Marvin J. Miller

Genomewide Linkage Analyses of Bipolar Disorder: A New Sample of 250 Pedigrees from the National Institute of Mental Health Genetics Initiative

We conducted genomewide linkage analyses on 1,152 individuals from 250 families segregating for bipolar disorder and related affective illnesses. These pedigrees were ascertained at 10 sites in the United States, through a proband with bipolar I affective disorder and a sibling with bipolar I or schizoaffective disorder, bipolar type. Uniform methods of ascertainment and assessment were used at all sites. A 9-cM screen was performed by use of 391 markers, with an average heterozygosity of 0.76. Multipoint, nonparametric linkage analyses were conducted in affected relative pairs. Additionally, simulation analyses were performed to determine genomewide significance levels for this study. Three hierarchical models of affection were analyzed. Significant evidence for linkage (genomewide P<.05) was found on chromosome 17q, with a peak maximum LOD score of 3.63, at the marker D17S928, and on chromosome 6q, with a peak maximum LOD score of 3.61, near the marker D6S1021. These loci met both standard and simulation-based criteria for genomewide significance. Suggestive evidence of linkage was observed in three other regions (genomewide P<.10), on chromosomes 2p, 3q, and 8q. This study, which is based on the largest linkage sample for bipolar disorder analyzed to date, indicates that several genes contribute to bipolar disorder.

Initial genomic scan of the NIMH genetics initiative bipolar pedigrees: Chromosomes 3, 5, 15, 16, 17, and 22

As part of the four-center NIMH Genetics Initiative on Bipolar Disorder we carried out a genomic scan of chromosomes 3, 5, 15, 16,17, and 22. Genotyping was performed on a set of 540 DNAs from 97 families, enriched for affected relative pairs and parents where available. We report here the results of the initial 74 markers that have been typed on this set of DNAs. The average distance between markers (theta) was 12.3 cM. Nonparametric analysis of excess allele sharing among affected sibling pairs used the SIBPAL program of the S.A.G.E. package to test three hierarchical models of affected status. D16S2619 gave some evidence of linkage to bipolar disorder, with P = 0.006 for Model II (in which bipolar 1, bipolar 2 and schizoaffective-bipolar type individuals are considered affected). Nearby markers also showed increased allele sharing. A second interesting region was toward the telomere of chromosome 5q, where D5S1456 and nearby markers showed increased allele sharing; for D5S1456, P = 0.05, 0.015 and 0.008 as the models of affected status become more broad. MOD score analysis also supported the possible presence of a susceptibility locus in this region of chromosome 5. A pair of adjacent markers on chromosome 3, D3S2405 and D3S3038, showed a modest increased allele sharing in the broad model. Several isolated markers had excess allele sharing at the P < 0.05 level under a single model. D15S217 showed a MOD score of 2.37 (P < 0.025). Multipoint analysis flagged the region of chromosome 22 around D22S533 as the most interesting. Thus, several regions showed modest evidence for linkage to bipolar disorder in this initial genomic scan of these chromosomes, including broad regions near previous reports of possible linkage.

Genomic Survey of Bipolar Illness in the NIMH Genetics Initiative Pedigrees: A Preliminary Report

NIMH Genetics Initiative Bipolar Group: John I. Nurnberger, Jr.* (Chair), J. Raymond DePaulo,Elliot S. Gershon, Theodore Reich, Mary C. Blehar, and collaborators from Indiana University(Howard J. Edenberg, Tatiana Foroud, Marvin Miller, Elizabeth Bowman, Aimee Mayeda, N. LeelaRau, Carrie Smiley, and P. Michael Conneally), Johns Hopkins University (Francis Mc-Mahon, Deborah Meyers, Sylvia Simpson, Melvin McInnis, and O. Colin Stine), NIMH IntramuralResearch Program (Sevilla Detera-Wadleigh, Lynn Goldin, Juliet Guroff, Elizabeth Max-well, Diane Kazuba, Pablo V. Gejman, Judith Badner, and Alan Sanders), and WashingtonUniversity of St. Louis (John Rice, Laura Bierut, and Alison Goate).Four sites collaborated with the NIMH todevelop a resource for the genetic study ofbipolar (BP) illness. Common methods of as-certainment and assessment were devel-oped in 1989. A series of families with a bi-polar I (BPI) proband and at least one BPIor schizoaffective, bipolar type (SA/BP)first-degree relative has been studied. Wenow report initial data from a genomic sur-vey with an average intermarker interval of10 cM on 540 subjects from 97 families. Thisis the largest commonly ascertained and as-sessed linkage sample for bipolar illness re-ported to date; it includes 232 subjects withBPI, 32 SA/BP, 72 bipolar II (BPII), and 88unipolar, recurrent (UPR). Nonparametricmethods of analysis were employed, with allsites using affected sib pair analysis. Thestrongest findings thus far appear to be onchromosomes 1, 6, 7, 10, 16, and 22. Supporthas also been found for some previously re-ported linkages, including 21q and possiblyXq26. All these areas (as well as others) willbe followed up with additional markers andfurther analyses. No locus tested thus farmeets stringent criteria for an initial find-ing of significant linkage. Am. J. Med. Genet.74:227–237, 1997.

