F. McCandless

Association studies of bipolar disorder at the human serotonin transporter gene (hSERT; 5HTT)

The human serotonin transporter gene (hSERT) is a strong candidate for involvement in the pathogenesis of mood disorder and, using a UK Caucasian case-control sample, Collier et al found a significant association between bipolar disorder and the 12 allele of the VNTR polymorphism in intron 2 of this gene. In a European collaborative sample, Collier et al found a significant association between affective disorder and a functional deletion polymorphism in the promoter of hSERT. We have undertaken association studies using these polymorphisms in a British Caucasian sample comprising 171 DSM-IV bipolar probands, 80 DSM-IV major depression probands and 121 unrelated controls matched to bipolar probands for age, sex and ethnicity. We found no association between the promoter deletion and affective disorder but our findings with the VNTR polymorphism are similar to those of Collier and colleagues: we found a significant excess of the 12 repeat allele in bipolar probands (P = 0.031, one-tail) with a suggestion of a gene dosage effect (using genotypes bearing no 12 repeat allele as baseline, the increased risks conferred by genotypes bearing 12 repeat alleles were: heterozygote, OR = 1.24; homozygote, OR = 1.76). Our findings add to the evidence that variation at or near hSERT influences susceptibility to bipolar disorder in the British Caucasian population.

Family-based association studies of bipolar disorder with candidate genes involved in dopamine neurotransmission: DBH, DAT1, COMT, DRD2, DRD3 and DRD5.

The dopaminergic system has been implicated in the aetiology of mood disorders. We conducted family-based association studies for polymorphisms at three genes involved in the metabolism of dopamine: dopamine transporter (DAT1), dopamine-β-hydroxylase (DBH) and catechol-O-methyl transferase (COMT); and three dopamine receptors: DRD2, DRD3 and DRD5. We used a sample of 122 parent–offspring trios of British Caucasian origin where the proband had bipolar disorder I (BPI), and analysed the results with the transmission/disequilibrium test (TDT) which is robust to hidden population stratification. No statistically significant differences were found between transmitted and not transmitted alleles for any of the polymorphisms studied.

The Wellcome trust UK-Irish bipolar affective disorder sibling-pair genome screen: first stage report.

We have completed the first stage of a two-stage genome wide screen designed to identify chromosomal regions that may harbour susceptibility genes for bipolar affective disorder. The first stage screening sample included 509 subjects from 151 nuclear families recruited within the United Kingdom and Republic of Ireland. This sample contained 154 narrowly defined affected sibling pairs (DSM-IV BPI) and 258 broadly defined affected sibling pairs (DSM-IV BPI, SABP, BPII, BPNOS or MDD(R)), approximately two thirds of all families contained at least one other additional typed individual. All individuals were genotyped using 398 highly polymorphic microsatellite markers from Applied Biosystemss Linkage Mapping Set Version 2. The average inter-marker distance was 9.6 cM and the mean heterozygosity was 0.78. Analysis of these data using non-parametric linkage methods (MAPMAKER/SIBS) found no evidence for loci of major effect and no regions reached genome-wide significance for either suggestive or significant linkage. We identified 19 points across the genome where the MLS exceeded a value set for follow up in our second stage screen (MLS≥0.74 (equivalent to a nominal pointwise significance of 5%) under the narrowest diagnostic model). These points were on chromosomes 2, 3, 4, 6, 7, 9, 10, 12, 17, 18 & X. Some of these points overlapped with previous linkage reports both within bipolar affective disorder and other psychiatric illnesses. Under the narrowest diagnostic model, the single most significant multipoint linkage was on chromosome 18 at marker D18S452 (MLS=1.54). Overall the highest MLS was 1.70 on chromosome 2 at marker D2S125, under the broadest diagnostic model.

Attitudes towards future testing for bipolar disorder susceptibility genes: a preliminary investigation

The discovery of susceptibility genes for the major psychiatric illnesses may lead to the development of presymptomatic and prenatal tests. In a preliminary study we assessed the attitudes of 147 bipolar patients, 90 attendees at their family doctor (GP) and 32 psychiatrists to the possible development of genetic tests for bipolar disorder susceptibility genes. Our results suggest that patients and the public will look favourably on the development of presymptomatic (but not prenatal) testing for bipolar disorder susceptibility genes. Psychiatrists, who will have to administer such tests, appear significantly more cautious.

Exclusion of the Darier's disease gene, ATP2A2 , as a common susceptibility gene for bipolar disorder

Bipolar affective disorder is a genetically complex psychiatric disorder with a population prevalence of approximately 1%. We have previously reported cosegregation of bipolar affective disorder and Dariers disease, a dominant skin disorder with a neuropsychiatric component. The gene for Dariers disease was mapped to chromosome 12q23–q24.1 and linkage studies by us and others have subsequently implicated this region as harbouring a susceptibility gene for bipolar affective disorder. In this study we have investigated the Dariers disease gene ATP2A2, the calcium pumping ATPase SERCA2, as a potential susceptibility gene for bipolar disorder under the hypothesis that variations in SERCA2 have pleiotropic effects in brain. Support for this hypothesis comes from clinical evidence of neuropsychiatric abnormalities in Dariers disease, genetic data produced in our study showing non-random clustering of missense mutations in ATP2A2 in neuropsychiatric Darier patients, and functional data demonstrating the role of SERCA2 in intracellular calcium regulation. In a panel of 15 unrelated bipolar patients from multiply affected families showing increased allele sharing at markers in the 12q23–q24.1 region, we performed mutational screening of the ATP2A2 coding sequence, promoter regions, and 3′ untranslated region and identified six sequence variations. These were analysed in a large sample of bipolar patients (n = 324) and control subjects (n = 327). Analysis of allele and genotype distributions for all six variations, and of haplotype frequencies showed no evidence for the involvement of ATP2A2 in producing susceptibility to bipolar disorder.

