Profilo genomico e di espressione dell'Osteosarcoma. Identificazione dei geni con alto grado di correlazione tra numero di copie ed espressione

To identify the regions of recurrent copy number abnormality in osteosarcoma and their effect on gene expression, we performed an integrated genome-wide high-resolution array CGH (aCGH) and gene expression profiling analysis on 40 human OS tissues and 12 OS cell lines. This analysis identified several recurrent chromosome regions that contain genes that show a gene dosage effect on gene expression. A further search, performed on those genes that were over-expressed and localized in the frequently amplified chromosomal regions, greatly reduced the number of candidate genes while their characterization using gene ontology (GO) analysis suggests the importance of the deregulation of the G1-to-S phase in the development of the disease. We also identified frequent deletions on 3q in the vicinity of LSAMP and performed a fine mapping analysis of the breakpoints. We precisely mapped the breakpoints in several instances and demonstrated that the majority do not involve the LSAMP gene itself, and that they appear to form by a process of non-homologous end joining. In addition, aCGH analysis revealed frequent gains of IGF1R that were highly correlated with its protein level. Blockade of IGF1R in OS cell lines with high copy number gain led to growth inhibition suggesting that IGF1R may be a viable drug target in OS, particularly in patients with copy number driven overexpression of this receptor.

Depicting the role of CDKN2A/ARF alterations in adult BCR-ABL1-positive acute lymphoblastic leukemia patients: from genomic deletions to prognostic impact

This 9p21 locus, encode for important proteins involved in cell cycle regulation and apoptosis containing the p16/CDKN2A (cyclin-dependent kinase inhibitor 2a) tumor suppressor gene and two other related genes, p14/ARF and p15/CDKN2B. This locus, is a major target of inactivation in the pathogenesis of a number of human tumors, both solid and haematologic, and is a frequent site of loss or deletion also in acute lymphoblastic leukemia (ALL) ranging from 18% to 45% 1. In order to explore, at high resolution, the frequency and size of alterations affecting this locus in adult BCR-ABL1-positive ALL and to investigate their prognostic value, 112 patients (101 de novo and 11 relapse cases) were analyzed by genome-wide single nucleotide polymorphisms arrays and gene candidate deep exon sequencing. Paired diagnosis-relapse samples were further available and analyzed for 19 (19%) cases. CDKN2A/ARF and CDKN2B genomic alterations were identified in 29% and 25% of newly diagnosed patients, respectively. Deletions were monoallelic in 72% of cases and in 43% the minimal overlapping region of the lost area spanned only the CDKN2A/2B gene locus. The analysis at the time of relapse showed an almost significant increase in the detection rate of CDKN2A/ARF loss (47%) compared to diagnosis (p = 0.06). Point mutations within the 9p21 locus were found at very low level with only a non-synonymous substition in the exon 2 of CDKN2A. Finally, correlation with clinical outcome showed that deletions of CDKN2A/B are significantly associated with poor outcome in terms of overall survival (p = 0.0206), disease free-survival (p = 0.0010) and cumulative incidence of relapse (p = 0.0014). The inactivation of 9p21 locus by genomic deletions is a frequent event in BCR-ABL1-positive ALL. Deletions are frequently acquired at the leukemia progression and work as a poor prognostic marker.

Analisi preclinica di nuove strategie terapeutiche basate sull'inibizione di protein-chinasi nell'osteosarcoma.