Family-based association of FKBP5 in bipolar disorder.

The FKBP5 gene product forms part of a complex with the glucocorticoid receptor and can modulate cortisol-binding affinity. Variations in the gene have been associated with increased recurrence of depression and with rapid response to antidepressant treatment. We sought to determine whether common FKBP5 variants confer risk for bipolar disorder. We genotyped seven tag single-nucleotide polymorphisms (SNPs) in FKBP5, plus two SNPs previously associated with illness, in 317 families with 554 bipolar offspring, derived primarily from two studies. Single marker and haplotypic analyses were carried out with FBAT and EATDT employing the standard bipolar phenotype. Association analyses were also conducted using 11 disease-related variables as covariates. Under an additive genetic model, rs4713902 showed significant overtransmission of the major allele (P=0.0001), which was consistent across the two sample sets (P=0.004 and 0.006). rs7757037 showed evidence of association that was strongest under the dominant model (P=0.001). This result was consistent across the two datasets (P=0.017 and 0.019). The dominant model yielded modest evidence for association (P<0.05) for three additional markers. Covariate-based analyses suggested that genetic variation within FKBP5 may influence attempted suicide and number of depressive episodes in bipolar subjects. Our results are consistent with the well-established relationship between the hypothalamic–pituitary–adrenal (HPA) axis, which mediates the stress response through regulation of cortisol, and mood disorders. Ongoing whole-genome association studies in bipolar disorder and major depression should further clarify the role of FKBP5 and other HPA genes in these illnesses.

Genome-wide scan and conditional analysis in bipolar disorder: Evidence for genomic interaction in the National Institute of Mental Health genetics initiative bipolar pedigrees

BACKGROUND In 1989 the National Institute of Mental Health began a collaborative effort to identify genes for bipolar disorder. The first 97 pedigrees showed evidence of linkage to chromosomes 1, 6, 7, 10, 16, and 22 (Nurnberger et al 1997). An additional 56 bipolar families have been genotyped, and the combined sample of 153 pedigrees studied. METHODS Three hierarchical affection status models were analyzed with 513 simple sequence repeat markers; 298 were common across all pedigrees. The primary analysis was a nonparametric genome-wide scan. We performed conditional analyses based on epistasis or heterogeneity for five regions. RESULTS One region, on 16p13, was significant at the genome-wide p <.05 level. Four additional chromosomal regions (20p12, 11p15, 6q24, and 10p12) showed nominally significant linkage findings (p </=.01). Conditional analysis assuming epistasis identified a significant increase in linkage at four regions. Families linked to 6q24 showed a significant increase in nonparametric logarithms of the odds (NPL) scores at 5q11 and 7q21. Epistasis also was observed between 20p12 and 13q21, and 16p13 and 9q21. CONCLUSIONS The findings are presented in rank order of nominal significance. Several of these regions have been previously implicated in independent studies of either bipolar disorder or schizophrenia. The strongest finding is at 16p13 at D16S748 with an NPL of 3.3, there is evidence of epistasis between this locus and 9q21. Application of conditional analyses is potentially useful in larger sample collections to identify susceptibility genes of modest influence that may not be identified in a genome-wide scan aimed to identify single gene effects.

Suggestive evidence of a locus on chromosome 10p using the NIMH genetics initiative bipolar affective disorder pedigrees

As part of a four-center NIMH Genetics Initiative on Bipolar Disorder, a genome screen using 365 markers was performed on 540 DNAs from 97 families, enriched for affected relative pairs. This is the largest uniformly ascertained and assessed linkage sample for this disease, and includes 232 subjects diagnosed with bipolar I (BPI), 32 with schizo-affective, bipolar type (SABP), 72 with bipolar II (BPII), and 88 with unipolar recurrent depression (UPR). A hierarchical set of definitions of affected status was examined. Under Model I, affected individuals were those with a diagnosis of BPI or SABP, Model II included as affected those fitting Model I plus BPII, and Model III included those fitting Model II plus UPR. This data set was previously analyzed using primarily affected sib pair methods. We report the results of nonparametric linkage analyses of the extended pedigree structure using the program Genehunter Plus. The strongest finding was a lod score of 2.5 obtained on chromosome 10 near the marker D10S1423 with diagnosis as defined under Model II. This region has been previously implicated in genome-wide studies of schizophrenia and bipolar disorder. Other chromosomal regions with lod scores over 1.50 for at least one Model Included chromosomes 8 (Model III), 16 (Model III), and 20 (Model I). Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:18-23, 2000

