TY - JOUR A1 - Janz, Anna A1 - Walz, Katharina A1 - Cirnu, Alexandra A1 - Surjanto, Jessica A1 - Urlaub, Daniela A1 - Leskien, Miriam A1 - Kohlhaas, Michael A1 - Nickel, Alexander A1 - Brand, Theresa A1 - Nose, Naoko A1 - Wörsdörfer, Philipp A1 - Wagner, Nicole A1 - Higuchi, Takahiro A1 - Maack, Christoph A1 - Dudek, Jan A1 - Lorenz, Kristina A1 - Klopocki, Eva A1 - Ergün, Süleyman A1 - Duff, Henry J. A1 - Gerull, Brenda T1 - Mutations in DNAJC19 cause altered mitochondrial structure and increased mitochondrial respiration in human iPSC-derived cardiomyocytes JF - Molecular Metabolism N2 - Highlights • Loss of DNAJC19's DnaJ domain disrupts cardiac mitochondrial structure, leading to abnormal cristae formation in iPSC-CMs. • Impaired mitochondrial structures lead to an increased mitochondrial respiration, ROS and an elevated membrane potential. • Mutant iPSC-CMs show sarcomere dysfunction and a trend to more arrhythmias, resembling DCMA-associated cardiomyopathy. Background Dilated cardiomyopathy with ataxia (DCMA) is an autosomal recessive disorder arising from truncating mutations in DNAJC19, which encodes an inner mitochondrial membrane protein. Clinical features include an early onset, often life-threatening, cardiomyopathy associated with other metabolic features. Here, we aim to understand the metabolic and pathophysiological mechanisms of mutant DNAJC19 for the development of cardiomyopathy. Methods We generated induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) of two affected siblings with DCMA and a gene-edited truncation variant (tv) of DNAJC19 which all lack the conserved DnaJ interaction domain. The mutant iPSC-CMs and their respective control cells were subjected to various analyses, including assessments of morphology, metabolic function, and physiological consequences such as Ca\(^{2+}\) kinetics, contractility, and arrhythmic potential. Validation of respiration analysis was done in a gene-edited HeLa cell line (DNAJC19tv\(_{HeLa}\)). Results Structural analyses revealed mitochondrial fragmentation and abnormal cristae formation associated with an overall reduced mitochondrial protein expression in mutant iPSC-CMs. Morphological alterations were associated with higher oxygen consumption rates (OCRs) in all three mutant iPSC-CMs, indicating higher electron transport chain activity to meet cellular ATP demands. Additionally, increased extracellular acidification rates suggested an increase in overall metabolic flux, while radioactive tracer uptake studies revealed decreased fatty acid uptake and utilization of glucose. Mutant iPSC-CMs also showed increased reactive oxygen species (ROS) and an elevated mitochondrial membrane potential. Increased mitochondrial respiration with pyruvate and malate as substrates was observed in mutant DNAJC19tv HeLa cells in addition to an upregulation of respiratory chain complexes, while cellular ATP-levels remain the same. Moreover, mitochondrial alterations were associated with increased beating frequencies, elevated diastolic Ca\(^{2+}\) concentrations, reduced sarcomere shortening and an increased beat-to-beat rate variability in mutant cell lines in response to β-adrenergic stimulation. Conclusions Loss of the DnaJ domain disturbs cardiac mitochondrial structure with abnormal cristae formation and leads to mitochondrial dysfunction, suggesting that DNAJC19 plays an essential role in mitochondrial morphogenesis and biogenesis. Moreover, increased mitochondrial respiration, altered substrate utilization, increased ROS production and abnormal Ca\(^{2+}\) kinetics provide insights into the pathogenesis of DCMA-related cardiomyopathy. KW - cell biology KW - molecular biology KW - dilated cardiomyopathy with ataxia KW - genetics KW - metabolism KW - mitochondria KW - OXPHOS KW - ROS KW - contractility Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350393 SN - 2212-8778 VL - 79 ER - TY - JOUR A1 - Cerezo-Echevarria, Argiñe A1 - Kehl, Alexandra A1 - Beitzinger, Christoph A1 - Müller, Tobias