Ana Pereira

Publications (3)6.98 Total impact

• Source

  Available from: Radhika Kandaswamy

  Article: Confirmation of prior evidence of genetic susceptibility to alcoholism in a genome-wide association study of comorbid alcoholism and bipolar disorder.

  Gregory John Lydall, Nicholas J Bass, Andrew McQuillin, Jacob Lawrence, Adebayo Anjorin, Radhika Kandaswamy, Ana Pereira, Irene Guerrini, David Curtis, Anna E Vine, Pamela Sklar, Shaun M Purcell, Hugh Malcolm Douglas Gurling
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  ABSTRACT: Alcoholism and affective disorders are both strongly comorbid and heritable. We have investigated the genetic comorbidity between bipolar affective disorder and alcoholism. A genome-wide allelic association study of 506 patients from the University College London bipolar disorder case-control sample and 510 ancestrally matched supernormal controls. One hundred forty-three of the bipolar patients fulfilled the Research Diagnostic Criteria diagnosis of alcoholism. A total of 372 193 single nucleotide polymorphisms (SNPs) were genotyped. Genes previously shown to be associated with alcoholism and addiction phenotypes were then tested for association in the bipolar alcoholic sample using gene-wise permutation tests of all SNPs genotyped within a 50-kb region flanking each gene. Several central nervous system genes showed significant (P<0.05) gene-wise evidence of association with bipolar alcoholism. The genes implicated, which replicated genes previously shown to be associated with alcoholism were: cadherin 11, collagen type 11 α2, neuromedin U receptor 2, exportin7, and semaphorin-associated protein 5A. The SNPs most strongly implicated in bipolar alcoholism, but, which did not meet conventional genome-wide significance criteria were the insulin-like growth factor-binding protein 7, carboxypeptidase O, cerebellin 2, and the cadherin 12 genes. We have confirmed the role of some genes previously shown to be associated with alcoholism in the comorbid bipolar alcoholism subgroup. In this subgroup, bipolar disorder may lower the threshold for the phenotypic expression of these alcoholism susceptibility genes. We also show that some genes may independently increase susceptibility to affective disorder and alcoholism.
  Psychiatric genetics 08/2011; 21(6):294-306. · 2.33 Impact Factor
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  Available from: Radhika Kandaswamy

  Article: Case-case genome-wide association analysis shows markers differentially associated with schizophrenia and bipolar disorder and implicates calcium channel genes.

  David Curtis, Anna E Vine, Andrew McQuillin, Nicholas James Bass, Ana Pereira, Radhika Kandaswamy, Jacob Lawrence, Adebayo Anjorin, Khalid Choudhury, Susmita R Datta, Vinay Puri, Robert Krasucki, Jonathan Pimm, Srinivasa Thirumalai, Digby Quested, Hugh M D Gurling
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  ABSTRACT: There are theoretical reasons why comparing marker allele frequencies between cases of different diseases, rather than with controls, may offer benefits. The samples may be better matched, especially for background risk factors common to both diseases. Genetic loci may also be detected which influence which of the two diseases occurs if common risk factors are present. We used samples of UK bipolar and schizophrenic cases that had earlier been subject to genome-wide association studies and compared marker allele frequencies between the two samples. When these differed for a marker, we compared the case sample allele frequencies with those of a control sample. Eight markers were significant at P value of less than 10(-5). Of these, the most interesting finding was for rs17645023, which was significant at P value of less than 10(-6) and which lies 36 kb from CACNG5. Control allele frequencies for this marker were intermediate between those for bipolar and schizophrenic cases. The application of this approach suggests that it does have some merits. The finding for CACNG5, taken together with the earlier implication of CACNA1C and CACNA1B, strongly suggests a key role for voltage-dependent calcium channel genes in the susceptibility to bipolar disorder and/or schizophrenia.
  Psychiatric genetics 11/2010; 21(1):1-4. · 2.33 Impact Factor
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  Available from: Radhika Kandaswamy

  Article: No evidence for excess runs of homozygosity in bipolar disorder.

  Anna E Vine, Andrew McQuillin, Nicholas J Bass, Ana Pereira, Radhika Kandaswamy, Michele Robinson, Jacob Lawrence, Adebayo Anjorin, Pamela Sklar, Hugh M D Gurling, David Curtis
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  ABSTRACT: Recent studies have reported large common regions of homozygosity (ROHs) that are the result of autozygosity, that is, the cooccurrence within individuals of long haplotypes that have a high frequency in the population. A recent study reports that such regions are found more commonly in individuals with schizophrenia compared with controls, and identified nine 'risk ROHs' that were individually more common in cases. Of these, four contained or neighboured genes associated with schizophrenia (NOS1AP/UHMK1, ATF2, NSF and PIK3C3). We have applied the same methodology to a UK sample of 506 cases with bipolar disorder and 510 controls. There was no overall excess of common ROHs among bipolar individuals. With one exception, the haplotypes accounting for the ROHs appeared to be distributed according to the Hardy-Weinberg equilibrium. One ROH was individually more common among cases (uncorrected P = 0.0003). This ROH spanned the chromosome 2p23.3 gene ITSN2 (the gene for intersectin 2 isoform 2). However, inspection of the homozygous haplotypes and haplotype-based tests for association failed to provide a clearer understanding of why this ROH was occurring more commonly. Overall, we conclude that, in contrast with schizophrenia, common ROHs are rarely associated with susceptibility to bipolar disorder. This supports the idea that predominantly different genes are increasing susceptibility to schizophrenia and bipolar affective disorders.
  Psychiatric genetics 06/2009; 19(4):165-70. · 2.33 Impact Factor