Molecular genetic studies of bipolar disorder and puerperal psychosis at two polymorphisms in the estrogen receptor alpha gene (ESR 1)

A number of lines of evidence point to the possible involvement of estrogen pathways in the pathophysiology of bipolar disorder in general and puerperal psychosis in particular. There is strong evidence from clinical, follow-up, and genetic studies to support the hypothesis that most cases of puerperal psychosis are manifestations of an affective disorder diathesis with a puerperal trigger and that genes influence susceptibility to both diathesis and trigger. The nature of the trigger is unknown but in view of the abrupt onset at a time of major physiological change it is widely believed that biological, probably hormonal, mechanisms are of paramount importance, with estrogen receiving the most attention to date. We have undertaken a case control association study of bipolar disorder and puerperal psychosis at two known polymorphisms within the estrogen receptor alpha gene (ESR 1) in a sample of 219 unrelated bipolar probands and 219 controls. We could exclude these polymorphisms from an important contribution to susceptibility to bipolar disorder with a high level of confidence. We found no support for the hypothesis that they contribute specific susceptibility to the puerperal trigger, but due to the small numbers of puerperal probands (n = 26) no firm conclusions can be drawn regarding their involvement in puerperal psychosis. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:850-853, 2000.

Bipolar disorder and variation at a common polymorphism (A1832G) within exon 8 of the Wolfram gene

A number of linkage studies provide evidence consistent with the existence of a bipolar susceptibility gene on chromosome 4p16. The gene for Wolfram syndrome, a rare recessive neurodegenerative disorder, lies in this region and has recently been cloned. Psychiatric disturbances including psychosis, mood disorder, and suicide have been reported at increased frequency in Wolfram patients and in heterozygous carriers of a Wolfram mutation. In the current investigation we have undertaken a case-control association study using a single nucleotide polymorphism (causing an amino acid change) in exon 8 of the Wolfram gene in a UK Caucasian sample of 312 Diagnostic and Statistical Manual of Mental Disorders (fourth edition; DSM IV) bipolar I probands and 301 comparison individuals. We found no evidence that variation at this polymorphism influences susceptibility to bipolar disorder. It remains possible that variation at other sites within or near the Wolfram gene plays important roles in determining susceptibility to affective illness. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:154-157, 2000.

A functional polymorphism in the promoter of monoamine oxidase A gene and bipolar affective disorder

The genes encoding for the enzymes monoamine oxidase (MAO) A and B are good candidates to investigate bipolar affective disorder. A 30 bp repeat in the MAOA promoter was recently demonstrated to be polymorphic and to affect transcriptional activity. In a family-based association design we found that none of the different repeat copies was preferentially transmitted from mothers (n = 131) to their children affected with bipolar disorder (chi(2) = 2.75, 4 d.f., p = 0.6). Following on our previous finding of an excess of low-activity genotypes of catechol-O-methyltransferase in patients with a rapid cycling form of illness, we examined for a similar trend with MAOA alleles. In an extended sample we found a non-significant trend for patients with an ultra-rapid cycling form of illness (n = 29) to have a higher frequency of low-activity alleles compared with 92 bipolar patients with a non-rapid cycling course of illness (chi(2) = 2.37, 1 d.f., p = 0.13).

No association between a polymorphic CAG repeat in the human potassium channel gene hKCa3 and bipolar disorder.

A recent case-control study suggested that modest enlargements of a CAG repeat in the hKCa3 potassium channel may be associated with bipolar disorder. We tried to replicate this result in a UK Caucasian sample of 203 DSM-IV bipolar I disorder patients and 206 controls group-matched for age and sex. Using the same model of analysis as the earlier study, bipolar probands did not have a higher frequency of alleles with greater than 19 repeats than controls (chi2 = 1.44, 1 df, P = 0.23). Similarly, comparison of the distributions of repeat sizes between probands and controls did not approach statistical significance (Mann-Whitney U test, P = 0.35). We conclude that our data provide no support for the hypothesis that variation at the hKCa3 gene contributes to susceptibility to bipolar disorder.

CTG18.1 and ERDA-1 CAG/CTG Repeat Size in Bipolar Disorder

Several groups have reported association between large CAG/CTG repeat sequences in the genome and bipolar disorder using the Repeat Expansion Detection (RED) method. Unfortunately, the RED method cannot identify the specific repeat(s) responsible for these findings but it has recently been proposed that around 90% of the large CAG/CTG repeats detected by RED can be explained by repeat size at either CTG18.1, which maps to 18q21.1, or ERDA-1 (also known as Dir 1), which maps to 17q21.3. These data suggest that the previous associations between bipolar disorder and large CAG/CTG repeats might be explained at least in part by a specific association between bipolar disorder and either or both of these loci. However, using a case control study design, we find no evidence for such associations. Thus we conclude that in our sample, the previous RED associations are not a result of large CAG/CTG repeats at CTG18.1 or ERDA-1.