A1 - Klopfleisch, Robert A1 - Aupperle-Lellbach, Heike T1 - Evaluating the histologic grade of digital squamous cell carcinomas in dogs and copy number variation of KIT Ligand — a correlation study JF - Veterinary Sciences N2 - Dark-haired dogs are predisposed to the development of digital squamous cell carcinoma (DSCC). This may potentially suggest an underlying genetic predisposition not yet completely elucidated. Some authors have suggested a potential correlation between the number of copies KIT Ligand (KITLG) and the predisposition of dogs to DSCC, containing a higher number of copies in those affected by the neoplasm. In this study, the aim was to evaluate a potential correlation between the number of copies of the KITLG and the histological grade of malignancy in dogs with DSCC. For this, 72 paraffin-embedded DSCCs with paired whole blood samples of 70 different dogs were included and grouped according to their haircoat color as follow: Group 0/unknown haircoat color (n = 11); Group 1.a/black non-Schnauzers (n = 15); group 1.b/black Schnauzers (n = 33); group 1.c/black and tan dogs (n = 7); group 2/tan animals (n = 4). The DSCCs were histologically graded. Additionally, KITLG Copy Number Variation (CNV) was determined by ddPCR. A significant correlation was observed between KITLG copy number and the histological grade and score value. This finding may suggest a possible factor for the development of canine DSCC, thus potentially having an impact on personalized veterinary oncological strategies and breeding programs. KW - canine KW - cancer KW - toe KW - grading KW - haircoat KW - color KW - genetics KW - gene Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-304824 SN - 2306-7381 VL - 10 IS - 2 ER - TY - JOUR A1 - Lodha, Manivel A1 - Muchsin, Ihsan A1 - Jürges, Christopher A1 - Juranic Lisnic, Vanda A1 - L’Hernault, Anne A1 - Rutkowski, Andrzej J. A1 - Prusty, Bhupesh K. A1 - Grothey, Arnhild A1 - Milic, Andrea A1 - Hennig, Thomas A1 - Jonjic, Stipan A1 - Friedel, Caroline C. A1 - Erhard, Florian A1 - Dölken, Lars T1 - Decoding murine cytomegalovirus JF - PLOS Pathogens N2 - The genomes of both human cytomegalovirus (HCMV) and murine cytomegalovirus (MCMV) were first sequenced over 20 years ago. Similar to HCMV, the MCMV genome had initially been proposed to harbor ≈170 open reading frames (ORFs). More recently, omics approaches revealed HCMV gene expression to be substantially more complex comprising several hundred viral ORFs. Here, we provide a state-of-the art reannotation of lytic MCMV gene expression based on integrative analysis of a large set of omics data. Our data reveal 365 viral transcription start sites (TiSS) that give rise to 380 and 454 viral transcripts and ORFs, respectively. The latter include 200 small ORFs, some of which represented the most highly expressed viral gene products. By combining TiSS profiling with metabolic RNA labelling and chemical nucleotide conversion sequencing (dSLAM-seq), we provide a detailed picture of the expression kinetics of viral transcription. This not only resulted in the identification of a novel MCMV immediate early transcript encoding the m166.5 ORF, which we termed ie4, but also revealed a group of well-expressed viral transcripts that are induced later than canonical true late genes and contain an initiator element (Inr) but no TATA- or TATT-box in their core promoters. We show that viral upstream ORFs (uORFs) tune gene expression of longer viral ORFs expressed in cis at translational level. Finally, we identify a truncated isoform of the viral NK-cell immune evasin m145 arising from a viral TiSS downstream of the canonical m145 mRNA. Despite being ≈5-fold more abundantly expressed than the canonical m145 protein it was not required for downregulating the NK cell ligand, MULT-I. In summary, our work will pave the way for future mechanistic studies on previously unknown cytomegalovirus gene products in an important virus animal model. KW - virology KW - genetics KW - molecular biology