Scopo: L’obiettivo del presente programma di studio è stato quello di identificare e validare nuovi possibili bersagli terapeutici per l’osteosarcoma (OS) partendo dall’analisi del chinoma umano. Risultati: L’analisi del profilo di espressione genica ottenuta su 21 campioni clinici di OS ad alto grado di malignità ha permesso di selezionare le seguenti chinasi di possibile rilevanza biologica per l’OS: AURK-A, AURK-B, CDK2, PIK3CA, PLK-1. Le chinasi selezionate sono state validate tramite RNA interference. Successivamente è stata valutata l’efficacia dei relativi inibitori specifici: VX-680 e ZM-447439 inibitori delle Aurora-chinasi, Roscovitina di CDK2 e NMS1 di PLK-1, già inclusi in studi clinici. In termini d’inibizione della crescita cellulare le linee sono risultate maggiomente sensibili ai farmaci VX-680 e NMS1. E’ stata osservata una minor sensibilità ai farmaci VX-680, ZM447439 e NMS1 nelle linee doxorubicina(DX)-resistenti (caratterizzate da elevati livelli di espressione di ABCB1), indicando questi farmaci come potenziali substrati di ABCB1. La Roscovitina, nonostante i valori di IC50 elevati, non sembrerebbe substrato di ABCB1. La validazione preclinica di VX-680 e ZM447439 è stata completata. La forte inibizione della crescita è causata da endoreduplicazione per mancata citodieresi con conseguente formazione di una popolazione iperploide e apoptosi. Inoltre, VX-680 inibisce la motilità e la capacità di formare colonie. Esperimenti di associazione farmacologica mostrano che VX-680 interagisce positivamente con tutti i chemioterapici convenzionali impiegati nel trattamento dell’OS. NMS-1 produce interazioni positive con la DX in linee cellulari DX-resistenti, probabilmente grazie all’effetto revertante esercitato su ABCB1. La Roscovitina produce interazioni positive con CDDP e DX nelle varianti resistenti, effetto probbilmente dovuto al ruolo di CDK2 nei meccanismi di riparo del DNA. Conclusioni: L’analisi in vitro dell’attività degli inibitori ha permesso di identificare VX-680 come nuovo farmaco di potenziale interesse clinico, soprattutto in virtù delle sue interazioni sinergiche con i chemioterapici di uso convenzionale nel trattamento dell’osteosarcoma.

Charakterisierung der Proteine CEP164 und ppdpf sowie deren Einordnung in den mitotischen Kontext

Eine regelgerechte bipolare Mitose und die fehlerfreie Aufteilung duplizierter DNA ist die Voraussetzung für die Entwicklung aller Lebewesen. Treten Fehler bei diesem grundsätzlichen Prozess auf, ist entweder der Zelltod oder die maligne Entartung der Zelle die Folge. Daher ist es von zentraler Bedeutung, die Vorgänge während der Zellteilung zu verstehen und die Funktion der an diesem Prozess beteiligten Proteine aufzudecken. Im Vorfeld dieser Arbeit wurden im Rahmen eines siRNA-Screens genomweit alle Proteine durch RNA-Interferenz depletiert und die Mitosen nach erfolgter RNAi phänotypisch untersucht. Ein besonderes Augenmerk lag dabei auf der Entwicklung multipolarer Spindeln durch Defekte in der Zentrosomenbündelung. Dadurch wurden unter anderem die Proteine CEP164 und ppdpf identifiziert. Da weder für CEP164 noch für ppdpf mitotische Funktionen bekannt sind, war es Ziel dieser Arbeit, die beiden Proteine eingehender zu charakterisieren und in den Kontext der Mitose einzuordnen. rnIm Rahmen der vorliegenden Arbeit konnte gezeigt werden, dass CEP164 einer komplexen mitotischen Regulation unterliegt. Die in Interphase durchweg zentrosomale Lokalisation von CEP164 geht in der Mitose verloren. Es wird demonstriert, dass CEP164 während der Mitose unter anderem von CDK1 phosphoryliert wird und des Weiteren ubiquitinyliert wird. Als Interaktionspartner wurde das zentrosomale Protein Ninein identifiziert und demonstriert, dass sich CEP164 mit diesem in einem Komplex von ~2MDA befindet. Als weiterer Interaktionspartner wurde das Ninein-like-Protein ermittelt. Im Hinblick auf die Induktion multipolarer Mitosen wurde gezeigt, dass die Depletion von CEP164 nicht dafür verantwortlich ist. Die Induktion multipolarer Spindeln ist stattdessen darin begründet, dass durch die Transfektion einer siRNA gegen CEP164 auch ein für die Ausbildung der mitotischen Spindel elementares Protein, Ch-TOG, depletiert wird.rnIm Gegensatz dazu wurde im Rahmen dieser Arbeit bestätigt, dass das Protein ppdpf eine wichtige mitotische Funktion übernimmt. Zwar führt die Depletion von ppdpf nur zu einer sehr geringen Zunahme multipolarer Mitosen, allerdings steigt die Zahl aberranter Mitosen deutlich an, während die Spannung innerhalb mitotischer Spindeln abnimmt. Desweiteren konnte nachgewiesen werde, dass ppdpf-RNAi die Entwicklung von „lagging chromosomes“ und nachfolgend von Mikrokernen begünstigt. Es wurde gezeigt, dass ppdpf während der Mitose an Spindelmikrotubuli lokalisiert und spezifisch acetyliertes Tubulin bindet. Diese Interaktion hatte allerdings keinen Einfluss auf die Stabilität von Mikrotubuli während der Mitose. Das Protein ppdpf interagiert zudem mit dem Kinesin Eg5, wobei ppdpf-RNAi allerdings nicht zu einer Modulation der Aktivität von Eg5 zu führen scheint. Inwiefern diese Eigenschaften die Entwicklung von „lagging chromosomes“ begünstigen ist derzeit noch offen.

