TY  - JOUR
A1  - Jansch, Charline
A1  - Günther, Katharina
A1  - Waider, Jonas
A1  - Ziegler, Georg C.
A1  - Forero, Andrea
A1  - Kollert, Sina
A1  - Svirin, Evgeniy
A1  - Pühringer, Dirk
A1  - Kwok, Chee Keong
A1  - Ullmann, Reinhard
A1  - Maierhofer, Anna
A1  - Flunkert, Julia
A1  - Haaf, Thomas
A1  - Edenhofer, Frank
A1  - Lesch, Klaus-Peter
T1  - Generation of a human induced pluripotent stem cell (iPSC) line from a 51-year-old female with attention-deficit/hyperactivity disorder (ADHD) carrying a duplication of SLC2A3
JF  - Stem Cell Research
N2  - Fibroblasts were isolated from a skin biopsy of a clinically diagnosed 51-year-old female attention-deficit/hyperactivity disorder (ADHD) patient carrying a duplication of SLC2A3, a gene encoding neuronal glucose transporter-3 (GLUT3). Patient fibroblasts were infected with Sendai virus, a single-stranded RNA virus, to generate transgene-free human induced pluripotent stem cells (iPSCs). SLC2A3-D2-iPSCs showed expression of pluripotency-associated markers, were able to differentiate into cells of the three germ layers in vitro and had a normal female karyotype. This in vitro cellular model can be used to study the role of risk genes in the pathogenesis of ADHD, in a patient-specific manner.
KW  - ADHD
KW  - SLC2A3
KW  - induced pluripotent stem cells
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-176654
VL  - 28
ER  - 
TY  - JOUR
A1  - Schäfer, Nadine
A1  - Friedrich, Maximilian
A1  - Jørgensen, Morten Egevang
A1  - Kollert, Sina
A1  - Koepsell, Hermann
A1  - Wischmeyer, Erhard
A1  - Lesch, Klaus-Peter
A1  - Geiger, Dietmar
A1  - Döring, Frank
T1  - Functional analysis of a triplet deletion in the gene encoding the sodium glucose transporter 3, a potential risk factor for ADHD
JF  - PLoS ONE
N2  - Sodium-glucose transporters (SGLT) belong to the solute carrier 5 family, which is characterized by sodium dependent transport of sugars and other solutes. In contrast, the human SGLT3 (hSGLT3) isoform, encoded by SLC5A4, acts as a glucose sensor that does not transport sugar but induces membrane depolarization by Na\(^{+}\) currents upon ligand binding. Whole-exome sequencing (WES) of several extended pedigrees with high density of attention-deficit/hyperactivity disorder (ADHD) identified a triplet ATG deletion in SLC5A4 leading to a single amino acid loss (ΔM500) in the hSGLT3 protein imperfectly co-segregating with the clinical phenotype of ADHD. Since mutations in homologous domains of hSGLT1 and hSGLT2 were found to affect intestinal and renal function, respectively, we analyzed the functional properties of hSGLT3[wt] and [ΔM500] by voltage clamp and current clamp recordings from cRNA-injected Xenopus laevis oocytes.
The cation conductance of hSGLT3[wt] was activated by application of glucose or the specific agonist 1-desoxynojirimycin (DNJ) as revealed by inward currents in the voltage clamp configuration and cell depolarization in the current clamp mode. Almost no currents and changes in membrane potential were observed when glucose or DNJ were applied to hSGLT3[ΔM500]-injected oocytes, demonstrating a loss of function by this amino acid deletion in hSGLT3. To monitor membrane targeting of wt and mutant hSGLT3, fusion constructs with YFP were generated, heterologously expressed in Xenopus laevis oocytes and analyzed for membrane fluorescence by confocal microscopy. In comparison to hSGLT3[wt] the fluorescent signal of mutant [ΔM500] was reduced by 43% indicating that the mutant phenotype might mainly result from inaccurate membrane targeting. As revealed by homology modeling, residue M500 is located in TM11 suggesting that in addition to the core structure (TM1-TM10) of the transporter, the surrounding TMs are equally crucial for transport/sensor function.
In conclusion, our findings indicate that the deletion [ΔM500] in hSGLT3 inhibits membrane targeting and thus largely disrupts glucose-induced sodium conductance, which may, in interaction with other ADHD risk-related gene variants, influence the risk for ADHD in deletion carriers.
KW  - Xenopus laevis oocytes
KW  - ADHD
KW  - glucose
KW  - cell membranes
KW  - membrane proteins
KW  - membrane potential
KW  - crystal structure
KW  - amino acid analysis
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-176495
VL  - 13
IS  - 10
ER  - 
TY  - JOUR
A1  - Brevik, Erlend J
A1  - van Donkelaar, Marjolein M. J.
A1  - Weber, Heike
A1  - Sánchez-Mora, Cristina
A1  - Jacob, Christian
A1  - Rivero, Olga
A1  - Kittel-Schneider, Sarah
A1  - Garcia-martinez, Iris
A1  - Aebi, Marcel
A1  - van Hulzen, Kimm
A1  - Cormand, Bru
A1  - Ramos-Quiroga, Josep A
A1  - Lesch, Klaus-Peter
A1  - Reif, Andreas
A1  - Ribases, Marta
A1  - Franke, Barbara
A1  - Posserud, Maj-Britt
A1  - Johansson, Stefan
A1  - Lundervold, Astri J.