KW - immunology KW - microbiology KW - parasitology KW - murine cytomegalovirus (MCMV) Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350480 SN - 1553-7374 VL - 19 IS - 5 ER - TY - JOUR A1 - Sian-Hulsmann, Jeswinder A1 - Riederer, Peter T1 - The nigral coup in Parkinson's Disease by α-synuclein and its associated rebels JF - Cells N2 - The risk of Parkinson's disease increases with age. However, the etiology of the illness remains obscure. It appears highly likely that the neurodegenerative processes involve an array of elements that influence each other. In addition, genetic, endogenous, or exogenous toxins need to be considered as viable partners to the cellular degeneration. There is compelling evidence that indicate the key involvement of modified α-synuclein (Lewy bodies) at the very core of the pathogenesis of the disease. The accumulation of misfolded α-synuclein may be a consequence of some genetic defect or/and a failure of the protein clearance system. Importantly, α-synuclein pathology appears to be a common denominator for many cellular deleterious events such as oxidative stress, mitochondrial dysfunction, dopamine synaptic dysregulation, iron dyshomeostasis, and neuroinflammation. These factors probably employ a common apoptotic/or autophagic route in the final stages to execute cell death. The misfolded α-synuclein inclusions skillfully trigger or navigate these processes and thus amplify the dopamine neuron fatalities. Although the process of neuroinflammation may represent a secondary event, nevertheless, it executes a fundamental role in neurodegeneration. Some viral infections produce parkinsonism and exhibit similar characteristic neuropathological changes such as a modest brain dopamine deficit and α-synuclein pathology. Thus, viral infections may heighten the risk of developing PD. Alternatively, α-synuclein pathology may induce a dysfunctional immune system. Thus, sporadic Parkinson's disease is caused by multifactorial trigger factors and metabolic disturbances, which need to be considered for the development of potential drugs in the disorder. KW - Parkinson's disease KW - substantia nigra KW - alpha-synuclein KW - genetics KW - iron KW - neuroinflammation KW - viruses KW - immunology KW - aging and cell death Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-234073 SN - 2073-4409 VL - 10 IS - 3 ER - TY - JOUR A1 - Gerull, Brenda A1 - Brodehl, Andreas T1 - Genetic Animal Models for Arrhythmogenic Cardiomyopathy JF - Frontiers in Physiology N2 - Arrhythmogenic cardiomyopathy has been clinically defined since the 1980s and causes right or biventricular cardiomyopathy associated with ventricular arrhythmia. Although it is a rare cardiac disease, it is responsible for a significant proportion of sudden cardiac deaths, especially in athletes. The majority of patients with arrhythmogenic cardiomyopathy carry one or more genetic variants in desmosomal genes. In the 1990s, several knockout mouse models of genes encoding for desmosomal proteins involved in cell–cell adhesion revealed for the first time embryonic lethality due to cardiac defects. Influenced by these initial discoveries in mice, arrhythmogenic cardiomyopathy received an increasing interest in human cardiovascular genetics, leading to the discovery of mutations initially in desmosomal genes and later on in more than 25 different genes. Of note, even in the clinic, routine genetic diagnostics are important for risk prediction of patients and their relatives with arrhythmogenic cardiomyopathy. Based on improvements in genetic animal engineering, different transgenic, knock-in, or cardiac-specific knockout animal models for desmosomal and nondesmosomal proteins have been generated, leading to important discoveries in this field. Here, we present an overview about the existing animal models of arrhythmogenic cardiomyopathy with a focus on the underlying pathomechanism and its importance for understanding of this disease. Prospectively, novel mechanistic insights