Detrimental effects of exuberant and restrained immune responses against the central nervous system in the context of multiple sclerosis and glioblastoma multiforme

Glioblastoma multiforme (GBM) is the most common and most aggressive astrocytic tumor of the central nervous system (CNS) in adults. The standard treatment consisting of surgery, followed by a combinatorial radio- and chemotherapy, is only palliative and prolongs patient median survival to 12 to 15 months. The tumor subpopulation of stem cell-like glioma-initiating cells (GICs) shows resistance against radiation as well as chemotherapy, and has been suggested to be responsible for relapses of more aggressive tumors after therapy. The efficacy of immunotherapies, which exploit the immune system to specifically recognize and eliminate malignant cells, is limited due to strong immunosuppressive activities of the GICs and the generation of a specialized protective microenvironment. The molecular mechanisms underlying the therapy resistance of GICs are largely unknown. rnThe first aim of this study was to identify immune evasion mechanisms in GICs triggered by radiation. A model was used in which patient-derived GICs were treated in vitro with fractionated ionizing radiation (2.5 Gy in 7 consecutive passages) to select for a more radio-resistant phenotype. In the model cell line 1080, this selection process resulted in increased proliferative but diminished migratory capacities in comparison to untreated control GICs. Furthermore, radio-selected GICs downregulated various proteins involved in antigen processing and presentation, resulting in decreased expression of MHC class I molecules on the cellular surface and diminished recognition potential by cytotoxic CD8+ T cells. Thus, sub-lethal fractionated radiation can promote immune evasion and hamper the success of adjuvant immunotherapy. Among several immune-associated proteins, interferon-induced transmembrane protein 3 (IFITM3) was found to be upregulated in radio-selected GICs. While high expression of IFITM3 was associated with a worse overall survival of GBM patients (TCGA database) and increased proliferation and migration of differentiated glioma cell lines, a strong contribution of IFITM3 to proliferation in vitro as well as tumor growth and invasiveness in a xenograft model could not be observed. rnMultiple sclerosis (MS) is the most common autoimmune disease of the CNS in young adults of the Western World, which leads to progressive disability in genetically susceptible individuals, possibly triggered by environmental factors. It is assumed that self-reactive, myelin-specific T helper cell 1 (Th1) and Th17 cells, which have escaped the control mechanisms of the immune system, are critical in the pathogenesis of the human disease and its animal model experimental autoimmune encephalomyelitis (EAE). It was observed that in vitro differentiated interleukin 17 (IL-17) producing Th17 cells co-expressed the Th1-phenotypic cytokine Interferon-gamma (IFN-γ) in combination with the two respective lineage-associated transcription factors RORγt and T-bet after re-isolation from the CNS of diseased mice. Pathogenic molecular mechanisms that render a CD4+ T cell encephalitogenic have scarcely been investigated up to date. rnIn the second part of the thesis, whole transcriptional changes occurring in in vitro differentiated Th17 cells in the course of EAE were analyzed. Evaluation of signaling networks revealed an overrepresentation of genes involved in communication between the innate and adaptive immune system and metabolic alterations including cholesterol biosynthesis. The transcription factors Cebpa, Fos, Klf4, Nfatc1 and Spi1, associated with thymocyte development and naïve T cells were upregulated in encephalitogenic CNS-isolated CD4+ T cells, proposing a contribution to T cell plasticity. Correlation of the murine T-cell gene expression dataset to putative MS risk genes, which were selected based on their proximity (± 500 kb; ensembl database, release 75) to the MS risk single nucleotide polymorphisms (SNPs) proposed by the most recent multiple sclerosis GWAS in 2011, revealed that 67.3% of the MS risk genes were differentially expressed in EAE. Expression patterns of Bach2, Il2ra, Irf8, Mertk, Odf3b, Plek, Rgs1, Slc30a7, and Thada were confirmed in independent experiments, suggesting a contribution to T cell pathogenicity. Functional analysis of Nfatc1 revealed that Nfatc1-deficient CD4+ T cells were restrained in their ability to induce clinical signs of EAE. Nfatc1-deficiency allowed proper T cell activation, but diminished their potential to fully differentiate into Th17 cells and to express high amounts of lineage cytokines. As the inducible Nfatc1/αA transcript is distinct from the other family members, it could represent an interesting target for therapeutic intervention in MS.rn

