression was tested using limma-voom. Analyses were adjusted for relevant sociodemographic characteristics, technical covariates, and cryptic relatedness using quality surrogate variables. Weighted correlation network analysis and gene set enrichment analyses also were conducted.
Authors:
David W Sosnowski, Andrew E Jaffe, Ran Tao, Amy Deep-Soboslay, Chang Shu, Sarven Sabunciyan, Joel E Kleinman, Thomas M Hyde, Brion S Maher
Postmortem tissue samples of the dorsolateral prefrontal cortex (DLPFC) from 153 deceased individuals (Mage = 35.4; 62% male; 77% European ancestry). Study groups included 72 brain samples from individuals who died of acute opioid intoxication, 53 psychiatric controls, and 28 normal controls. Whole transcriptome RNA-sequencing was used to generate exon counts, and differential expression was tested using limma-voom. Analyses were adjusted for relevant sociodemographic characteristics, technical covariates, and cryptic relatedness using quality surrogate variables. Weighted correlation network analysis and gene set enrichment analyses also were conducted.
Authors:
David W Sosnowski, Andrew E Jaffe, Ran Tao, Amy Deep-Soboslay, Chang Shu, Sarven Sabunciyan, Joel E Kleinman, Thomas M Hyde, Brion S Maher
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
DEG human CN astrocytes CocUD vs control_avg log2FC
Description:
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
We performed single-nuclei multiome profiling on postmortem caudate nucleus (CN) tissue from six individuals with cocaine use disorder (CocUD) and eight controls, all of African American ancestry. CocUD cases and controls were balanced according to age and sex. We performed single-nuclei ATAC-seq and RNA-seq using the 10x Genomics Multiome platform. Weighted nearest neighbor analysis resulted in an integrated UMAP depicting 13 clearly delineated cell types, including astrocytes, microglia, oligodendrocytes, oligodendrocyte precursor cells (OPC), endothelial cells and lymphocytes, as well as different GABAergic neurons, such as D1 and D2 medium spiny neurons (MSNs) and a small population of cholinergic neurons.
Authors:
Lea Zillich, Annasara Artioli, Veronika Pohořalá, Eric Zillich, Laura Stertz, Hanna Belschner, Ammar Jabali, Josef Frank, Fabian Streit, Diana Avetyan, Maja Völker, Svenja Müller, Anita Hansson, Thomas Meyer, Marcella Rietschel, Rainer Spanagel, Ana Oliveira, Consuelo Walss-Bass, Rick Bernardi, Philipp Koch, Stephanie Witt
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