Xingguang Luo

Association between the cortisol response to opioid blockade and the Asn40Asp polymorphism at the μ‐opioid receptor locus (OPRM1)

This study examined whether a reportedly functional polymorphism in the gene encoding the μ‐opioid receptor protein (A118G, which causes an Asn40Asp substitution in the receptors extracellular domain), modifies the cortisol response to the opioid antagonist naloxone. The polymorphism occurs commonly in European Americans and some other population groups, underscoring its potential phenotypic significance. Methods: Using a balanced, within‐subject design involving two test sessions over a period of 3–7 days, we examined ACTH and cortisol responses to intravenous naloxone (125 μg/kg) or placebo in 30 healthy subjects (21 males, mean age = 24.4 years). Plasma ACTH and cortisol concentrations were measured over 120 min post infusion. DNA isolated from whole blood was PCR amplified and genotyped via restriction enzyme digestion, with genotypes assigned based on agarose gel size fractionation. Results: Subjects with one or more Asp40 alleles (n = 6; 5 heterozygotes and 1 homozygote) had significantly higher cortisol concentrations at baseline and at 15, 60, and 90 min after naloxone infusion than subjects homozygous for the Asn40 allele (n = 24). Subjects with the Asp40 allele also had a greater peak cortisol response and a greater area under the cortisol time curve than those homozygous for the Asn40 allele. There were no effects of the Asn40Asp polymorphism on plasma ACTH concentration or on self‐reported anxiety or distress. Conclusions: These findings are consistent with recent reports showing an enhanced cortisol response to naloxone and a reduced agonist effect of morphine‐6‐glucuronide among subjects with the Asp40 variant. Given evidence of its pharmacological significance, the clinical relevance of this polymorphism warrants further investigation.

The OPRD1 and OPRK1 loci in alcohol or drug dependence: OPRD1 variation modulates substance dependence risk.

Eleven single-nucleotide polymorphisms (SNPs) spanning OPRD1 were examined in 1063 European Americans (EAs) (620 cases with substance dependence (SD), including 557 with alcohol dependence (AD), 225 with cocaine dependence (CD) and 111 with opioid dependence (OD), and 443 controls). Nominally significant associations (P<0.05) of five SNPs with SD were observed; only the association of the non-synonymous variant G80T with OD remained significant after correction for multiple testing using SNPSpD. Haplotype analyses with six tag SNPs indicated that a specific haplotype GCAACT, which harbors G80T G-allele and C921T C-allele, was significantly associated with AD (χ2=14.82, degrees of freedom (d.f.)=1, P<0.001), CD (χ2=9.19, d.f.=1, P=0.002) and OD (χ2=20.68, d.f.=1, P<0.001). Logistic regression analyses, with sex and age being considered, demonstrated that this haplotype had a risk effect on AD (P=0.03, β=1.86, odds ratio (OR)=6.43) and especially on OD (P<0.001, β=3.92, OR=50.57). Moreover, seven SNPs covering OPRK1 were examined in the majority of the above subjects (390 cases, including 327 AD, 177 CD and 97 OD subjects, and 358 controls). Although no significant differences in allele, genotype or haplotype frequency distributions were seen between cases and controls, a specific OPRK1 haplotype, GGCTTCT, was significantly associated with AD (χ2=8.12, d.f.=1, P=0.004). Logistic regression analyses also revealed its risk effect on AD (P=0.009, β=1.06, OR=2.90). Population stratification artifact was not observed in the sample. Taken together, our findings supported a positive association between OPRD1 variants and SD, and a positive haplotypic association between OPRK1 and AD in EAs.

Diplotype Trend Regression Analysis of the ADH Gene Cluster and the ALDH2 Gene: Multiple Significant Associations with Alcohol Dependence

The set of alcohol-metabolizing enzymes has considerable genetic and functional complexity. The relationships between some alcohol dehydrogenase (ADH) and aldehyde dehydrogenase (ALDH) genes and alcohol dependence (AD) have long been studied in many populations, but not comprehensively. In the present study, we genotyped 16 markers within the ADH gene cluster (including the ADH1A, ADH1B, ADH1C, ADH5, ADH6, and ADH7 genes), 4 markers within the ALDH2 gene, and 38 unlinked ancestry-informative markers in a case-control sample of 801 individuals. Associations between markers and disease were analyzed by a Hardy-Weinberg equilibrium (HWE) test, a conventional case-control comparison, a structured association analysis, and a novel diplotype trend regression (DTR) analysis. Finally, the disease alleles were fine mapped by a Hardy-Weinberg disequilibrium (HWD) measure (J). All markers were found to be in HWE in controls, but some markers showed HWD in cases. Genotypes of many markers were associated with AD. DTR analysis showed that ADH5 genotypes and diplotypes of ADH1A, ADH1B, ADH7, and ALDH2 were associated with AD in European Americans and/or African Americans. The risk-influencing alleles were fine mapped from among the markers studied and were found to coincide with some well-known functional variants. We demonstrated that DTR was more powerful than many other conventional association methods. We also found that several ADH genes and the ALDH2 gene were susceptibility loci for AD, and the associations were best explained by several independent risk genes.