Die Rolle der Topoisomerase 2 beta in der normalen Herzfunktion sowie in der Entstehung der Herzinsuffizienz

Die Herzinsuffizienz (HI) ist eine der häufigsten und teuersten medizinischen Indikationen in der heutigen Zeit. rnIn der vorliegenden Arbeit konnte zum ersten Mal die Topoisomerase 2b (Top2b) in Zusammenhang mit der Entstehung einer dilatativen Kardiomyopathie gebracht werden. rnIn einem speziellen Mausmodell war es möglich, die Top2b gewebsspezifisch und zeitspezifisch nur in Kardiomyozyten zu deletieren. Dies geschah mittels eines Tamoxifen-induzierten Cre-Rekombinase-Gendeletionsmodells. Phänotypisch zeigten die Top2b-deletierten Mäuse 8 Wochen nach der Tamoxifen-Gabe signifikant reduzierte kardiale Ejektionsfraktionen sowie erhöhte linksventrikuläre enddiastolische und endsystolische Volumina. Weder Schlagvolumen noch Körpergewicht waren verändert. Die natriuretischen Peptide ANP und BNP waren in den Top2b-deletierten Tieren ebenfalls signifikant erhöht. Zusätzlich zeigten sowohl elektronenmikroskopische Untersuchungen als auch klassische histologische Verfahren fibrotische Veränderungen und erhöhte Kollagenablagerungen in Top2b-deletierten Tieren. Begleitend dazu stiegen die mRNA-Expressionslevel von Col1a1, Col3a1, Tgfβ1 und Tgfβ2 in den deletierten Tieren 8 Wochen nach der Implementierung der Deletion signifikant an. rnIn einer genomweiten Hochdurchsatz-Sequenzierung waren bereits 2 Wochen nach Tamoxifen-Gabe 128 Gene mindestens 2-fach gegenüber der Kontrollgruppe differentiell exprimiert. Eine genauere Analyse der veränderten Genexpression ließ bereits 14 Tage nach Implementierung der Deletion kardiale Verschlechterungen vermuten. So waren neben dem atrialen natriuretischen Peptid ANP die beiden häufigsten Kollagenarten im Herzen, Col3a1 und Col1a1, hochreguliert. rnInteressanterweise beinhalteten die 37 herunterregulierten Gene 11 Transkriptionsfaktoren. Da der Top2b in den letzten Jahren eine immer stärker werdende Bedeutung in der Transkription zugesprochen wird, sollte mittels Chromatin-Immunpräzipitation ein direkter Zusammenhang zwischen der Top2b-Deletion und der Herunterregulierung der 11 Transkriptionsfaktoren sowie die Bindung der Top2b an Promotoren ausgewählter, differentiell-exprimierter Gene untersucht werden. Generell konnte keine vermehrte Bindung von Top2b an Promotorbereiche gezeigt werden, was aber nicht dem generellen Fehlen einer Bindung gleichkommen muss. Vielmehr gab es methodische Schwierigkeiten, weshalb die Bedeutung der Top2b in der Transkription im Rahmen der vorliegenden Arbeit nicht ausreichend geklärt werden konnte.rnEine Kardiomyozyten-spezifische Top2b-Deletion mündete 8 Wochen nach Tamoxifen-Gabe in eine dilatative Kardiomyopathie. Zum gegenwärtigen Zeitpunkt sind keine klaren Aussagen zum zugrundeliegenden Mechanismus der entstehenden Herzschädigung in Folge einer Top2b-Deletion zu treffen. Es gibt jedoch Hinweise darauf, dass der Tumorsuppressormarker p53 eine wichtige Rolle in der Entstehung der dilatativen Kardiomyopathie spielen könnte. So konnte 8 Wochen nach der Top2b-Deletion mittels Chromatin-Immunpräzipitation eine erhöhte Bindung von p53 an Promotorregionen von Col1a1, Tgfβ2 und Mmp2 detektiert werden. Die Bedeutung dieser Bindung, und ob aufgrund dessen die Entstehung der Fibrose erklärt werden könnte, ist zum jetzigen Zeitpunkt unklar.rn