gained from the whole animal, organ, tissue, cellular, and molecular levels will lead to the development of efficient personalized therapies for treatment of arrhythmogenic cardiomyopathy. KW - arrhythmogenic cardiomyopathy KW - desmosomes KW - animal models of human disease KW - sudden death KW - genetics KW - mouse KW - zebrafish Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206903 SN - 1664-042X VL - 11 IS - 264 ER - TY - THES A1 - Blocka, Joanna T1 - Molecular mechanisms underlying Woodhouse-Sakati syndrome: characterization of DCAF17 with specific, polyclonal antibodies T1 - Molekulare Grundlagen des Woodhouse-Sakati Syndroms: Charakterisierung des DCAF 17 mit spezifischen, polyklonalen Antikörpern N2 - Woodhouse-Sakati syndrome (WSS) is a rare multisystemic, autosomal recessive disease. The underlying cause of WSS are mutations of C2orf37 gene, which result in a truncated protein. Little is known about the function of C2orf37 (DDB1-CUL4A-associated factor 17, DCAF17) apart from it being part of the DDB1-CUL4-ROC1 E3 ubiquitin ligase complex, specifically binding directly to DDB1 and serving as a substrate recruiter for E3. There are two major isoforms of DCAF17: beta (65 kDa, 520 amino acids) and alpha (27 kDa, 240 amino acids), which is a C-terminal part of beta. The intracellular localization of the WSS protein is thought to be primarily the nucleolus. A murine ortholog protein was found to be expressed in all tissues with a relatively higher expression in the brain, liver, and skin.The aim of this work was to investigate DCAF17 in HeLa cells in more detail, in particular the redistribution of both WSS isoforms on the subcellular and -nuclear level as well as their chemical features. For these experiments, I developed, through recombinant expression and affinity purification, a specific polyclonal antibody against a WSS-epitope 493-520. Furthermore, three other specific polyclonal antibodies were obtained through affinity purification with help of commercially produced high-affinity epitope peptides.By means of these antibodies, I determined- through immunofluorescence and subcellular protein fractionation- that, apart from the redistribution of the WSS protein within the non-soluble = chromatin-bound nuclear fraction, a significant amount of both WSS isoforms is present in the soluble nuclear fraction. Indeed, treatment of purified nuclear envelopes with an increasing concentration of NaCl as well as urea confirmed a non-covalent binding of the WSS protein to the nuclear envelope with the detachment ofbeta-WSS at a lower NaCl concentration than alpha-WSS. In regard to the chromatin-bound WSS protein, I performed hydrolysis of nuclear and nucleolar extract with DNase and RNase. The results indicate that the WSS protein is bound to DNA but not RNA, with alpha-WSS being possibly located more abundantly in the nucleolus, whereas beta-WSS within other subnuclear departments. Furthermore, in all the above-mentioned experiments, a presence of an 80-kDa protein, which specifically reacted with the polyclonal high-affinity antibodies and showed similar redistribution and chemical features as alpha- and beta-WSS, was observed. In order to investigate whether this protein is a posttranslationally modified WSS isoform, I performed deglycosylation and dephosphorylation of nuclear extract, which showed no disappearance or change in abundance of the 80-kDa band on Western blot. While other ways of poststranslational modification cannot be excluded as the cause of occurrence of the 80-kDa protein, an existence of a third, yet undescribed, major isoform is also conceivable. Summarizing, this work contributed to a deeper characterization of the WSS protein, which can help future investigators in developing new experimental ideas to better understand the pathology of WSS. N2 - Woodhouse-Sakati Syndrom (WSS) ist eine seltene, autosomal rezessive Multisystemerkrankung, deren Ursache Mutationen im C2orf37 Gen, resultierend in einem trunkierten Protein, sind. Die