A1  - Haavik, Jan
A1  - Zayats, Tetyana
T1  - Genome-wide analyses of aggressiveness in attention-deficit hyperactivity disorder
JF  - American Journal of Medical Genetics Part B-Neuropsychiatric Genetics
N2  - Aggressiveness is a behavioral trait that has the potential to be harmful to individuals and society. With an estimated heritability of about 40%, genetics is important in its development. We performed an exploratory genome-wide association (GWA) analysis of childhood aggressiveness in attention deficit hyperactivity disorder (ADHD) to gain insight into the underlying biological processes associated with this trait. Our primary sample consisted of 1,060 adult ADHD patients (aADHD). To further explore the genetic architecture of childhood aggressiveness, we performed enrichment analyses of suggestive genome-wide associations observed in aADHD among GWA signals of dimensions of oppositionality (defiant/vindictive and irritable dimensions) in childhood ADHD (cADHD). No single polymorphism reached genome-wide significance (P<5.00E-08). The strongest signal in aADHD was observed at rs10826548, within a long noncoding RNA gene (beta = -1.66, standard error (SE) = 0.34, P = 1.07E-06), closely followed by rs35974940 in the neurotrimin gene (beta = 3.23, SE = 0.67, P = 1.26E-06). The top GWA SNPs observed in aADHD showed significant enrichment of signals from both the defiant/vindictive dimension (Fisher's P-value = 2.28E-06) and the irritable dimension in cADHD (Fisher's P-value = 0.0061). In sum, our results identify a number of biologically interesting markers possibly underlying childhood aggressiveness and provide targets for further genetic exploration of aggressiveness across psychiatric disorders.
KW  - Large multicenter ADHD
KW  - Antisocial behavior
KW  - Diagnostic approach
KW  - Rating scale
KW  - Gene
KW  - Deficit/hyperactivity disorder
KW  - Susceptibility loci
KW  - Conduct disorder
KW  - Association
KW  - Adult
KW  - ADHD
KW  - Aggression
KW  - GWAS
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-188116
VL  - 171B
IS  - 5
ER  - 
TY  - JOUR
A1  - Zayats, T
A1  - Jacobsen, KK
A1  - Kleppe, R
A1  - Jacob, CP
A1  - Kittel-Schneider, S
A1  - Ribasés, M
A1  - Ramos-Quiroga, JA
A1  - Richarte, V
A1  - Casas, M
A1  - Mota, NR
A1  - Grevet, EH
A1  - Klein, M
A1  - Corominas, J
A1  - Bralten, J
A1  - Galesloot, T
A1  - Vasquez, AA
A1  - Herms, S
A1  - Forstner, AJ
A1  - Larsson, H
A1  - Breen, G
A1  - Asherson, P
A1  - Gross-Lesch, S
A1  - Lesch, KP
A1  - Cichon, S
A1  - Gabrielsen, MB
A1  - Holmen, OL
A1  - Bau, CHD
A1  - Buitelaar, J
A1  - Kiemeney, L
A1  - Faraone, SV
A1  - Cormand, B
A1  - Franke, B
A1  - Reif, A
A1  - Haavik, J
A1  - Johansson, S
T1  - Exome chip analyses in adult attention deficit hyperactivity disorder
JF  - Translational Psychiatry
N2  - Attention-deficit/hyperactivity disorder (ADHD) is a highly heritable childhood-onset neuropsychiatric condition, often persisting into adulthood. The genetic architecture of ADHD, particularly in adults, is largely unknown. We performed an exome-wide scan of adult ADHD using the Illumina Human Exome Bead Chip, which interrogates over 250 000 common and rare variants. Participants were recruited by the International Multicenter persistent ADHD CollaboraTion (IMpACT). Statistical analyses were divided into 3 steps: (1) gene-level analysis of rare variants (minor allele frequency (MAF)<1%); (2) single marker association tests of common variants (MAF⩾1%), with replication of the top signals; and (3) pathway analyses. In total, 9365 individuals (1846 cases and 7519 controls) were examined. Replication of the most associated common variants was attempted in 9847 individuals (2077 cases and 7770 controls) using fixed-effects inverse variance meta-analysis. With a Bonferroni-corrected significance level of 1.82E−06, our analyses of rare coding variants revealed four study-wide significant loci: 6q22.1 locus (P=4.46E−08), where NT5DC1 and COL10A1 reside; the SEC23IP locus (P=6.47E−07); the PSD locus (P=7.58E−08) and ZCCHC4 locus (P=1.79E−06). No genome-wide significant association was observed among the common variants. The strongest signal was noted at rs9325032 in PPP2R2B (odds ratio=0.81, P=1.61E−05). Taken together, our data add to the growing evidence of general signal transduction molecules (NT5DC1, PSD, SEC23IP and ZCCHC4) having an important role in the etiology of ADHD. Although the biological implications of these findings need to be further explored, they highlight the possible role of cellular communication as a potential core component in the development of both adult and childhood forms of ADHD.
KW  - chip analyses
KW  - ADHD
KW  - adulthood
KW  - Illumina Human Exome Bead Chip
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-168297
VL  - 6
IS  - e923
ER  -