Methylierungs- und Expressionsuntersuchungen zur Aufklärung der molekularen Pathogenese in chronisch entzündlichen Darmerkrankungen

Unter der Bezeichnung Chronisch Entzündliche Darmerkrankungen (CED) werden zwei Erscheinungsformen, Colitis Ulcerosa (CU) und Morbus Crohn (MC) zusammengefasst. Das Leitsymptom von CED sind chronische Entzündungen des Magen-Darm-Trakts, insbesondere des terminalen Ileum und des Colons. Es wird angenommen, dass eine aberrante Immunantwort auf das intestinale Mikrobiom in einem genetisch prädisponierten Individuum zur Entstehung von CED führt.rnFür diese Studie ist der genetische, bzw. epigenetische Aspekt, der Pathogenese von CU und MC von besonderem Interesse. In verschiedenen Assoziationsstudien wurden bereits 163 mit CED assoziierte, krankheitsrelevante Gen Loci identifiziert. Zusätzlich wurden Studien durchgeführt, die Methylierungs- und Expressionsunterschiede in Gewebe oder Blut von CED-Patienten gegenüber gesunden Probanden (Kontrollen) aufzeigten. rnIn der vorliegenden Studie wurden entzündliche- und nicht-entzündliche Gewebeproben von CU- (Colon) und MC-Patienten (terminales Ileum und Colon) und gesunden Probanden (terminales Ileum und Colon; nicht entzündlich) auf genspezifischer- und genomweiter Ebene auf Methylierungs- und Expressionsunterschiede hin untersucht. Im Rahmen der genspezifischen Analysen wurde in vier Genen (IL17REL, MUC2, MUC6, MUC15) eine aberrante Methylierung im Vergleich der MC- oder CU-Gewebeproben mit den Kontrollen detektiert. Die an 24 ausgewählten CU Colon-Proben (NE und E) und Colon Kontrollen durchgeführte genomweite Methylierungsanalyse zeigte aberrante Methylierungsmuster in über 2500 Genen im Vergleich der entzündlichen CU Colon E-Proben mit den Kontrollen. Fünf dieser Gene (BACH2, STAT3, STAT4, STK4 und WIPF1) wurden ausgewählt und die Veränderung der Methylierung an einem größeren Patientenkollektiv, welches auch Proben von MC-Patienten umfasst, bestätigt. Zusätzlich zu der aberranten Methylierung wurden Expressionsveränderungen des IL17REL-, MUC6- und STAT4-Gens in MC-Patienten sowie des MUC2-Gens in CU-Patienten identifiziert. rnDa über die Promoterregion und Funktion von IL17REL nur sehr wenig bis gar nichts bekannt ist, wurden zusätzlich Promoteranalysen mittels Dual-Luciferase-Assay durchgeführt. Die Ergebnisse zeigten, dass die höchste Aktivität des putativen IL17REL-Promoters im Bereich -806 – -8 vor der 5’UTR zu finden ist. In diesem Bereich lagen auch die in der Methylierungsanalyse untersuchten CpGs.rn

