Florey Department of Neuroscience and Mental Health - Research Publications

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Start date: 2011 × End date: 2011 × Author: Kilpatrick, Trevor ×

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    Genetic risk and a primary role for cell-mediated immune mechanisms in multiple sclerosis
    Sawcer, S ; Hellenthal, G ; Pirinen, M ; Spencer, CCA ; Patsopoulos, NA ; Moutsianas, L ; Dilthey, A ; Su, Z ; Freeman, C ; Hunt, SE ; Edkins, S ; Gray, E ; Booth, DR ; Potter, SC ; Goris, A ; Band, G ; Oturai, AB ; Strange, A ; Saarela, J ; Bellenguez, C ; Fontaine, B ; Gillman, M ; Hemmer, B ; Gwilliam, R ; Zipp, F ; Jayakumar, A ; Martin, R ; Leslie, S ; Hawkins, S ; Giannoulatou, E ; D'alfonso, S ; Blackburn, H ; Boneschi, FM ; Liddle, J ; Harbo, HF ; Perez, ML ; Spurkland, A ; Waller, MJ ; Mycko, MP ; Ricketts, M ; Comabella, M ; Hammond, N ; Kockum, I ; McCann, OT ; Ban, M ; Whittaker, P ; Kemppinen, A ; Weston, P ; Hawkins, C ; Widaa, S ; Zajicek, J ; Dronov, S ; Robertson, N ; Bumpstead, SJ ; Barcellos, LF ; Ravindrarajah, R ; Abraham, R ; Alfredsson, L ; Ardlie, K ; Aubin, C ; Baker, A ; Baker, K ; Baranzini, SE ; Bergamaschi, L ; Bergamaschi, R ; Bernstein, A ; Berthele, A ; Boggild, M ; Bradfield, JP ; Brassat, D ; Broadley, SA ; Buck, D ; Butzkueven, H ; Capra, R ; Carroll, WM ; Cavalla, P ; Celius, EG ; Cepok, S ; Chiavacci, R ; Clerget-Darpoux, F ; Clysters, K ; Comi, G ; Cossburn, M ; Cournu-Rebeix, I ; Cox, MB ; Cozen, W ; Cree, BAC ; Cross, AH ; Cusi, D ; Daly, MJ ; Davis, E ; de Bakker, PIW ; Debouverie, M ; D'hooghe, MB ; Dixon, K ; Dobosi, R ; Dubois, B ; Ellinghaus, D ; Elovaara, I ; Esposito, F ; Fontenille, C ; Foote, S ; Franke, A ; Galimberti, D ; Ghezzi, A ; Glessner, J ; Gomez, R ; Gout, O ; Graham, C ; Grant, SFA ; Guerini, FR ; Hakonarson, H ; Hall, P ; Hamsten, A ; Hartung, H-P ; Heard, RN ; Heath, S ; Hobart, J ; Hoshi, M ; Infante-Duarte, C ; Ingram, G ; Ingram, W ; Islam, T ; Jagodic, M ; Kabesch, M ; Kermode, AG ; Kilpatrick, TJ ; Kim, C ; Klopp, N ; Koivisto, K ; Larsson, M ; Lathrop, M ; Lechner-Scott, JS ; Leone, MA ; Leppa, V ; Liljedahl, U ; Bomfim, IL ; Lincoln, RR ; Link, J ; Liu, J ; Lorentzen, AR ; Lupoli, S ; Macciardi, F ; Mack, T ; Marriott, M ; Martinelli, V ; Mason, D ; McCauley, JL ; Mentch, F ; Mero, I-L ; Mihalova, T ; Montalban, X ; Mottershead, J ; Myhr, K-M ; Naldi, P ; Ollier, W ; Page, A ; Palotie, A ; Pelletier, J ; Piccio, L ; Pickersgill, T ; Piehl, F ; Pobywajlo, S ; Quach, HL ; Ramsay, PP ; Reunanen, M ; Reynolds, R ; Rioux, J ; Rodegher, M ; Roesner, S ; Rubio, JP ; Rueckert, I-M ; Salvetti, M ; Salvi, E ; Santaniello, A ; Schaefer, CA ; Schreiber, S ; Schulze, C ; Scott, RJ ; Sellebjerg, F ; Selmaj, KW ; Sexton, D ; Shen, L ; Simms-Acuna, B ; Skidmore, S ; Sleiman, PMA ; Smestad, C ; Sorensen, PS ; Sondergaard, HB ; Stankovich, J ; Strange, RC ; Sulonen, A-M ; Sundqvist, E ; Syvaenen, A-C ; Taddeo, F ; Taylor, B ; Blackwell, JM ; Tienari, P ; Bramon, E ; Tourbah, A ; Brown, MA ; Tronczynska, E ; Casas, JP ; Tubridy, N ; Corvin, A ; Vickery, J ; Jankowski, J ; Villoslada, P ; Markus, HS ; Wang, K ; Mathew, CG ; Wason, J ; Palmer, CNA ; Wichmann, H-E ; Plomin, R ; Willoughby, E ; Rautanen, A ; Winkelmann, J ; Wittig, M ; Trembath, RC ; Yaouanq, J ; Viswanathan, AC ; Zhang, H ; Wood, NW ; Zuvich, R ; Deloukas, P ; Langford, C ; Duncanson, A ; Oksenberg, JR ; Pericak-Vance, MA ; Haines, JL ; Olsson, T ; Hillert, J ; Ivinson, AJ ; De Jager, PL ; Peltonen, L ; Stewart, GJ ; Hafler, DA ; Hauser, SL ; McVean, G ; Donnelly, P ; Compston, A (NATURE PUBLISHING GROUP, 2011-08-11)