Funktion des C2orf37 (DDB1-CUL4A-associated factor 17, DCAF 17) ist weitgehend unbekannt. Das Protein ist Teil des DDB1-CUL4-ROC1 E3-Ubiquitin-Ligase-Komplexes, wo es direkt an DDB1 bindet und Substrate für E3 rekrutiert. Zwei Isoformen des DCAF17: beta (65 kDa, 520 Aminosäuren) und alpha (27 kDa, 240 Aminosäuren), die ein C-terminaler Teil der beta-Isoform ist, sind heutzutage bekannt. Man geht von einer primär nukleolären Lokalisation des WSS-Proteins in den Zellen aus. Untersuchungen des murinen C2orf37-Ortholog-Proteins ergaben eine Expression in allen Zellen mit einer erhöhten Expression im Gehirn, in der Leber und in der Haut. Das Ziel dieser Arbeit war es, DCAF17 in HeLa-Zellen zu untersuchen, insbesondere die Lokalisation beider WSS-Isoformen auf dem subzellulären und -nukleären Niveau sowie deren chemische Eigenschaften. Durch rekombinante Expression und Affinitätsreinigung entwickelte ich spezifische polyklonale Antikörper gegen das WSS-Epitop 493-530. Zudem reinigte ich drei weitere spezifische polyklonale Antikörper mithilfe kommerziell produzierter hochaffiner Epitop-Peptide auf. Mithilfe dieser Antikörper konnte ich- durch Immunfluoreszenz und subzelluläre Proteinfraktionierug- eine Lokalisation des WSS-Proteins in der löslichen Kernfraktion, zusätzlich zu der bereits bekannten chromatingebundenen Kernfraktion, nachweisen. Die Behandlung reiner Kernhüllen mit steigernden NaCl-Konzentrationen und Harnstoff zeigte eine nicht-kovalente Bindung des DCAF17 an die Kernhülle mit einer Ablösung der beta-Isoform von der Kernhülle bereits bei niedrigeren NaCl-Konzentrationen als im Falle der alpha-Isoform. Um das chromatingebundene DCAF17 genauer zu untersuchen, führte ich eine Hydrolyse des Ganzkern- und Nukleolusextraktes mit DNase und RNase durch. Diese ergab eine Bindung des WSS-Proteins an die DNA, jedoch nicht an die RNA, mit der möglichen Hauptlokalisation der alpha-Isoform im Nukleolus und der beta-Isoform in anderen subnukleären Kompartimenten. Des Weiteren wurde in den oben beschriebenen Experimenten ein 80-kDa Protein nachgewiesen, das eine spezifische Reaktion mit den polyklonalen hochaffinen Antikörpern sowie eine dem WSS-Protein ähnliche subzelluläre / -nukleäre Lokalisation und chemische Eigenschaften zeigte. Um zu untersuchen, ob es sich um ein posttranslational modifiziertes DCAF17 handelt, führte ich Deglycosylierung und Dephosphorylierung des Ganzkernextraktes durch. Diese zeigten weder ein Verschwinden noch eine Änderung des 80-kDa-Signals auf Immunoblots. Obwohl eine andere Art einer posttranslationalen Proteinmodifizierung ist nicht ausgeschlossen, entspricht dieses Protein möglicherweise einer dritten, bisher nicht beschriebenen, Hauptisoform des DCAF17. Zusammenfassend trug diese Arbeit zur genaueren Charakterisierung des WSS-Proteins bei. Dies kann zukünftigen Forschern helfen, die Pathologie des WSS besser zu verstehen. KW - Humangenetik KW - Molekulargenetik KW - Grundlagenforschung KW - Woodhouse-Sakati Syndrom KW - Woodhouse-Sakati sydrome KW - DCAF17 KW - Humangenetik KW - genetics KW - autosomal recessive Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-174766 ER - TY - JOUR A1 - Kühnisch, Jirko A1 - Herbst, Christopher A1 - Al‐Wakeel‐Marquard, Nadya A1 - Dartsch, Josephine A1 - Holtgrewe, Manuel A1 - Baban, Anwar A1 - Mearini, Giulia A1 - Hardt, Juliane A1 - Kolokotronis, Konstantinos A1 - Gerull, Brenda A1 - Carrier, Lucie A1 - Beule, Dieter A1 - Schubert, Stephan A1 - Messroghli, Daniel A1 - Degener, Franziska A1 - Berger, Felix A1 - Klaassen, Sabine T1 - Targeted panel sequencing in pediatric primary cardiomyopathy supports a critical role of TNNI3 JF - Clinical Genetics N2 - The underlying genetic mechanisms and early pathological events of children with primary cardiomyopathy (CMP) are insufficiently characterized. In this study, we aimed to characterize the mutational spectrum of primary CMP in a large cohort of patients ≤18 years referred to a tertiary center. Eighty unrelated index patients