Association of GWAS loci with PD in China

Genome-wide association studies (GWAS) have identified numerous single-nucleotide polymorphisms (SNPs) at four loci (SNCA, PARK16, LRRK2, BST1) that can modulate the risk of Parkinson's disease (PD). The strength of these associations has yet to be clarified in Mainland China. Ethnic specific effect is an important consideration in GWAS analysis. Using a case-control methodology, we genotyped multiple SNPs at these four loci to investigate their association with risk of PD in Mainland China. A total of 1,146 study subjects comprising 636 patients with PD and 510 unrelated healthy controls were recruited. The minor alleles at SNPs rs894278, rs1994090, rs2046932, rs4698412, and rs7304279 were found to be significantly higher in cases than in controls, while the minor alleles were found to significantly reduce the risk of developing PD at SNPs rs823128, rs823156, rs6532194, rs1191532, and rs16856139. These associations remained after taking into considerations the effects of age and gender. We showed that multiple SNPs at LRRK2 and SNCA increase risk of PD, while PARK16 SNPs are associated with a lower risk of PD in China. Our study findings will contribute to further research using GWAS-linked data and research on ethnic specific effect of common variants.

Novel association to the proprotein convertase PCSK7 gene locus revealed by analysing soluble transferrin receptor (sTfR) levels

The level of body iron storage and the erythropoietic need for iron are indicated by the serum levels of ferritin and soluble transferrin receptor (sTfR), respectively. A meta-analysis of five genome-wide association studies on sTfR and ferritin revealed novel association to the PCSK7 and TMPRSS6 loci for sTfR and the HFE locus for both parameters. The PCSK7 association was the most significant (rs236918, P = 1.1 × 10E-27) suggesting that proprotein convertase 7, the gene product of PCSK7, may be involved in sTfR generation and/or iron homeostasis. Conditioning the sTfR analyses on transferrin saturation abolished the HFE signal and substantially diminished the TMPRSS6 signal while the PCSK7 association was unaffected, suggesting that the former may be mediated by transferrin saturation whereas the PCSK7-associated effect on sTfR generation appears to be more direct.

Bipolar disorder susceptibility region on chromosome 3q29 not confirmed in a case-control association study

We identified a bipolar disorder (BPD) susceptibility region on chromosome 3q29 in a genome-wide linkage scan (Bailer et al. 2002 (Biol Psychiatry 52: 40), NPL-score 4.09) and follow-up linkage analysis (Schosser et al. 2004 (J Psychiatr Res 38(3): 357), NPL-scores >3 with five markers). These findings were supported by further fine-mapping of this region (Schosser et al. 2007 (Eur Neuropsychopharmacol 17(6-7): 501)), finding NPL-scores >3.9 with SNPs (single nucleotide polymorphisms) spanning a region of 3.46 Mbp in BPD families. Since genetic association studies are more powerful than linkage studies for detecting susceptibility genes of small effect size, we aimed to replicate these findings in an independent case-control sample collected in London (UK) and Vienna (Austria).