    Multiple sclerosis is a common disease of the central nervous system in which the interplay between inflammatory and neurodegenerative processes typically results in intermittent neurological disturbance followed by progressive accumulation of disability. Epidemiological studies have shown that genetic factors are primarily responsible for the substantially increased frequency of the disease seen in the relatives of affected individuals, and systematic attempts to identify linkage in multiplex families have confirmed that variation within the major histocompatibility complex (MHC) exerts the greatest individual effect on risk. Modestly powered genome-wide association studies (GWAS) have enabled more than 20 additional risk loci to be identified and have shown that multiple variants exerting modest individual effects have a key role in disease susceptibility. Most of the genetic architecture underlying susceptibility to the disease remains to be defined and is anticipated to require the analysis of sample sizes that are beyond the numbers currently available to individual research groups. In a collaborative GWAS involving 9,772 cases of European descent collected by 23 research groups working in 15 different countries, we have replicated almost all of the previously suggested associations and identified at least a further 29 novel susceptibility loci. Within the MHC we have refined the identity of the HLA-DRB1 risk alleles and confirmed that variation in the HLA-A gene underlies the independent protective effect attributable to the class I region. Immunologically relevant genes are significantly overrepresented among those mapping close to the identified loci and particularly implicate T-helper-cell differentiation in the pathogenesis of multiple sclerosis.
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    Modeling the cumulative genetic risk for multiple sclerosis from genome-wide association data
    Wang, JH ; Pappas, D ; De Jager, PL ; Pelletier, D ; de Bakker, PIW ; Kappos, L ; Polman, CH ; Chibnik, LB ; Hafler, DA ; Matthews, PM ; Hauser, SL ; Baranzini, SE ; Oksenberg, JR (BMC, 2011)
    BACKGROUND: Multiple sclerosis (MS) is the most common cause of chronic neurologic disability beginning in early to middle adult life. Results from recent genome-wide association studies (GWAS) have substantially lengthened the list of disease loci and provide convincing evidence supporting a multifactorial and polygenic model of inheritance. Nevertheless, the knowledge of MS genetics remains incomplete, with many risk alleles still to be revealed. METHODS: We used a discovery GWAS dataset (8,844 samples, 2,124 cases and 6,720 controls) and a multi-step logistic regression protocol to identify novel genetic associations. The emerging genetic profile included 350 independent markers and was used to calculate and estimate the cumulative genetic risk in an independent validation dataset (3,606 samples). Analysis of covariance (ANCOVA) was implemented to compare clinical characteristics of individuals with various degrees of genetic risk. Gene ontology and pathway enrichment analysis was done using the DAVID functional annotation tool, the GO Tree Machine, and the Pathway-Express profiling tool. RESULTS: In the discovery dataset, the median cumulative genetic risk (P-Hat) was 0.903 and 0.007 in the case and control groups, respectively, together with 79.9% classification sensitivity and 95.8% specificity. The identified profile shows a significant enrichment of genes involved in the immune response, cell adhesion, cell communication/signaling, nervous system development, and neuronal signaling, including ionotropic glutamate receptors, which have been implicated in the pathological mechanism driving neurodegeneration. In the validation dataset, the median cumulative genetic risk was 0.59 and 0.32 in the case and control groups, respectively, with classification sensitivity 62.3% and specificity 75.9%. No differences in disease progression or T2-lesion volumes were observed among four levels of predicted genetic risk groups (high, medium, low, misclassified). On the other hand, a significant difference (F = 2.75, P = 0.04) was detected for age of disease onset between the affected misclassified as controls (mean = 36 years) and the other three groups (high, 33.5 years; medium, 33.4 years; low, 33.1 years). CONCLUSIONS: The results are consistent with the polygenic model of inheritance. The cumulative genetic risk established using currently available genome-wide association data provides important insights into disease heterogeneity and completeness of current knowledge in MS genetics.