with pediatric primary CMP underwent genetic testing with a panel‐based next‐generation sequencing approach of 89 genes. At least one pathogenic or probably pathogenic variant was identified in 30/80 (38%) index patients. In all CMP subgroups, patients carried most frequently variants of interest in sarcomere genes suggesting them as a major contributor in pediatric primary CMP. In MYH7, MYBPC3, and TNNI3, we identified 18 pathogenic/probably pathogenic variants (MYH7 n = 7, MYBPC3 n = 6, TNNI3 n = 5, including one homozygous (TNNI3 c.24+2T>A) truncating variant. Protein and transcript level analysis on heart biopsies from individuals with homozygous mutation of TNNI3 revealed that the TNNI3 protein is absent and associated with upregulation of the fetal isoform TNNI1. The present study further supports the clinical importance of sarcomeric mutation—not only in adult—but also in pediatric primary CMP. TNNI3 is the third most important disease gene in this cohort and complete loss of TNNI3 leads to severe pediatric CMP. KW - cardiomyopathy KW - genetics KW - pediatrics KW - sarcomere KW - TNNI3 Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-213958 VL - 96 IS - 6 SP - 549 EP - 559 ER - TY - JOUR A1 - Hofmann, Lukas A1 - Karl, Franziska A1 - Sommer, Claudia A1 - Üçeyler, Nurcan T1 - Affective and cognitive behavior in the alpha-galactosidase A deficient mouse model of Fabry disease JF - PLoS ONE N2 - Fabry disease is an X-linked inherited lysosomal storage disorder with intracellular accumulation of globotriaosylceramide (Gb3) due to α-galactosidase A (α-Gal A) deficiency. Fabry patients frequently report of anxiety, depression, and impaired cognitive function. We characterized affective and cognitive phenotype of male mice with α-Gal A deficiency (Fabry KO) and compared results with those of age-matched male wildtype (WT) littermates. Young (3 months) and old (≥ 18 months) mice were tested in the naïve state and after i.pl. injection of complete Freund`s adjuvant (CFA) as an inflammatory pain model. We used the elevated plus maze (EPM), the light-dark box (LDB) and the open field test (OF) to investigate anxiety-like behavior. The forced swim test (FST) and Morris water maze (MWM) were applied to assess depressive-like and learning behavior. The EPM test revealed no intergroup difference for anxiety-like behavior in naïve young and old Fabry KO mice compared to WT littermates, except for longer time spent in open arms of the EPM for young WT mice compared to young Fabry KO mice (p<0.05). After CFA injection, young Fabry KO mice showed increased anxiety-like behavior compared to young WT littermates (p<0.05) and naïve young Fabry KO mice (p<0.05) in the EPM as reflected by shorter time spent in EPM open arms. There were no relevant differences in the LDB and the OF test, except for longer time spent in the center zone of the OF by young WT mice compared to young Fabry KO mice (p<0.05). Complementary to this, depression-like and learning behavior were not different between genotypes and age-groups, except for the expectedly lower memory performance in older age-groups compared to young mice. Our results indicate that genetic influences on affective and cognitive symptoms in FD may be of subordinate relevance, drawing attention to potential influences of environmental and epigenetic factors. KW - cognitive impairment KW - mouse models KW - depression KW - swimming KW - learning KW - Fabry disease KW - genetics Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170745 VL - 12 IS - 6 ER - TY - JOUR A1 - Vona, Barbara A1 - Nanda, Indrajit A1 - Shehata-Dieler, Wafaa A1 - Haaf, Thomas T1 - Genetics of Tinnitus: Still in its Infancy JF - Frontiers in Neuroscience N2 - Tinnitus is the perception of a phantom sound that affects between 10 and 15% of the general population. Despite this considerable prevalence, treatments for tinnitus are presently lacking. Tinnitus exhibits a diverse array of recognized risk factors and extreme clinical heterogeneity. Furthermore, it