Caenorhabditis elegans Heterochromatin protein 1 (HPL-2) links developmental plasticity, longevity and lipid metabolism

Background Heterochromatin protein 1 (HP1) family proteins have a well-characterized role in heterochromatin packaging and gene regulation. Their function in organismal development, however, is less well understood. Here we used genome-wide expression profiling to assess novel functions of the Caenorhabditis elegans HP1 homolog HPL-2 at specific developmental stages. Results We show that HPL-2 regulates the expression of germline genes, extracellular matrix components and genes involved in lipid metabolism. Comparison of our expression data with HPL-2 ChIP-on-chip profiles reveals that a significant number of genes up- and down-regulated in the absence of HPL-2 are bound by HPL-2. Germline genes are specifically up-regulated in hpl-2 mutants, consistent with the function of HPL-2 as a repressor of ectopic germ cell fate. In addition, microarray results and phenotypic analysis suggest that HPL-2 regulates the dauer developmental decision, a striking example of phenotypic plasticity in which environmental conditions determine developmental fate. HPL-2 acts in dauer at least partly through modulation of daf-2/IIS and TGF-β signaling pathways, major determinants of the dauer program. hpl-2 mutants also show increased longevity and altered lipid metabolism, hallmarks of the long-lived, stress resistant dauers. Conclusions Our results suggest that the worm HP1 homologue HPL-2 may coordinately regulate dauer diapause, longevity and lipid metabolism, three processes dependent on developmental input and environmental conditions. Our findings are of general interest as a paradigm of how chromatin factors can both stabilize development by buffering environmental variation, and guide the organism through remodeling events that require plasticity of cell fate regulation.

An unusual splice defect in the mitofusin 2 gene (MFN2) is associated with degenerative axonopathy in Tyrolean Grey cattle

Tyrolean Grey cattle represent a local breed with a population size of approximately 5000 registered cows. In 2003, a previously unknown neurological disorder was recognized in Tyrolean Grey cattle. The clinical signs of the disorder are similar to those of bovine progressive degenerative myeloencephalopathy (weaver syndrome) in Brown Swiss cattle but occur much earlier in life. The neuropathological investigation of an affected calf showed axonal degeneration in the central nervous system (CNS) and femoral nerve. The pedigrees of the affected calves suggested a monogenic autosomal recessive inheritance. We localized the responsible mutation to a 1.9 Mb interval on chromosome 16 by genome-wide association and haplotype mapping. The MFN2 gene located in this interval encodes mitofusin 2, a mitochondrial membrane protein. A heritable human axonal neuropathy, Charcot-Marie-Tooth disease-2A2 (CMT2A2), is caused by MFN2 mutations. Therefore, we considered MFN2 a positional and functional candidate gene and performed mutation analysis in affected and control Tyrolean Grey cattle. We did not find any non-synonymous variants. However, we identified a perfectly associated silent SNP in the coding region of exon 20 of the MFN2 gene. This SNP is located within a putative exonic splice enhancer (ESE) and the variant allele leads to partial retention of the entire intron 19 and a premature stop codon in the aberrant MFN2 transcript. Thus we have identified a highly unusual splicing defect, where an exonic single base exchange leads to the retention of the preceding intron. This splicing defect represents a potential explanation for the observed degenerative axonopathy. Marker assisted selection can now be used to eliminate degenerative axonopathy from Tyrolean Grey cattle.

Microphthalmia in Texel sheep is associated with a missense mutation in the paired-like homeodomain 3 (PITX3) gene

Microphthalmia in sheep is an autosomal recessive inherited congenital anomaly found within the Texel breed. It is characterized by extremely small or absent eyes and affected lambs are absolutely blind. For the first time, we use a genome-wide ovine SNP array for positional cloning of a Mendelian trait in sheep. Genotyping 23 cases and 23 controls using Illumina's OvineSNP50 BeadChip allowed us to localize the causative mutation for microphthalmia to a 2.4 Mb interval on sheep chromosome 22 by association and homozygosity mapping. The PITX3 gene is located within this interval and encodes a homeodomain-containing transcription factor involved in vertebrate lens formation. An abnormal development of the lens vesicle was shown to be the primary event in ovine microphthalmia. Therefore, we considered PITX3 a positional and functional candidate gene. An ovine BAC clone was sequenced, and after full-length cDNA cloning the PITX3 gene was annotated. Here we show that the ovine microphthalmia phenotype is perfectly associated with a missense mutation (c.338G>C, p.R113P) in the evolutionary conserved homeodomain of PITX3. Selection against this candidate causative mutation can now be used to eliminate microphthalmia from Texel sheep in production systems. Furthermore, the identification of a naturally occurring PITX3 mutation offers the opportunity to use the Texel as a genetically characterized large animal model for human microphthalmia.