EEG Topography in Psychiatric Diagnosis and Drug Treatment

AbstractBrain surface activity monitoring (BSAM) of drug-free adult patients with mania, depression, and obsessive-compulsive disorder revealed no significant differences between them and age-sex-matched normal controls. Distinctive EEG changes were observed during treatment with carbamazepine and lithium in patients with affective disorders. Drug-free schizophrenics had more anterior slowing than did normals. Increased delta and theta activity was associated with neuroleptic therapy—most with clozapine and chlorpromazine and least with naloperidol. Higher left frontal alpha amplitudes were correlated with fewer negative symptoms of schizophrenia and better therapeutic response. Computerized tomographic ventricle-to-brain ratios exhibited robust positive correlations with beta-1 amplitudes that occurred exclusively during treatment with chlorpromazine. Alpha and beta-1 amplitudes were positively correlated with the BPRS anxiety depression factor in schizophrenic patients under all treatment conditions. En...

Mechanisms of action of ECT: Schizophrenia and schizoaffective disorder

A variety of neurophysiological mechanisms have been suggested to explain the therapeutic action of electroconvulsive therapy (ECT). Processes of kindling, resolution of hemispheric dysfunctions, anticonvulsant effects, and diencephalic stimulation all have been proposed to account for the beneficial effects of ECT. To investigate these, we analyzed clinical, neuropsychological, and electroencephalographic (EEG) data from 110 ECT-treated patients with schizophrenia and schizoaffective disorders, comparing responders with nonresponders. Fifty-four percent of all the patients were rated as very much or much improved. Mechanisms of kindling or anticonvulsant effects were not supported by the data. Dominant hemispheric dysfunctions in schizophrenics were suggested by the neuropsychological test data. There was tenuous support for the sensitization theory and both the neuropsychological and EEG data contradicted the dominant accentuation theory. Taken together with our previous report on ECT-treated patients with affective disorders, we propose that ECT might act by restoration of equilibrium between the hemispheres.

Genetic association of bipolar disorder with the β3 nicotinic receptor subunit gene

Objective Owing to the clinical relationship between bipolar disorder and nicotine dependence, we investigated two research questions: (i) are genetic associations with nicotine dependence different in individuals with bipolar disorder as compared with individuals without bipolar disorder, and (ii) do loci earlier associated with nicotine dependence have pleiotropic effects on these two diseases. Method Our study consisted of 916 cases with bipolar disorder and 1028 controls. On the basis of known associations with nicotine dependence, we genotyped eight single-nucleotide polymorphisms (SNPs) on chromosome 8 (three bins) in the regions of CHRNB3 and CHRNA6, and six SNPs on chromosome 15 (three bins) in the regions of CHRNA5 and CHRNA3. Results To determine whether the genetic associations with nicotine dependence are different in bipolar disorder than in the general population, we compared allele frequencies of candidate SNPs between individuals with nicotine dependence only and individuals with both nicotine dependence and bipolar disorder. There were no statistical differences between these frequencies, indicating that genetic association with nicotine dependence is similar in individuals with bipolar disorder as in the general population. In the investigation of pleiotropic effects of these SNPs on bipolar disorder, two highly correlated synonymous SNPs in CHRNB3, rs4952 and rs4953, were significantly associated with bipolar disorder (odds ratio 1.7, 95% confidence interval: 1.2–2.4, P=0.001). This association remained significant both after adjusting for a smoking covariate and analyzing the association in nonsmokers only. Conclusion Our results suggest that (i) bipolar disorder does not modify the association between nicotine dependence and nicotinic receptor subunit genes, and (ii) variants in CHRNB3/CHRNA6 are independently associated with bipolar disorder.

Quantitative electroencephalographic frequencies and relative neuroleptic receptor affinities in schizophrenia

Information is now available about the receptor binding properties of standard and atypical antipsychotic drugs (Kerwin 1994; Lieberman 1993; Pickar 1995). As yet there has been minimal attention to neurophysiological attributes that may correspond to receptor affinities, although Czobor and Volavka (1993) have hypothesized that changes in power spectral density and symmetry may be related to serotonergic and dopaminergic mechanisms. Sloan et al (1992) have shown that the central effects of anticholinergic drugs are reflected in increased electroencephalographic (EEG) slowing and reduced coherence. An opportunity to examine such relationships was afforded by our practice of collecting quantitative EEG data before and during chronic administration of neuroleptics in chronic schizophrenic patients.