can involve an unknown number of auditory and non-auditory networks and molecular pathways. This complex combination has hampered advancements in the field. The identification of specific genetic factors has been at the forefront of several research investigations in the past decade. Nine studies have examined genes in a case-control association approach. Recently, a genome-wide association study has highlighted several potentially significant pathways that are implicated in tinnitus. Two twin studies have calculated a moderate heritability for tinnitus and disclosed a greater concordance rate in monozygotic twins compared to dizygotic twins. Despite the more recent data alluding to genetic factors in tinnitus, a strong association with any specific genetic locus is lacking and a genetic study with sufficient statistical power has yet to be designed. Future research endeavors must overcome the many inherent limitations in previous study designs. This review summarizes the previously embarked upon tinnitus genetic investigations and summarizes the hurdles that have been encountered. The identification of candidate genes responsible for tinnitus may afford gene based diagnostic approaches, effective therapy development, and personalized therapeutic intervention. KW - twin study KW - complex disorders KW - genetics KW - genetic heterogeneity KW - genome-wide association study (GWAS) KW - hearing loss KW - tinnitus Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170926 VL - 11 IS - 236 ER - TY - JOUR A1 - Waider, J A1 - Popp, S A1 - Lange, MD A1 - Kern, R A1 - Kolter, JF A1 - Kobler, J A1 - Donner, NC A1 - Lowe, KR A1 - Malzbender, JH A1 - Brazell, CJ A1 - Arnold, MR A1 - Aboagye, B A1 - Schmitt-Böhrer, A A1 - Lowry, CA A1 - Pape, HC A1 - Lesch, KP T1 - Genetically driven brain serotonin deficiency facilitates panic-like escape behavior in mice JF - Translational Psychiatry N2 - Multiple lines of evidence implicate brain serotonin (5-hydroxytryptamine; 5-HT) system dysfunction in the pathophysiology of stressor-related and anxiety disorders. Here we investigate the influence of constitutively deficient 5-HT synthesis on stressor-related anxiety-like behaviors using Tryptophan hydroxylase 2 (Tph2) mutant mice. Functional assessment of c-Fos after associated foot shock, electrophysiological recordings of GABAergic synaptic transmission, differential expression of the Slc6a4 gene in serotonergic neurons were combined with locomotor and anxiety-like measurements in different contextual settings. Our findings indicate that constitutive Tph2 inactivation and consequential lack of 5-HT synthesis in Tph2 null mutant mice (Tph2\(^{-/-}\)) results in increased freezing to associated foot shock and a differential c-Fos activity pattern in the basolateral complex of the amygdala. This is accompanied by altered GABAergic transmission as observed by recordings of inhibitory postsynaptic currents on principal neurons in the basolateral nucleus, which may explain increased fear associated with hyperlocomotion and escape-like responses in aversive inescapable contexts. In contrast, lifelong 5-HT deficiency as observed in Tph2 heterozygous mice (Tph\(^{+/-}\)) is able to be compensated through reduced GABAergic transmission in the basolateral nucleus of the amygdala based on Slc6a4 mRNA upregulation in subdivisions of dorsal raphe neurons. This results in increased activity of the basolateral nucleus of the amygdala due to associated foot shock. In conclusion, our results reflect characteristic syndromal dimensions of panic disorder and agoraphobia. Thus, constitutive lack of 5-HT synthesis influence the risk for anxiety- and stressor-related disorders including panic disorder and comorbid agoraphobia through the absence of GABAergic-dependent compensatory mechanisms in the basolateral nucleus of the amygdala. KW - anxiety KW - stress KW - serotonin KW - genetics KW - mice Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170239 VL - 7 IS - e1246 ER -