Haplotypes at the OPRM1 locus are associated with susceptibility to substance dependence in European-Americans

Our objective was to investigate the relationship between the gene encoding the μ‐opioid receptor (OPRM1) and susceptibility to substance dependence in European‐American (EA) and African‐American (AA) subjects. Eight single nucleotide polymorphisms (SNPs) at the OPRM1 locus, i.e., −2044C/A, −1793T/A, −1699insT, −1469T/C, −1320A/G, −111C/T, +17C/T (Ala6Val), and +118A/G (Asn40Asp) were genotyped in 676 subjects: 318 EA subjects and 124 AA subjects with substance dependence, and 179 EA normal controls, and 55 AA normal controls. Affection status was defined by each unique combination of alcohol, cocaine, and opioid dependence and analysis of association examined in relation to the possible combinations. We used a newly implemented permutation method to evaluate statistical significance. In EAs, a significant difference in haplotype frequency distributions was found between controls and “alcohol + opioid” dependent patients (P = 0.0036). This finding is also supported by logistic regression analysis and a simulation method. The frequencies of allele −2044A and haplotypes including −2044A are higher in these patients than in controls. In AAs, no allele, haplotype, or genotype frequencies were significantly different between cases and controls. There were highly significant differences in the allele, haplotype, and genotype frequencies between EA and AA controls. Four of the variants [−1793T/A, −1699insT, −1320A/G, and −111C/T] are in virtually complete linkage disequilibrium (LD) to compose a sequence pattern, which does not associate with any of the seven categories of substance dependence. In EAs, allele −2044A and haplotypes that include −2044A are the susceptibility allele and haplotypes for substance dependence. These findings suggest that OPRM1 may play a role in the pathophysiology of substance dependence and this role is population‐ and diagnosis‐specific.

ADH4 Gene Variation is Associated with Alcohol Dependence and Drug Dependence in European Americans: Results from HWD Tests and Case–Control Association Studies

The alcohol dehydrogenase (ADH) family constitutes one of the key sets of enzymes responsible for the oxidation of alcohol. The ADH4 gene, an important member of this family, is a functional and positional candidate for alcohol dependence. The present study aimed to investigate the relationship between ADH4 gene variation and alcohol dependence and drug dependence in European-Americans (EAs) and African-Americans (AAs). Seven single nucleotide polymorphisms (SNPs) spanning the ADH4 gene were genotyped in 365 healthy controls (317 EAs and 48 AAs) and 561 subjects (400 EAs and 161 AAs) affected with alcohol dependence and/or drug dependence (436 with alcohol dependence; 356 with drug dependence). Hardy–Weinberg equilibrium (HWE) for the genotype frequency distributions of these markers was tested in all phenotype groups to evaluate association between ADH4 gene variation and phenotypes and to fine-map the disease risk locus. The allele, genotype, and haplotype frequency distributions of these markers were compared between cases and controls to confirm the associations. The genotype frequency distributions of ADH4 markers were in HWE in EA controls, but were in Hardy–Weinberg disequilibrium (HWD) (ie, deviation from HWE) in EA cases. Among all markers, SNP2 (rs1042363) at exon 9 or SNP6 (rs1800759) at the promoter showed the greatest degree of HWD, among patients with either alcohol dependence or drug dependence. Significant differences between EA cases and controls were seen for genotype (10−6<global p<0.044), but not any allele or haplotype, frequency distributions for all seven ADH4 markers. These findings suggest that ADH4 genotypes predispose to alcohol dependence and drug dependence in a recessive manner, a predisposition that is population specific. SNP2 or SNP6 was the marker genetically closest to the functional risk loci for both alcohol dependence and drug dependence.