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    Gas6 Increases Myelination by Oligodendrocytes and Its Deficiency Delays Recovery following Cuprizone-Induced Demyelination
    Binder, MD ; Xiao, J ; Kemper, D ; Ma, GZM ; Murray, SS ; Kilpatrick, TJ ; Guillemin, G (PUBLIC LIBRARY SCIENCE, 2011-03-10)
    Multiple sclerosis (MS) is a complex demyelinating disease of the central nervous system. Current research has shown that at least in some cases, the primary insult in MS could be directed at the oligodendrocyte, and that the earliest immune responses are primarily via innate immune cells. We have identified a family of receptor protein tyrosine kinases, known as the TAM receptors (Tyro3, Axl and Mertk), as potentially important in regulating both the oligodendrocyte and immune responses. We have previously shown that Gas6, a ligand for the TAM receptors, can affect the severity of demyelination in mice, with a loss of signalling via Gas6 leading to decreased oligodendrocyte survival and increased microglial activation during cuprizone-induced demyelination. We hypothesised TAM receptor signalling would also influence the extent of recovery in mice following demyelination. A significant effect of the absence of Gas6 was detected upon remyelination, with a lower level of myelination after 4 weeks of recovery in comparison with wild-type mice. The delay in remyelination was accompanied by a reduction in oligodendrocyte numbers. To understand the molecular mechanisms that drive the observed effects, we also examined the effect of exogenous Gas6 in in vitro myelination assays. We found that Gas6 significantly increased myelination in a dose-dependent manner, suggesting that TAM receptor signalling could be directly involved in myelination by oligodendrocytes. The reduced rate of remyelination in the absence of Gas6 could thus result from a lack of Gas6 at a critical time during myelin production after injury. These findings establish Gas6 as an important regulator of both CNS demyelination and remyelination.
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    Comparing genotyping algorithms for Illumina's Infinium whole-genome SNP BeadChips
    Ritchie, ME ; Liu, R ; Carvalho, BS ; Irizarry, RA (BMC, 2011-03-08)
    BACKGROUND: Illumina's Infinium SNP BeadChips are extensively used in both small and large-scale genetic studies. A fundamental step in any analysis is the processing of raw allele A and allele B intensities from each SNP into genotype calls (AA, AB, BB). Various algorithms which make use of different statistical models are available for this task. We compare four methods (GenCall, Illuminus, GenoSNP and CRLMM) on data where the true genotypes are known in advance and data from a recently published genome-wide association study. RESULTS: In general, differences in accuracy are relatively small between the methods evaluated, although CRLMM and GenoSNP were found to consistently outperform GenCall. The performance of Illuminus is heavily dependent on sample size, with lower no call rates and improved accuracy as the number of samples available increases. For X chromosome SNPs, methods with sex-dependent models (Illuminus, CRLMM) perform better than methods which ignore gender information (GenCall, GenoSNP). We observe that CRLMM and GenoSNP are more accurate at calling SNPs with low minor allele frequency than GenCall or Illuminus. The sample quality metrics from each of the four methods were found to have a high level of agreement at flagging samples with unusual signal characteristics. CONCLUSIONS: CRLMM, GenoSNP and GenCall can be applied with confidence in studies of any size, as their performance was shown to be invariant to the number of samples available. Illuminus on the other hand requires a larger number of samples to achieve comparable levels of accuracy and its use in smaller studies (50 or fewer individuals) is not recommended.