Common obesity risk alleles in childhood attention-deficit/hyperactivity disorder

Children with attention-deficit/hyperactivity disorder (ADHD) have a higher rate of obesity than children without ADHD. Obesity risk alleles may overlap with those relevant for ADHD. We examined whether risk alleles for an increased body mass index (BMI) are associated with ADHD and related quantitative traits (inattention and hyperactivity/impulsivity). We screened 32 obesity risk alleles of single nucleotide polymorphisms (SNPs) in a genome-wide association study (GWAS) for ADHD based on 495 patients and 1,300 population-based controls and performed in silico analyses of the SNPs in an ADHD meta-analysis comprising 2,064 trios, 896 independent cases, and 2,455 controls. In the German sample rs206936 in the NUDT3 gene (nudix; nucleoside diphosphate linked moiety X-type motif 3) was associated with ADHD risk (OR: 1.39; P = 3.4 × 10(-4) ; Pcorr  = 0.01). In the meta-analysis data we found rs6497416 in the intronic region of the GPRC5B gene (G protein-coupled receptor, family C, group 5, member B; P = 7.2 × 10(-4) ; Pcorr  = 0.02) as a risk allele for ADHD. GPRC5B belongs to the metabotropic glutamate receptor family, which has been implicated in the etiology of ADHD. In the German sample rs206936 (NUDT3) and rs10938397 in the glucosamine-6-phosphate deaminase 2 gene (GNPDA2) were associated with inattention, whereas markers in the mitogen-activated protein kinase 5 gene (MAP2K5) and in the cell adhesion molecule 2 gene (CADM2) were associated with hyperactivity. In the meta-analysis data, MAP2K5 was associated with inattention, GPRC5B with hyperactivity/impulsivity and inattention and CADM2 with hyperactivity/impulsivity. Our results justify further research on the elucidation of the common genetic background of ADHD and obesity.

Serum ferritin levels are associated with a distinct phenotype of chronic hepatitis C poorly responding to pegylated interferon-alpha and ribavirin therapy

Elevated serum ferritin levels may reflect a systemic inflammatory state as well as increased iron storage, both of which may contribute to an unfavorable outcome of chronic hepatitis C (CHC). We therefore performed a comprehensive analysis of the role of serum ferritin and its genetic determinants in the pathogenesis and treatment of CHC. To this end, serum ferritin levels at baseline of therapy with pegylated interferon-alpha and ribavirin or before biopsy were correlated with clinical and histological features of chronic hepatitis C virus (HCV) infection, including necroinflammatory activity (N = 970), fibrosis (N = 980), steatosis (N = 886), and response to treatment (N = 876). The association between high serum ferritin levels (> median) and the endpoints was assessed by logistic regression. Moreover, a candidate gene as well as a genome-wide association study of serum ferritin were performed. We found that serum ferritin ≥ the sex-specific median was one of the strongest pretreatment predictors of treatment failure (univariate P < 0.0001, odds ratio [OR] = 0.45, 95% confidence interval [CI] = 0.34-0.60). This association remained highly significant in a multivariate analysis (P = 0.0002, OR = 0.35, 95% CI = 0.20-0.61), with an OR comparable to that of interleukin (IL)28B genotype. When patients with the unfavorable IL28B genotypes were stratified according to high versus low ferritin levels, SVR rates differed by > 30% in both HCV genotype 1- and genotype 3-infected patients (P < 0.001). Serum ferritin levels were also independently associated with severe liver fibrosis (P < 0.0001, OR = 2.67, 95% CI = 1.68-4.25) and steatosis (P = 0.002, OR = 2.29, 95% CI = 1.35-3.91), but not with necroinflammatory activity (P = 0.3). Genetic variations had only a limited impact on serum ferritin levels. Conclusion: In patients with CHC, elevated serum ferritin levels are independently associated with advanced liver fibrosis, hepatic steatosis, and poor response to interferon-alpha-based therapy.