Genome-Wide Association Study of Alcohol Dependence Implicates KIAA0040 on Chromosome 1q

Previous studies using SAGE (the Study of Addiction: Genetics and Environment) and COGA (the Collaborative Study on the Genetics of Alcoholism) genome-wide association study (GWAS) data sets reported several risk loci for alcohol dependence (AD), which have not yet been well replicated independently or confirmed by functional studies. We combined these two data sets, now publicly available, to increase the study power, in order to identify replicable, functional, and significant risk regions for AD. A total of 4116 subjects (1409 European-American (EA) cases with AD, 1518 EA controls, 681 African-American (AA) cases, and 508 AA controls) underwent association analysis. An additional 443 subjects underwent expression quantitative trait locus (eQTL) analysis. Genome-wide association analysis was performed in EAs to identify significant risk genes. All available markers in the genome-wide significant risk genes were tested in AAs for associations with AD, and in six HapMap populations and two European samples for associations with gene expression levels. We identified a unique genome-wide significant gene—KIAA0040—that was enriched with many replicable risk SNPs for AD, all of which had significant cis-acting regulatory effects. The distributions of −log(p) values for SNP-disease and SNP-expression associations for all markers in the TNN–KIAA0040 region were consistent across EAs, AAs, and five HapMap populations (0.369⩽r⩽0.824; 2.8 × 10−9⩽p⩽0.032). The most significant SNPs in these populations were in high LD, concentrating in KIAA0040. Finally, expression of KIAA0040 was significantly (1.2 × 10−11⩽p⩽1.5 × 10−6) associated with the expression of numerous genes in the neurotransmitter systems or metabolic pathways previously associated with AD. We concluded that KIAA0040 might harbor a causal variant for AD and thus might directly contribute to risk for this disorder. KIAA0040 might also contribute to the risk of AD via neurotransmitter systems or metabolic pathways that have previously been implicated in the pathophysiology of AD. Alternatively, KIAA0040 might regulate the risk via some interactions with flanking genes TNN and TNR. TNN is involved in neurite outgrowth and cell migration in hippocampal explants, and TNR is an extracellular matrix protein expressed primarily in the central nervous system.

Meta-Analysis of 15 Genome-Wide Linkage Scans of Smoking Behavior

BACKGROUND A genetic contribution to smoking behavior is well-established. To identify loci that increase the risk for smoking behavior, many genome-wide linkage scans have been performed with various smoking behavior assessments. Numerous putative susceptibility loci have been identified, but only a few of these were replicated in independent studies. METHODS We used genome search meta-analysis (GSMA) to identify risk loci by pooling all available independent genome scan results on smoking behavior. Additionally, to minimize locus heterogeneity, subgroup analyses of the smoking behavior assessed by the Fagerstrom Test for Nicotine Dependence (FTND) and maximum number of cigarettes smoked in a 24-hour period (MaxCigs24) were carried out. Samples of European ancestry were also analyzed separately. RESULTS A total number of 15 genome scan results were available for analysis, including 3404 families with 10,253 subjects. Overall, the primary GSMA across all smoking behavior identified a genome-wide suggestive linkage in chromosome 17q24.3-q25.3 (p(SR) = .001). A secondary analysis of FTND in European-ancestry samples (625 families with 1878 subjects) detected a genome-wide suggestive linkage in 5q33.1-5q35.2 (p(SR) = .0076). Subgroup analysis of MaxCigs24 (966 families with 3273 subjects) identified a genome-wide significant linkage in 20q13.12-q13.32 (p(SR) = .00041, p(OR) = .048), where a strongly supported nicotine dependence candidate gene, CHRNA4, is located. CONCLUSIONS The regions identified in the current study deserve close attention and will be helpful for candidate gene identification or target re-sequencing studies in the future.

A Novel, Functional and Replicable Risk Gene Region for Alcohol Dependence Identified by Genome-Wide Association Study

Several genome-wide association studies (GWASs) reported tens of risk genes for alcohol dependence, but most of them have not been replicated or confirmed by functional studies. The present study used a GWAS to search for novel, functional and replicable risk gene regions for alcohol dependence. Associations of all top-ranked SNPs identified in a discovery sample of 681 African-American (AA) cases with alcohol dependence and 508 AA controls were retested in a primary replication sample of 1,409 European-American (EA) cases and 1,518 EA controls. The replicable associations were then subjected to secondary replication in a sample of 6,438 Australian family subjects. A functional expression quantitative trait locus (eQTL) analysis of these replicable risk SNPs was followed-up in order to explore their cis-acting regulatory effects on gene expression. We found that within a 90 Mb region around PHF3-PTP4A1 locus in AAs, a linkage disequilibrium (LD) block in PHF3-PTP4A1 formed the only peak associated with alcohol dependence at p<10−4. Within this block, 30 SNPs associated with alcohol dependence in AAs (1.6×10−5≤p≤0.050) were replicated in EAs (1.3×10−3≤p≤0.038), and 18 of them were also replicated in Australians (1.8×10−3≤p≤0.048). Most of these risk SNPs had strong cis-acting regulatory effects on PHF3-PTP4A1 mRNA expression across three HapMap samples. The distributions of −log(p) values for association and functional signals throughout this LD block were highly consistent across AAs, EAs, Australians and three HapMap samples. We conclude that the PHF3-PTP4A1 region appears to harbor a causal locus for alcohol dependence, and proteins encoded by PHF3 and/or PTP4A1 might play a functional role in the disorder.

Interaction between two independent CNR1 variants increases risk for cocaine dependence in European Americans: a replication study in family-based sample and population-based sample.

We recently reported that, in a European-American (EA) sample, the interaction between two cannabinoid receptor 1 gene (CNR1) variants significantly increased risk for drug dependence (DD), including cocaine dependence (CD). This study aimed to investigate directly the association between CNR1 and CD in four independent samples. Eight markers across the 45 kb CNR1 region and four large samples, ie, family-based European-American (EA) sample (n=734), case–control EA sample (n=862), family-based African-American (AA) sample (n=834) and case–control AA sample (n=619) were examined in the present study. We investigated the association of these markers with CD and cocaine-induced paranoia (CIP) in the EA family sample first, and then replicated positive results in the other three samples. The interaction between two independent CNR1 variants, ie, the G allele-containing genotypes of rs6454674 (SNP3∧G+), and the T/T genotype of rs806368 (SNP8∧T/T), significantly increased risk for CD in the EA family (PGEE=0.015) and EA case–control (Pregression=0.003) samples. EA subjects with SNP3∧G+ and SNP8∧T/T had higher risk to develop CD than those EA subjects with the other genotypes for these two SNPs (LR+=1.4). The SNP3∧G-SNP8∧T haplotype also showed significant association (P=0.018) with CD in the EA case–control sample. SNP8-containing haplotypes showed significant association with both CD (Pglobal=0.007) and CIP (Pglobal=0.003) in the EA family sample. In the AA family sample, SNP8∧T/T significantly conferred higher risk for CD (P=0.019). We conclude that two independent CNR1 variants have significant interaction effects on risk for CD in EAs; they may also have effects on risk for CD in AAs.

Genome-Wide Significant Association Signals in IPO11-HTR1A Region Specific for Alcohol and Nicotine Codependence

BACKGROUND Alcohol and nicotine codependence can be considered as a more severe subtype of alcohol dependence. A portion of its risk may be attributable to genetic factors. METHODS We searched for significant risk genomic regions specific for this disorder using a genome-wide association study. A total of 8,847 subjects underwent gene-disease association analysis, including (i) a discovery cohort of 818 European American cases with alcohol and nicotine codependence and 1,396 European American controls, (ii) a replication cohort of 5,704 Australian family subjects with 907 affected offspring, and (iii) a replication cohort of 449 African American cases and 480 African American controls. Additionally, a total of 38,714 subjects of European or African descent in 18 independent cohorts with 10 other nonalcoholism neuropsychiatric disorders were analyzed as contrast. Furthermore, 90 unrelated HapMap CEU individuals, 93 European brain tissue samples, and 80 European peripheral blood mononuclear cell samples underwent cis-acting expression quantitative locus (cis-eQTL) analysis. RESULTS We identified a significant risk region for alcohol and nicotine codependence between IPO11 and HTR1A on chromosome 5q that was reported to be suggestively associated with alcohol dependence previously. In the European American discovery cohort, 381 single nucleotide polymorphisms (SNPs) in this region were nominally associated with alcohol and nicotine codependence (p < 0.05); 57 associations of them survived region- and cohort-wide correction (α = 3.6 × 10(-6) ); and the top SNP (rs7445832) was significantly associated with alcohol and nicotine codependence at the genome-wide significance level (p = 6.2 × 10(-9) ). Furthermore, associations for 34 and 11 SNPs were replicated in the Australian and African American replication cohorts, respectively. Among these replicable associations, 4 reached genome-wide significance level in the meta-analysis of European Americans and European Australians: rs7445832 (p = 9.6 × 10(-10) ), rs13361996 (p = 8.2 × 10(-9) ), rs62380518 (p = 2.3 × 10(-8) ), and rs7714850 (p = 3.4 × 10(-8) ). Cis-eQTL analysis showed that many risk SNPs in this region had nominally significant cis-acting regulatory effects on HTR1A or IPO11 mRNA expression. Finally, no markers were significantly associated with any other neuropsychiatric disorder examined. CONCLUSIONS We speculate that this IPO11-HTR1A region might harbor a causal variant for alcohol and nicotine codependence.